QUEENSLAND DEPARTMENT OF MINES
GEOLOGICAL SURVEY OF QUEENSLAND ( J . T. Woods, Chief Government Geologist)
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QUEENSLAND DEPARTMENT OF MINES
GEOLOGICAL SURVEY OF QUEENSLAND ( J . T. Woods, Chief Government Geologist)
PUBLICATION No. 351 PALAEONTOLOGICAL PAPERS, No. 25
EARLY JURASSIC MIOSPORES FROM THE HELIDON SANDSTONE
by
N. J . de JERSEY
BRISBANE FEBRUARY,
I97I
EARLY JURASSIC MIOSPORES FROM THE HELIDON SANDSTONE by N . J. DE J E R S E Y Geological Survey of Queensland SUMMARY
Miospore assemblages are recorded from shale beds within the Helidon Sand stone, a Jurassic formation in south-eastern Queensland. Additional material has been studied from the overlying Marburg Formation, the underlying Raceview Formation and from the Ripley Road Sandstone, to investigate the biostratigraphic relationships of these units to the Helidon sequence. From 4 4 samples examined. 83 distinct species are listed. Two of these are described as new species, and assigned to the genera Ceratosporites and Densosporiies. The genera Cerebropolienites and Zebrasporites are recorded, for the first time, from Australia. The assemblages from the Helidon Sandstone and Marburg Formation include many species recorded from the Surat Basin, to the west; the investigation has shown that microfloras from the Surat Basin sequence are relatively persistent laterally. On the basis of material from three stratigraphic holes in the Lowood area, the microfloral sequence in a section of 2400 feet of sediments has been recorded and illustrated by a microfloral distribution chart. Evidence from the microfloras for correlation between the Surat and Moreton Basins is discussed. The lower part of the Helidon Sandstone is regarded as older than the Precipice Sandstone; the remainder of the Helidon Sandstone and the Marburg Formation can be closely related to the Surat Basin succession. Litliolosical evidence for the lateral exten sion of the Raceview Formation, below the Helidon Sandstone, is supported by miospore assemblages. Comparison with European microfloras, dated by marine faunas, indicates that the Helidon Sandstone and Marburg Formation are probably of Liassic age. Assemblages from the type section of the Ripley Road Sandstone, to the cast, are of Rhaetic aspect. It is concluded that a continuous conformable sequence of sedi ments, spanning the Triassic-Jurassic boundary, is preserved in the area to the east of the West Ipswich Structure.
INTRODUCTION
In a recent paper Reiser and Williams (1969) have described the microfloral succession in Lower Jurassic sediments of the Surat Basin. T o the east of the Surat Basin, and partly separated from it by the Kumbarilla Arch (Allen and Hogetoorn, 1970, pp. 3, 11) the Moreton Basin of south-eastern Queensland also con tains Jurassic sediments. The primary purpose of the present investigation has been to study the microfloral sequence of the Helidon Sandstone, at the base of the Jurassic succession in the Moreton Basin, so that it may be compared and correlated with that of the Surat Basin. Although the study was based primarily on material from the Helidon Sandstone, additional samples fiom other formations have been examined, to provide additional data on correlation with the sequence in the Surat Basin and on the age relationships of the sedi ments. These additional samples came from the Mar burg Formation, which conformably overlies the Helidon Sandstone, from underlying sediments correlated with the Triassic Raceview Formation and
from the Ripley Road Sandstone. The latter formation is at the top of the Triassic sequence in the Bundamba Group of the Ipswich area; samples from it have been examined to study the relationship of this Late Triassic sequence to the Jurassic Helidon-Marburg succession. The formations investigated were all deposited largely, if not entirely, in a continental environment. Plant macrofossils have been collected from some of them, but generally the miospores appear to be more useful, in detailed correlation of these sediments. This is because of their wide distribution, particularly in cores of stratigraphic drillholes which, in many cases, yield few, if any macrofossils. In addition to these correlation studies, a further objective has been to examine microfloral evidence on the age of the sedi ments. This aspect is of particular interest in this area of south-eastern Queensland, in view of recent evidence (de Jersey, 1970b, p. 22} suggestive of a gradual transition from the Late Triassic microflora of the Raceview Formation to assemblages of Liassic character, in the overlying sediments.
LOCALITY
FIG. 1: SHOWING
LOCATIONS
OF
MAP.
STRATIGRAPHIC
DRILL
HOLES.
SCALE. s
5
1 S
HI MILES
10
15 KILOMETRES
LEGEND. Tertiary
(Undifferentiated
volcanics and
sediments)
"Walloon C o a l Measures. Jurassic
Marburg
Jurassic-Triassic
Bundamba
Helidon
{
Ipswich
Triassic
Esk
Palaeozoic
Sandstone. Group-Undifferentiated.
Coal
Measures.
Beds.
( U n d i f f e r e n t i a t e d g r a n i t e s , v o l c a n i c s and met amorphics)
Stratigraphic
Drill
Geology generalized Moreton
Formation.
District
Hole
after
(1955).
OG.S.Q. Geological
Quaternary
IPSWICH 1
Map
alluvium
of
the
omitted.
v / ' '
I ^
3
KARLY JURASSIC MIOSPORES FROM THE HELIDON SANDSTONE STRATIGRAPHIC
DISCUSSION
The material studied came from holes drilled in the course of the stratigraphic drilling programme of the Geological Survey of Queensland. They were con tinuously cored to depths of the order of 1200 feet; their locations are shown on the locality m a p (Figure 1). Investigation of the microfloral sequence of the Helidon Sandstone, and of the underlying and over lying sediments, was based primarily on samples from G.s!Q. Ipswich 3. 4 and 5, drilled during 1969 in the Lowood area. The sediments known in outcrop to the north of Lowood were previously assigned to the Wivenhoe Sandstone. However this unit is known to be co-extensive, in surface outcrop, with the Helidon Sandstone, the type area of which is further to the west, north of Helidon. The latter name is preferred for the formation, as it has chronological priority (A. R. G. Gray, pers. comm.). In the sediments cored by these stratigraphic holes, the section which is deepest, stratigraphically, was penetrated by G.S.Q. Ipswich 4. This hole reached total depth at 1201 feet, in sediments correlated, on lithological evidence, with the Esk Beds. T w o samples, from depths of 1170 feet 2 inches and 1174 feet II inches, in these basal sediments, were processed, but did not yield any identifiable microfossils. This section is overlain, at a depth of 1169 feet, by strata correlated with the Raceview Formation, which ;n turn are suc ceeded by the Helidon Sandstone at a depth of 9 9 1 feet. The latter formation extends to the surface in this hole. A section, which includes sediments higher in the sequence, was cored in G.S.Q. Ipswich 3. This hole reached a total depth of 1200 feet in the Helidon Sandstone, which is succeeded by the Marburg Forma tion at a depth of 2 0 0 feet. T h e latter unit is dis tinguished in the subsurface from the Helidon Sand stone by the more lithic nature and somewhat greenish colour of the sandstones it contains and by having a greater proportion of interbedded shale and mudstone (A. R, G. Gray, pers. comm.). In G.S.Q. Ipswich 5 total depth was reached at 1200 feet, in the Helidon Sandstone. A gradational change to the overlying Mar burg Formation takes place in the interval between 1000 and 1200 feet; the latter formation extends to the surface. The sections encountered in these holes have been correlated with each other, on the basis of lithological evidence and the slight regional dip to the south in this area. This correlation is shown diagrammatically in Figure 2. It will be evident that, taken in conjunction, they provide a continuously cored record through a stratigraphic thickness of 2430 feet of sediments, com prising (above the Esk Beds at the base) 178 feet of Raceview Formation, 1181 feet of Helidon Sandstone, ;;nd 1040 feet of lower and middle Marburg Formation. T o the west, G.S.Q. Ipswich 9 was drilled to provide material from the type area of the Helidon Sandstone. It reached total depth at 1015 feet in granite, the base of the Raceview Formation being at 995 feet. This is succeeded by Helidon Sandstone at 742 feet: the top
of this formation is at a depth of 95 feet, above which it is overlain by the Marburg Formation. Finally, samples were obtained from cores of two holes drilled in the Ripley Road Sandstone, to the south-cast of Ipswich. These are N.S. 2 7 2 (Ipswich) and G.S.Q. Ipswich I. T h e lithological sequence pene trated in the former has been recently described (de Jersey, 1970b, p . 2). As part of the present investiga tion, two samples from the Ripley Road Sandstone, which extends from 446 to 1183 feet in this hole, have been examined. This interval has been selected as the lype section of this formation (Staines, 1964, p . 34). The other hole, G.S.Q. Ipswich 1. was drilled in 1968 to a total depth of 1242 feet. The lower part of this hole penetrated a section disturbed by faulting, but regarded as equivalent to the Raceview Formation. Thi^ is overlain by the Ripley Road Sandstone at 7 ! 1 feet; the latter formation extends to the surface in this hole (A. R. G. Gray, pers. comm.).
PROCESSING
OF
SAMPLES
Samples from these stratigraphic holes comprise pieces of core about i to 1 inch in vertical thickness; their depths are recorded in the Appendix of this paper. They all consist of relatively line grained sediments (shale, mudstone or siltstonel. The investigation has been based on samples of these fine sediments as they give much better yields of plant microfossils than the intervening sandstones. In this respect continuous coring of the stratigraphic holes has been of great advantage, particularly in the case of the Helidon Sandstone, in which the beds of shale and siltstone are relatively thin, in relation to the interbedded quartzose sandstone, which constitutes the dominant portion of ihe sequence in this formation. After crushing, silicates were removed by treatment with hydrofluoric acid, followed by heating in dilute hydrochloric acid to remove insoluble fluorides. T h e residue was then subjected to mild oxidation, with dilute nitric acid. At each stage of the process the carbonaceous material was washed to neutrality by centrifuging. After oxidation the residue was subjected to specific gravity separation in zinc chloride or zinc bromide solution; in this way large amounts of opaque carbonaceous matter were removed, thus enhancing the proportion of spores and pollen grains in the final residues, from which permanent microslides were pre pared. A balsam-based mounting medium was used in preparation of the permanent microslides. In accordance with the writer's previous practice figured specimens are located by the stage co-ordinates of a Carl Zeiss G F L Microscope, In addition to the specimen co-ordinates, co-ordinates of a reference point, arbitrarily selected as the lower right hand corner of the cover glass, are recorded in the text for each figured specimen. With this information the specimens can be readily located by means of a microscope equipped with a mechanical stage. Microslides pre pared during the investigation are stored in the collec tion of the Palynology Section, Geological Survey of
4
EARLY JURASSIC MIOSPORES FROM THE HELIDON SANDSTONE
Queensland. Maceration residues from all samples are also stored in the collection of the Palynology Section and the samples themselves are stored in the Core Library of the Geological Survey.
SYSTEMATIC
DESCRIPTIONS
Anteturma SPORITES H. Potonie, 1893 Turraa T R I L E T E S Reinsch emend. Dettmann, 1963 Sublinma AZONOTRILFTES Lubcr emend. Dettmann, 1963 Infraturma LAEVIGATI Bennie & Kidston emend. Potonie, 1956 Genus CALAMOSPORA Schopf, Wilson & Bentall, 1944 Type species: Calamospora hariungianct Schopf, in Schopf, Wilson & BentaLi, 1944. Calamospora tenet- (Leschik) de Jersey, 1962 Distribution: Keuper of Switzerland (Leschik, 1 9 5 5 ) ; Karnian of Austria (Klaus, I 9 6 0 ) ; Middle and Upper Triassic and Lower Jurassic of Germany (Madler, 1964a; Scbulz, 1 9 6 6 ) ; Jurassic of Great Britain (Couper. 1958). Queensland records; Triassic of Ipswich Coal Measures (de Jersey, 1962, 1 9 7 0 b ) ; Middle Triassic of Moolayember Formation (de Jersey and Hamilton, 1 9 6 7 ) ; Triassic of Clematis Sandstone, Rewan Formation (de Jersey, 1968, 1 9 7 0 a ) ; Jurassic of Marburg Formation (this p a p e r ) . Genus CYATHIDITES Couper, 1953 Type species: Cyathidites australis Couper, 1953. Cyaihidites australis Couper, 1953 Plate 1, Figure 1 Figured specimen: Slide S2464, stage co-ordinates 14.0, 89.5; diameter 56 microns. Co-ordinates of lower right hand corner of cover glass 2 7 . 1 , 83.4. Locality: G.S.Q. Ipswich 5, 234 feet, 2 inches (Mar burg F o r m a t i o n ) . Distribution: Widely distributed in Mesozoic sedi ments. Queensland records: Jurassic of Evergreen Formation, lower Hutton Sandstone of Surat Basin (Reiser and Williams, 1 9 6 9 ) ; Jurassic of Razorback Beds (PJayford and Cornelius, 1 9 6 7 ) ; Jurassic of Marburg Formation (this p a p e r ) . Cyaihidites minor Couper, 1953 Plate I, Figure 3 Figured specimen: Slide S2439, stage co-ordinates 17.0, 87.0; diameter 26 microns, Co-ordinates of lower right hand corner of cover glass 25.2, 82.5. Locality: G.S.Q. Ipswich 5, 578 feet, 8 inches (Mar burg F o r m a t i o n ) . Remarks: Only specimens with concavely subtriangular ambs, as specified in the original diagnosis (Couper, 1953, p. 2 8 ) have been assigned to this species. Other spores, which are convexly subtriangular, have been recorded as Leiotriletes directus Balme and and Hennelly.
Distribution: Widely distributed in Mesozoic sedi ments. Queensland records: Jurassic of Precipice Sand stone. Evergreen Formation, lower Hutton Sandstone (Reiser and Williams, 1 9 6 9 ) ; Jurassic Razorback Beds (Playford and Cornelius, 1 9 6 7 ) ; Jurassic of Marburg Formation (this p a p e r ) . Genus DICTYOPHYLLIDLTES Couper emend. 1963
Dettmann,
Type species: Dictyophyllidites harrisii Couper, 1958. Dictyophyllidltes harrisii Couper, 1958 Remarks: As stated by Playford ( 1 9 6 5 , p. 179) this species is generally larger than Dictyophyllidites mortoni (de Jersey) Playford and Dettmann, 1965 and its e.xinal thickenings are less prominent. Distribution: Jurassic of Great Britain (Couper, 1 9 5 8 ) ; Lower Jurassic of Hungary (G6czan, 1 9 5 6 ) ; Triassic of Austria (Bharadwaj and Singh 1 9 6 4 ) ; Triassic of Tasmania (Playford, 1965); Triassic of Moolayember Formation, Clematis Sandstone (de Jersey and Hamilton, 1967; de Jersey, 1 9 6 8 ) ; Jurassic of Helidon Sandstone (this p a p e r ) . Dictyophyllidites
mortoni (de Jersey) Playford & Dettmann, t 9 6 5
Distribution: Jurassic of Walloon Coal Measures, Marburg Formation, Helidon Sandstone (de Jersey, 1959, 1963, this p a p e r ) ; Rhaeto-Liassic of Leigh Creek Coal Measures, South Australia (Playford and Dett mann, 1 9 6 5 ) ; Triassic of Ipswich Coal Measures (de Jersey, 1962); Triassic of Moolayember Formation (de Jersey and Hamilton. 1967); Triassic of Clematis Sandstone, Rewan Formation (de Jersey, 1968, 1970a); Triassic of Tasmania (Playford, 1 9 6 5 ) ; Triassic of Tingalpa and Moorooka Formations, Brisbane area (de Jersey and Hamilton, 1965b), Triassic of Blackstone Formation, Aberdare Con glomerate. Raceview Formation. Ripley Road Sand stone (de Jersey, 1964, 1970b, this p a p e r ) . Genus GLEICHENIIDITES Ross ex Delcourt & Sprumont emend. Dettmann, 1963 Type species: Gleicheniidites senonicus Ross, 1949. Gleicheniidites senonicus Ross, 1949 Remarks: This species is recorded in one assemblage from the Marburg Formation. Distribution: Widely recorded from Jurassic. Cretaceous and Tertiary sediments. Queensland records; Evergreen Formation (Reiser and Williams, 1 9 6 9 ) ; Marburg Formation (this p a p e r ) . Genus LEIOTRILETES (Naumova) Potonie & Kremp, 1954 Tvpe species: Leiotriletes sphaerotriangulus (Loose) Potonie & Kremp, 1954. Leiotriletes directus Balme & Hennelly, 1956 Remarks: Spores of this simple, generalized type are virtually ubiquitous in lower Mesozoic assemblages from Queensland. Genus STEREISPORITES Pflug emend, de Jersey. 1964
EARLY JURASSIC MTOSPORES FROM THE HELIDON SANDSTONE
Type species: Stereisporites Venitz) Pflug, 1953. Stereisporites
stereoides
(Potonie &
antiquasporites (Wilson & Webster) Dettmann, 1963
Distribution: Widely distributed in Mesozoic and Tertiary sediments. Queensland records: Triassic of Blackstone Formation, Aberdare Conglomerate, Raceview Formation, Ripley Road Sandstone (de Jersey, 1964; Hill, Playford and Woods, 1965; de Jersey, 1 9 7 0 b ) ; Triassic of Moolayember Formation (de Jersey and Hamilton, 1967); Clematis Sandstone, Rewan Formation (de Jersey, 1968, 1 9 7 0 a ) ; Jurassic of Precipice Sandstone, Evergreen Formation, lower Hutton Sandstone of Surat Basin (de Jersey and Paten, 1964; Reiser and Williams, 1 9 6 9 ) ; Jurassic of Razorback Beds (Playford and Cornelius, 1 9 6 7 ) ; Jurassic of Helidon Sandstone (this p a p e r ) . Stereisporites
perforatum Leschik, 1955
Distribution: Widely distributed in Mesozoic sedi ments. Queensland records: Triassic of Blackstone Formation, Raceview Formation, Ripley Road Sand stone (Hill, Playford and Woods, 1965; de Jersey, 1970b. this p a p e r ) ; Jurassic of Razorback Beds (Play ford and Cornelius, 1 9 6 7 ) ; Jurassic of Precipice Sand stone, Evergeen Formation, lower Hutton Sandstone of Surat Basin (Reiser and Williams, 1 9 6 9 ) ; Jurassic of Helidon Sandstone, Marburg Formation (this p a p e r ) . Infraturma A P I C U L A T I Bennie & Kidston Potonie, 1965
emend.
Subinfraturma VERRUCATI Dybova & Jachowicz, 1957 Genus CONVERRUCOSISPORITES Potonie & Kremp, 1954 Type species: Converrucosisporites triquetrus (Ibrahim) Potonie & Kremp, 1959. Converrucosisporites
cameroni (de Jersey) Playford & Dettmann, 1965
Distribution: Triassic of Ipswich Coal Measures, Bundamba Group (de Jersey, 1962, 1964, 1970b, this p a p e r ) ; Triassic and Jurassic of Leigh Creek Coal Measures (Playford and Dettmann, 1965); Triassic of Tingalpa and Moorooka Formations, Brisbane area (de Jersey and Hamilton, 1 9 6 5 b ) ; Middle Triassic of Moolayember Formation (de Jersey and Hamilton, 1 9 6 7 ) ; Triassic of Clematis Sandstone, Rewan Forma tion (de Jersey, 1968, 1 9 7 0 a ) . Genus CRATERISPORITES de Jersey, 1970 Type species: Craterisporites routndus de Jersey, 1970. Craterisporites
rotundus de Jersey, 1970
Remarks: A few specimens of this species have been observed in assemblages from the Raceview Formation. Distribution: Blackstone Formation, Aberdare Con glomerate, Raceview Formation (de Jersey, 1970b, this paper). Subinfraturma NODATI Dybova & Jachowicz, 1967
5
Genus ANAPICULATISPORITES Potonie & Kremp, 1954 Tvpe species: A napiculatisporites Potonie & Kremp, 1954.
isselburgensis
Anapiculatisporites
dawsonensis Reiser & Williams, 1969 Plate 1, Figure 5 Figured specimen: Slide S2388, stage co-ordinates 21.7, 93.7; diameter 40 microns. Co-ordinates of lower right hand corner of cover glass 26.9, 82.0. Locality: G.S.Q. Ipswich 3, 825 feet, 2 inches (Helidon Sandstone). Distribution: Precipice Sandstone, Evergreen Forma tion, lower Hutton Sandstone of Surat Basin (Reiser and Williams, 1 9 6 9 ) ; Raceview Formation, Ripley Road Sandstone, Helidon Sandstone, Marburg Forma tion (this paper). Anapiculatisporites
pristidentatus Reiser & Williams, 1969 Plate 1, Figure 2 Figured specimen: Slide S2400, stage co-ordinates 15.5, 4 0 . 3 ; diameter 36 microns. Co-ordinates of lower right hand corner of cover glass 2 6 . 1 , 84.6. Locality: G.S.Q. Ipswich 3, 153 feet, 3 inches (Mar burg F o r m a t i o n ) . Distribution: Jurassic of Precipice Sandstone, Ever green Formation, lower Hutton Sandstone of Surat Basin (Reiser and Williams, 1 9 6 9 ) ; Triassic of Black stone Formation, Aberdare Conglomerate, Raceview Formation, Ripley Road Sandstone; Jurassic of Helidon Sandstone, Marburg Formation (de Jersey. 1970b, this paper). Genus APICULATISPORIS Potonie & Kremp, 1956 Tvpe species: Apiculatisporis aculeatus (Ibrahim) Potonie, 1956. Apiculatisporis
globosus (Leschik) Playford & Dettmann, 1965 Plate 1, Figure 4 Figured specimen: Slide S2503, stage co-ordinates 13.8. 86.8; diameter 5 3 microns. Co-ordinates of lower right hand corner of cover glass 26.5, 86.9. Locality: G.S.Q. Ipswich 9, 824 feet, 6 inches (Raceview F o r m a t i o n ) . Distribution: Middle Keuper of Switzerland (Leschik, 1 9 5 5 ) ; Liassic of Sweden (Nilsson, 1 9 5 8 ) ; Triassic of Leigh Creek Coal Measures, South Australia (Playford and Dettmann, 1 9 6 5 ) ; Triassic of Tasmania (Playford 1 9 6 5 ) ; Triassic of Blackstone Formation, Raceview Formation, Ripley Road Sandstone (Hill, Playford and Woods, 1965; d e Jersey, 1970b, this p a p e r ) ; Jurassic of Helidon Sandstone (this p a p e r ) . Apiculatisporis
taroomensis Reiser & Williams, 1969 Plate 1, Figure 7 Figured specimen: Slide S2402, stage co-ordinates 18.8, 9 5 . 1 ; diameter 43 microns. Co-ordinates of lower right hand corner of cover glass 26.6, 8 3 . 1 .
EARLY JURASSIC MIOSPORES FROM THF HELICON SANDSTONE
Locality: G.S.Q. Ipswich 3, 130 feci, 9 inches (Mar burg F o r m a t i o n ) . Remarks: This species is relatively rare in the material studied. It has been recorded in two assemb lages from the Marburg Formation. Distribution: Precipice Sandstone, lower Hutton Sandstone of Surat Basin (Reiser and Williams, 1 9 6 9 ) ; Marburg Formation (this p a p e r ) . Genus FORAMINISPORIS Krutzsch, 1959 Tvpe 1959.
species:
Foraminisporis
foraminis
Krutzsch,
Foraminisporis
tribulosus Playford & Dettmann. 1965 Plate 1, Figure 6 Figured specimen: Slide S2351. stage co-ordinates 20.1, 9 5 . 6 : diameter 37 microns. Co-ordinates of lower right hand comer of cover glass 27.3, 84.8. Locality: G.S.Q. Ipswich 4, 639 feet, 11 inches (Helidon Sandstone). Remarks: The specimen figured is the only specimen of this species observed in the assemblages studied. Distribution: Liassic of Leigh Creek Coa! Measures. South Australia (Playford & Dettmann. 1965); lower Precipice Sandstone of Surat Basin (dc Jersey and Paten, 1964; Reiser and Williams, 1969); lower Helidon Sandstone (this p a p e r ) . Genus OSMUNDACIDITES Couper, 1953 Tvpe species: Osmundacidites weiimanii Couper, 1953. Remarks: Apart from spores assigned to Osmunda cidites weiimanii, recorded below and in the assemblage lists, no specific identification of specimens assigned to Osmundacidites has been made. It appears likely that such specific differentiation would have little, if any, stratigraphic application, in the section studied. Osmundacidites weiimanii Couper, 1953 Distribution: Very widespread in Mesozoic sedi ments (for Queensland records see de Jersey, 1970b, p. 6 ) . Additional record: Helidon Sandstone (this paper). Genus PUSTUI.ATISPORITES Potonie & Kremp. 1954 Tvpe species: Pustulatisporites pustulatus Potonie & Kremp, 1954. Pustulatisporites blackstonensis de Jersey, 1970 Remarks: This species is a rare component of some assemblages from the Raceview Formation. Distribution: Blackstone Formation. Aberdare Con glomerate (de Jersey, 1 9 7 0 b ) : Raceview Formation (this p a p e r ) . Subinfraturma BACULATI Dybova & Jachowicz, 1957 Genus BACULATISPORITES Thomson & Pflug, 1953 Type species: Baculatisporites primarius (Wolff) Thomson & Pflug, 1953. Baculatisporites
comaumensis 1956
Distribution: Widespread in Australian Mesozoic sediments; has been reported in Europe from the Upper Muschelkalk onwards (Klaus, 1960; Schulz, 1 9 6 6 ) . Queensland records: Jurassic of Precipice Sandstone. Evergreen Formation, lower Hutton Sandstone of Surat Basin (de Jersey and Paten, 1964; Reiser and Williams, 1969); Cretaceous ot Wallumbilla Formation (dc Jersey and Paten, 1 9 6 4 ) ; Triassic of Blackstone Formation, Aberdare Conglomerate, Raceview Forma tion (de Jersey, 1970b); Jurassic of Helidon Sandstone, Marburg Formation (this p a p e r ) .
(Cookson) Potonie,
Genus CADARCASPORITTS de Jersey & Paten emend. Reiser & Williams, 1969 Type species: Cadargasporites baculatus de Jersey & Paten emend. Reiser & Williams. 1969. Cadaigasporites
baculatus de Jersey & Paten emend. Reiser & Williams, 1969 Distribution: Jurassic of Precipice Sandstone, Ever green Formation, basal Hutton Sandstone of Sural Basin (de Jersey and Paten, 1964; Reiser and Williams, 1969); Triassic of Blackstone Formation, Raceview Formation, Ripley Road Sandstone (de Jersey 1970b, this p a p e r ) ; Jurassic of Helidon Sandstone, Marburg Formation (this paper). Cadargasporites
vranulatus de Jersey & Paten emend. Reiser & Williams. 1969 Remarks: This species is a rare component of the Helidon and Marburg assemblages. Distribution: Jurassic of Precipice Sandstone, Ever green Formation, lower Hutton Sandstone (de Jersey and Paten, 1964; Reiser and Williams, 1969); Triassic of Raceview Formation (de Jersey. 1970b); Jurassic of Helidon Sandstone, Marburg Formation (this paper). Cadargasporites reticidattts de Jersey & Paten. 1964 Distribution: Jurassic of Precipice Sandstone, Ever green Formation, lower Hutton Sandstone of Surat Basin (de Jersey and Paten, 1964; Reiser and Williams, 1 9 6 9 ) ; Triassic of Raceview Formation, Ripley Road Sandstone (de Jersey, 1970b, this p a p e r ) ; Jurassic of Helidon Sandstone. Marburg Formation (this p a p e r ) . Cadargasporites verrucosus Reiser & Williams, 1969 Remarks: This species is relatively rare in the material studied. Only four specimens were recorded, all in assemblages from the Marburg Formation. Distribution: Precipice Sandstone, Evergreen Forma tion, lower Hutton Sandstone (Reiser and Williams, 1969); Marburg Formation (this p a p e r ) . Genus CERATOSPORITES Cookson & Dettmann, 1958 Tvpe species: Ceratosporites equalis Cookson & Dettmann, 1958. Remarks: Potonie's distinction ( I 9 6 0 , p. 43) between Neoraistrickkt and Ceratosporites, based on the presence of a smooth proximal exine in the latter genus, is supported here. Schulz (1967, p. 563) has widened the specific circumscription of the type species of Neoraistrickia, N. truncata (Cookson) Potonie, 1956 by including European spores with smooth proximal
EARLY JURASSIC MIOSPORES FROM THE HELIDON SANDSTONE
exines. This alteration of the specific concept of A*. truncata cannot be accepted until it is supported by evidence based on material from the type locality, demonstrating continuous gradation from specimens with smooth proximal exines to others sculptured proximally. The available evidence does not record any such gradation; specimens of N. truncata from the type locality described by Cookson and Dettmann ( 1 9 5 8 , p. 101) all have distinct proximal sculpture. Ceratosporites helidonensis sp. nov. Plate J, Figures 8, 9. 10, 1 1 ; Plate 2, Figure I Diagnosis; Triletc miospores. Amb convexly subtriangular to subcircular. Diameter, excluding projec tions (based on 70 measured specimens) 27 to 46 microns. Laesurae straight, without any marked development of lips; length varies from about half to almost equal spore radius. Equatorial exine with moderately dense sculpture of spinae, about 2 to 5 microns in length, 1 to 2 microns in basal diameter, set about 2 microns apart. Apices of spinae mostly pointed; a few bifurcate. Sculptural elements slightly to dis tinctly reduced in size towards distal pole; distal ele ments mainly coni and verrucae. about 1.5 microns in height and basal diameter. Proximal exine smooth. Distal exine (apart from larger sculptural elements) smooth or faintly scabrate. Exine slightly to distinctly arched distally, thickness in equatorial region about 1 to 2 microns. Holotype (Plate I. Figure 9 ) : Slide S25 18. stage co ordinates 22.0, 92.0; diameter (excluding spines) 43 microns. Co-ordinates of lower right hand comer of cover glass 26.0, 8 4 . 1 . Locality: G.S.O. Ipswich 9, 612 feet, 7 inches (lower Helidon Sandstone). Figured specimen: (Plate 1, Figure 8 ) : Slide S2516, stage co-ordinates 21.0. 95.4; diameter (excluding spines) 4 0 microns. Co-ordinates of lower right hand corner of cover glass 26.7, 83.2. Figured specimen: (Plate I, Figures 10, 11 — proximal, distal foci): Slide S2382, stage co-ordinates 9.7, 9 2 . 3 ; diameter (excluding spines) 40 microns. Co ordinates of lower right hand corner of cover elass 26.7, 83.7. Locality: G.S.Q. Ipswich 3, 825 (middle Helidon Sandstone).
feet.
2
inches
Figured specimen (Plate 2, Figure ]): Slide S2347, stage co-ordinates 16.2, 91.8; diameter (excluding spines) 4 0 microns. Co-ordinates of lower right hand corner of cover glass 26.8, 84.6. Locality: G.S.Q. Ipswich 4, 435 (middle Helidon Sandstone).
feet,
5
inches
Variation: Appreciable variation exists in the extent of reduction of the distal sculptural elements. This reduction may b e relatively moderate, as in the speci men figured in Plate 1, Figures 10 and 11, or quite marked, as in those figured in Plate 1, Figure 8 and Plate 2, Figure 1. In the latter specimen, with extreme reduction of the distal sculpture, a smooth, unorna-
7
mented area is developed around the distal pole, t h e holotype (Plate 1, Figure 9 ) illustrates an intermediate stage in this distal reduction of the sculptural elements. The specimens figured also illustrate variation in the shape of the amb, from subtriangular (Plate 2, Figure 1 ) to subcircular (Plate I, Figure 9 ) , and in the length of the laesurae, from about halt the amb radius (Plate 2, Figure I ) to more than three-quarters of the radius (Plate 1, Figures 10 and I I ) . Some specimens show secondary folding at the equator; less frequently, arcuate folds are present at the ends of the laesurae. Remarks: The specific name indicates provenance of the type material from the Helidon Sandstone; the species is a characteiistic component of assemblages from the lower and middle parts of this formation. It has been assigned to Ceratosporites because the equatorial projections are moderately elongate and spinose, rather than conatc. as in Anapiculatisporites. Ceratosporites helidonensis differs from the Cretace ous type species, C. equaliv Cookson & Dettmann (Cookson and Dettnumn, 1958. pp. 101, 102) in having spinose, rather than baculate projections, and in the distal reduction of its sculptural elements. The latter species also has prominent tectate laesurae, in contrast to the less conspicuous trilete mark of the Queensland species. The Liassic species C. spinosus Schulz, from East Germany (Schulz, 1967, pp. 5 6 3 . 5 6 4 ) has sculptural elements somewhat similar to those of C. helidonensis, but these are more widely spaced at the equator. In addition this European species differs in having longer laesurae and small tubercles on the proximal surface and appears to lack any significant reduction of the sculptural elements towards the distal pole. No close comparison can be made with other species, previously described from Australian Mesozoic sedi ments. The Cretaceous species Acanthotriletes levidensis Balme (Balme. 1957, p. 18} and the Jurassic species A. pallidus de Jersey (de Jersey, 1959, p. 357) have distal spinose sculpture, but in neither case is there any significant reduction of the sculptural elements towards the distal pole. The same distinction applies, with reference to Anapiculatisporites dawsonensis Reiser & Williams and A. pristidentatus Reiser & Williams (Reiser and Williams, 1969, pp. 3, 4 ) . The two latter species are further distinguished by their dominantly conate (not spinose) sculpture. Another species, which shows some similarity t o Ceratosporites helidonensis is Neoraistrickisporites propunctatus, described by Rioult (1965, p. 2 8 7 ) from the lnfraliassic of northern France. This species is similar in size to the Queensland spores, but the equatorial projections are somewhat more elongate and baculate rather than spinose. In addition there is no mention in the description of reduction of the sculptural elements towards the distal polar reeion and the proximal face is finely punctate, while the laesurae normally reach the equator—features not observed in C. helidonensis. Distribution: Lower and middle Helidon Sandstone, uppermost Ripley Road Sandstone (this p a p e r ) .
8
EARLY JURASSIC MIOSPORES FROM THE HE L i DON
Genus C O N BACULATISPORITES Klaus, I960 Type species: Conbaculatisporites mesozoicus Klaus, 1960. Remarks: This genus has much in common with Neoraistrickia Potonie, 1956, but generic distinction is possible on the basis of its having smaller sculptural elements, which are more densely packed, particularly in the radial regions (as illustrated by the type species C. mesozoicus). Conbaculaiisporites sp. A Plate 2, Figure 2 Figured specimen: Slide S2382. stage co-ordinates 23.0. 93.7; diameter 33 microns. Co-ordinates of lower right hand corner of cover glass 26.7, 83.4. Locality: G.S.Q. Ipswich 3, 825 feet, 2 inches (Helidon Sandstone). Remarks: The specimen figured is characterized by the development of bacuia in the radial regions, which tend to be reduced to coni and grana inter-radially, and by the presence of proximal exinal thickenings. The latter feature appears to distinguish it from the type species, Conbaculaiisporites mesozoicus Klaus, 1960. A s only four spores of this type have been observed, insufficient specimens are available to justify formal taxonomic treatment. Distribution: Upper Ripley Road Sandstone, lower and middle Helidon Sandstone (this p a p e r ) . Genus NEORAISTRICKIA Potonie, 1956 Type species: Neoraistrickia truncata (Cookson) Potonie, 1956. Neoraistrickia
elongata Reiser & Williams, 1969 Plate 2, Figures 4 and 5 Figured specimen (Plate 2, Figures 4, 5—equatorial, proximal foci): Slide S2444, stage co-ordinates 9 . 1 , 91.9; diameter 33 microns. Co-ordinates of lower right hand corner of cover glass 25.5, 86.2. Locality: G.S.Q. Ipswich 5, 530 feet, 1 inch (Mar burg F o r m a t i o n ) . Distribution: Precipice Sandstone, Evergreen Forma tion, Lower Hutton Sandstone (Reiser and Williams, 1 9 6 9 ) ; Helidon Sandstone, Marburg Formation (this paper). Neoraistrickia
taylorii Playford & Dettmann, 1965 Plate 2, Figure 3 Figured specimen: Slide S2396, stage co-ordinates 18.1, 96.0; diameter 41 microns. Co-ordinates of lower right hand corner of cover glass 2 5 . 1 , 85.5. Locality: G.S.Q. Ipswich 3, 531 feet; 1 inch (Helidon Sandstone). Distribution: Triassic and Jurassic of Leigh Creek Coal Measures, South Australia (Playford and Dettmann, 1 9 6 5 ) ; Late Triassic of Tasmania (Playford, 1 9 6 5 ) ; Middle Triassic of Moolayember Formation (de Jersey and Hamilton, 1 9 6 7 ) ; Triassic of Black stone Formation, Raceview Formation (Hill, Playford and Woods, 1965; de Jersey, 1 9 7 0 b ) ; Jurassic of
SANDSTONE
Precipice Sandstone, Evergreen Formation, lower Hutton Sandstone of Surat Basin (Reiser and Williams, 1 9 6 9 ) ; Jurassic of Helidon Sandstone, Marburg Forma tion (this p a p e r ) . Infraturma MURORNATI Potonie & Kremp, 1954 Genus DUPLEXISPORITES Deak emend. Playford & Dettmann, 1965 Type species: Duplexisporites generalis Deak, 1962. Duplexisporites
problematicus (Couper) Playford & Dettmann, 1965 Plate 2, Figure 6 Figured specimen: Slide S2334, stage co-ordinates 12.3, 90.5; diameter 48 microns. Co-ordinates of lower right hand corner of cover glass 26.8, 83.0. Locality: G.S.Q. Ipswich 4, 1125 feet, 1 inch (Raceview F o r m a t i o n ) . Remarks: Reference should be made to a recent paper (de Jersey, 1970b, p. 8) for a discussion of the morphology and synonymy of this species. Distribution: Middle Jurassic to Lower Cretaceous of Great Britain (Couper, 1 9 5 8 ) ; Middle Keuper to Lower Cretaceous of East Germany (Schulz, Doring, et al„ 1966; Schulz, 1 9 6 7 ) ; Rhaeto-Liassic of Leigh Creek Coal Measures, South Australia (Playford and Dettmann, 1 9 6 5 ) ; Upper Triassic of Tasmania (Playlord, 1965); Middle Triassic of Moolayember Forma tion (de Jersey and Hamilton, 1 9 6 7 ) ; Triassic of Mount Crosby Formation. Tingalpa and Moorooka Formations (de Jersey and Hamilton, 1965a, 1 9 6 5 b ) ; Triassic of Wandoan Formation (de Jersey and Hamilton, 1969); Triassic of Blackstone Formation, Aberdare Conglomerate, Raceview Formation, Ripley Road Sandstone (de Jersey, 1964; Hill, Playford and Woods, 1965; de Jersey, 1 9 7 0 b ) ; Jurassic of Precipice Sandstone, Evergreen Formation, lower Hutton Sand stone (de Jersey and Paten, 1964, Reiser and Williams, 1 9 6 9 ) ; Jurassic of Razorback Beds (Playford and Cornelius, 1 9 6 7 ) ; Jurassic of Helidon Sandstone, Mar burg Formation (this p a p e r ) . Genus FOVEOSPORITES Balme, 1957 Type species: Foveosporites canalis Balme, 1957. Foveosporites moretonensis de Jersey, 1964 Distribution: Triassic of Aberdare Conglomerate, Raceview Formation, Ripley Road Sandstone (de Jersey, 1964, 1970b, this p a p e r ) ; Jurassic of Precipice Sandstone, Evergreen Formation, lower Hutton Sand stone of Surat Basin (Reiser and Williams. 1 9 6 9 ) ; Jurassic of Helidon Sandstone, Marburg Formation (this p a p e r ) . Gems ISCHYOSPORITES Balme, 1957 Type species: Ischyosporites crateris Balme, 1957. Ischyosporites marburgensis de Jersey, 1963 Plate 3, Figure 12 Figured specimen: Slide S2461, stage co-ordinates 24.1, 94.6; diameter 66 microns. Co-ordinates of lower right hand corner of cover glass 24.0. 94.6.
9
EARLY JURASSIC MIOSPORES FROM THE HELIDON SANDSTONE
Locality: G.S.Q. Ipswich 5, 234 feet, 2 inches (Mar burg F o r m a t i o n ) . Distribution: Jurassic of Precipice Sandstone, Ever green Formation, Hutton Sandstone, Walloon Coal Measures of Surat Basin (de Jersey and Paten, 1964; Reiser and Williams, 1 9 6 9 ) ; Jurassic of Leigh Creek Coal Measures, South Australia (Playford and Dettmann, 1 9 6 5 ) ; Jurassic of upper Helidon Sand stone, Marburg Formation (de Jersey, 1963, this paper). Gems LYCOPODIACIDITES Couper emend. Potonie, 1956 Type species: Lycopodiacidites bullerensis Couper, 1953. Lycopodiacidites
sp. cf. L. kucpperi Klaus. 1960 Plate 2, Figure 9 Figured specimen: Slide S2412, stage co-ordinates .19.3, 9 9 . 8 ; diameter 76 microns. Co-ordinates of lower right hand corner of cover glass 25.2, 83.4. Locality: N.S. 272, 603 feet, 4 inches (Ripley Road Sandstone). Remarks: The specimen figured is closely compar able in most features with Lycopodiacidites kuepperi Klaus (Klaus, 1960, p. 135) but because the preserva tion of the distal exine does not permit detailed com parison of the sculpture patterns, it is not formally identified with the Austrian species. It is the only specimen of this type observed in the present material. Distribution of L. kuepperi; Karnian of Austria (Klaus, 1 9 6 0 ) , Lower and Middle Keuper of East Germany (Schulz, 1 9 6 6 ) . Genus L Y C O P O D I U M S P O R I I E S Thiergart ex Delcourt & Sprumont, 1955 Type species; Lycopodiumsporiies agathoecus (Potonie) Thiergart, 1938. Lycopodiumsporiies
austrocfavalidites (Cookson) Potonie, 1956 Plate 3, Figures 1 and 2 Figured specimen (Plate 3, Figures 1, 2—proximal, distal foci): Slide S2390, stage co-ordinates 7.9, 102.2; diameter 41 microns. Co-ordinates of lower right hand corner of cover glass 25.6, 87.5. Locality: G.S.Q. Ipswich 3, 575 feet, 10 inches (Helidon Sandstone). Remarks: The assignment by Schulz ( 1 9 6 7 , p. 5 7 5 ) to this species of spores with reticulate proximal exines requires confirmation, as Dettmann ( 1 9 6 3 , p. 4 4 ) who studied material close, both stratigraphically and geo graphically to Cookson's type material, described the exine as "smooth proximally". Distribution: Widely distributed in Jurassic and Cretaceous sediments; reported from Middle Rhaetic and Liassic of East Germany (Schulz, 1 9 6 7 ) . Queens land records: Jurassic of Surat Basin (de Jersey and Paten, 1964; Reiser and Williams, 1 9 6 9 ) ; Jurassic of Razorback Beds (Playford and Cornelius, 1 9 6 7 ) ;
Jurassic of Helidon Sandstone, Marburg Formation, Triassic of upper Ripley Road Sandstone (this p a p e r ) . Lycopodiumsporites
rosewoodensis (de Jersey) de Jersey, 1963 Plate 3, Figures 4 and 5 Figured specimen (Plate 3, Figures 4, 5—distal, proximal foci): Slide S2392, stage co-ordinates 17.8, 89.6; diameter 33 microns. Co-ordinates of lower right hand corner of cover glass 2 5 . 1 , 82.2. Locality: G.S.Q. Ipswich 3 . 575 feet, 10 inches (Helidon Sandstone). Distribution: Walloon Coal Measures (de Jersey, 1 9 5 9 ) ; Jurassic of Surat Basin (de Jersey and Paten, 1964; Reiser and Williams, 1 9 6 9 ) ; Jurassic Razorback Beds (Playford and Cornelius, 1 9 6 7 ) ; Triassic of Raceview Formation, Ripley Road Sandstone (de Jersey, 1970b, this p a p e r ) ; Jurassic of Helidon Sand stone, Marburg Formation (de Jersey, 1963, this paper). Lycopodiumsporites semimuris (Danze-Corsin & Laveine) Reiser & Williams, 1969 Plate 3, Figure 3 Figured specimen: Slide S2403, stage co-ordinates 21.1, 9 0 . 7 ; diameter 38 microns. Co-ordinates of lower right hand corner of cover glass 24.3, 86.0. Locality: G.S.Q. Ipswich 3, 130 feet, 9 inches (Mar burg F o r m a t i o n ) . Distribution: Rhaetian, Lower and Middle Jurassic of France (Briche et ai, 1963; Levet-Carette, 1964a,b); Lower Jurassic of Canada (McGregor, 1965); Precipice Sandstone. Evergreen Formation of Surat Basin (Reiser and Williams, 1969); Upper Ripley Road Sandstone, Helidon Sandstone, Marburg Formation (this p a p e r ) . Genus STAPLINISPORITES Pocock, 1962 Type species: Staplinisporites caminus (Balme) Pocock. 1962. Staplinisporites caminus (Balme) Pocock, 1962 Distribution: Upper Jurassic of Western Australia (Balme, 1 9 5 7 ) ; Lower Cretaceous of south-eastern Australia (Dettmann, 1 9 6 3 ) ; Evergreen Formation, lower Hutton Sandstone of Surat Basin (de Jersey and Paten, 1964; Reiser and Williams, 1 9 6 9 ) ; Marburg Formation (this p a p e r ) . T u r m a ZONALES Bennie & Kidston emend. 1956
Potonie,
Subturma A U R I T O T R I L E T E S Potonie & Kremp, 1954 Infraturma AURICULATI Schopf emend. Dettmann, 1963 Genus TRILOBOSPORITES P a n t ex Potonie, 1950 Type species: Trilobosporites hannonicus (Delcourt & Sprumont) Potonie, 1956. Trilobosporites Figured
antiquus Reiser & Williams, 1969 Plate 3, Figure 11 specimen: Slide S2468, stage co-ordinates
10
EARLY JLRASS1C MIOSPORES FROM THE HELIDON SANDSTONE
18.8, 86.0; diameter 64 microns. Co-ordinates of lower right hand corner of cover glass 25.8, 85.9. Locality: G.S.Q. Ipswich 5, 204 feet, 9 inches (Mar burg F o r m a t i o n ) . Distribution: Precipice Sandstone, Evergreen Forma tion, lower Hutton Sandstone of Surat Basin (de Jersey and Paten, 1964; Reiser and Williams, 1969); Marburg Formation (this p a p e r ) .
Queensland and European microfloral sequences; this correlation is discussed in a later section of this paper. Distribution: Keuper of Central Germany (Thiergart, 1 9 4 9 ) ; Middle Keuper, Rhaetian and Liassic of East Germany (Schulz, 1962, 1966, 1967); Rhaetian and Liassic of Poland (Orlowska-Zwolinska, 1964, 1 9 6 6 ) ; late Karnian, Norian and Rhaetian of West Germany and England (Geiger and Hopping, 1 9 6 8 ) : Ripley Road Sandstone (this p a p e r ) .
Subturma ZONOTRILETES Waltz. 1935
Infraturma G N G U L A T I Potonie & Klaus emend. Dettmann, 1963 Genus ANNULISPORA de Jersey, 1959
Infraturma TRICRASSATI Dettmann, 1963 Genus CAMAROZONOSPORITES Pant cx Potonie Klaus, 1960
emend.
Type species: Camarozonospoiites land & Krieger) Potonie, 1956.
(Wey-
Camarozonosporites
cretaceus
rudis (Leschik) Klaus, 1960
Remarks: This species is a rare component of the Helidon and Raceview assemblages. Distribution: Keuper of Switzerland (Leschik, 1 9 5 5 ) ; Karnian, Norian, Rhaetian and Liassic of Austria (Klaus, 1960 and pers. c o m m . ) ; Middle and Upper Keuper and Liassic of Germany (Madler, 1964a, 1964b; Schulz, 1966, 1 9 6 7 ) ; Keuper and lower Rhaetian of Poland (Orlowska-Zwolinska, 1964); Upper Triassic of Canada (McGregor, 1 9 6 5 ) ; Jurassic of Razorback Beds, Queensland (Playford and Cornelius, 1 9 6 7 ) ; Precipice Sandstone, Evergreen Formation of Surat Basin (Reiser and Williams, 1 9 6 9 ) ; Triassic of Aberdare Conglomerate, Raceview Forma tion (de Jersey, 1970b, this p a p e r ) ; Jurassic of Helidon Sandstone, Marburg Formation (this p a p e r ) . Genus ZEBRASPORITES Klaus, 1960 Type species: Zebrasporites kahleri Klaus, 1960. Remarks: The generic diagnosis of Klaus (1960, p. 137) is preferred to that of Schulz ( 1 9 6 7 , p. 5 8 9 ) . Schulz (loc. cit.) widened the interpretation of Zebra sporites to include his species Z. laevigatas, which has a smooth distal exine. It is considered that this species could be more appropriately assigned to Rotaspora Schemel emend. Smith and Butterworth, 1967, which includes smooth species of similar construction, and that Zebrasporites should be restricted to species with distal rugulae, as in the type species. Zebrasporites
interscriptus (Thiergart) Klaus, I960 Plate 3, Figure 6 Figured specimen: S1780, stage co-ordinates 24,7. 95.6; diameter 33 microns. Co-ordinates of lower right hand corner of cover glass 27.7, 85.2. Locality: G.S.Q. Ipswich I, 483 feet, 7 inches (Ripley Road Sandstone). Remarks: Three specimens of this species have been recorded in an assemblage from the Ripley Road Sand stone. They conform, in all significant diagnostic features, to the description and figures of Schulz ( 1 9 6 7 , p 589; pi. 15, figs. 8, 9 ) . The discovery of this European species in the Ripley Road section provides additional evidence bearing on the correlation of the
Tvpe species: A nnuiispora jolliculosa (Rogalska) de Jersey, 1959. Annulispora jolliculosa (Rogalska) de Jersey, 1959 Plate 2, Figure 7 Figured specimen: Slide S2438, stage co-ordinates 19.6, 88.2; diameter 40 microns. Co-ordinates of lower right hand corner of cover glass 26.3, 85.5. Locality: G.S.Q. Ipswich 5, 578 feet, 8 inches (Mar burg F o r m a t i o n ) , Distribution: Triassic of Blackstone Formation. Aberdare Conglomerate, Raceview Formation, Ripley Road Sandstone (de Jersey, 1962, 1964, 1 9 7 0 b ) ; Upper Triassic of Tasmania (Playford, 1 9 6 5 ) ; Liassic of Poland (Rogalska, 1 9 5 4 ) ; Jurassic of Helidon Sand stone. Marburg Formation, Walloon Coal Measures (de Jersey, 1959, 1963, this p a p e r ) ; Jurassic of Precipice Sandstone, Evergreen Formation, Hutton Sandstone, Walloon Coal Measures of Surat Basin (de Jersey and Paten. 1964; Reiser and Williams, 1 9 6 9 ) ; Jurassic of Razorback Beds (Playford and Cornelius, 1967). Annulispora
microannulata de Jersey, 1962 Plate 3, Figure 7 Figured specimen: Slide S2395, stage co-ordinates 12.9, 91.6; diameter 28 microns. Co-ordinates of lower right hand corner of cover glass 24.5, 85.8. Locality: G.S.Q. Ipswich 3, 531 feet, 1 inch (Helidon Sandstone). Distribution: Triassic of Ipswich Coal Measures, Bundamba Group (de Jersey, 1962, 1964, 1 9 7 0 b ) ; Triassic of Tingalpa and Moorooka Formations, Brisbane area (de Jersey and Hamilton, 1 9 6 5 b ) ; Jurassic of Precipice Sandstone, Evergreen Formation, Hutton Sandstone, Walloon Coal Measures of Surat Basin (de Jersey and Paten, 1964; Reiser and Williams. 1 9 6 9 ) ; Jurassic of Razorback Beds (Play ford and Cornelius, 1 9 6 7 ) ; Jurassic of Helidon Sand stone, Marburg Formation (de Jersey, 1963, this paper). Genus A N T U L S P O R I T E S Archangelsky & Gamerro, 1966 Type species: Antulsporites baculatus (Archangelsky & Gamerro) Archangelsky & Gamerro, 1966. Antulsporites varigranulatus (Levet-Carette) Reiser & Williams, 1969 Plate 2, Figure 8
EARLY JURASSIC MIOSPORES FROM THE HELIDON SANDSTONE
Figured specimen: Slide S2431, stage co-ordinates 19.7, 98.6; diameter 35 microns. Co-ordinates of lower right hand corner of cover glass 25.7, 82.9. Locality: G.S.Q. Ipswich 5, 690 feet, 5 inches (Mar burg F o r m a t i o n ) . Remarks: The first appearance of this species, within the Helidon Sandstone, appears to be of stratigraphic significance in the section studied. Distribution: Infraliassic of France (Levet-Carette, 1 9 6 4 a ) ; Jurassic of Precipice Sandstone, Evergreen Formation, lower Hutton Sandstone of Surat Basin (Reiser and Williams, 1 9 6 9 ) ; Jurassic of Helidon Sandstone, Marburg Formation, Walloon Coal Measures (de Jersey. 1959, this p a p e r ) . Genus CINGUTRILETES Pierce emend. Dettmann, 1963 Type species: Cingutriletes congruens Pierce, 1961. Remarks: Potonie ( 1 9 6 6 , p p . 7 9 , 8 1 ) has widened the generic diagnosis of Murospora Somers, 1952 to include spores with subcircular ambs, as well as tri angular or subtriangular species, and has placed Cingutriletes in synonymy with Murospora, so emended. This interpretation is not supported here; the writer prefers to follow Playford's (1962, p. 608) and Dettmann's ( 1 9 6 3 , p. 7 0 ) usage, in restricting Muro spora to spores with triangular or subtriangular ambs. On the basis of Dettmann's diagnosis ( 1 9 6 3 , p . 6 9 ) Cingutriletes is apparently close to Densosporites Berry emend. Butterworth et ai, 1964. However the latter authors (Butterworth et al, 1964, p. 101) regard the presence of a two-layered exine as one of the essential features of Densosporites; the presence of an intexine has not been demonstrated in Cingutriletes. Provision ally, Cingutriletes should be retained as a distinct genus until more is known of the morphology of its briefly described type species. Cingutriletes
sp. cf. C. davits (Balme) Dettmann, 1963 Plate 3, Figure 8 Figured specimen: Slide S2386, stage co-ordinates 12.3, 9 3 . 7 ; diameter 36 microns. Co-ordinates of lower right hand corner of cover glass 2 5 . 3 , 85.6. Locality: G.S.Q. Ipswich 3, 730 feet, 1 inch (Helidon Sandstone). Remarks: A few specimens have been observed which are identified, specifically, with spores recorded as Cingutriletes sp. cf. C. clavus by Reiser and Williams, as they conform to the descriptions and illustrations of those authors (Reiser and Williams, 1969, p p . 9, 10; pi. 4, figs. 6, 7 ) . Distribution: Jurassic of Precipice Sandstone, green Formation, lower Hutton Sandstone of Basin (Reiser and Williams, 1 9 6 9 ) ; Triassic of view Formation, Jurassic of Helidon Sandstone, burg Formation (this p a p e r ) .
Ever Surat RaceMar
Genus CONTIGNISPORITES Dettmann, 1963 Tvpe species: Contignisporites glebulentus Dettmann, 1963. Remarks:
Contignisporites sp. Two specimens, recorded in assemblages
from the Marburg Formation, are similar to spores recorded as Contignisporites sp. from the Surat Basin (Reiser and Williams, 1969, p. 1 2 ) . Insufficient speci mens are available for formal taxonomic treatment. Distribution: Upper Evergreen Formation, lower Hutton Sandstone (Reiser and Williams, 1 9 6 9 ) ; Mar burg Formation (this p a p e r ) . Genus DENSOSPORITES Berry emend. Butterworth, Jansonius, Smith and Staplin, 1964 Type
species:
Densosporites
covensis
Berry, 1937.
Densosporites raceviewensis sp. nov. Plate 3, Figures 9, 10; Plate 4, Figures 1, 2, and 4 Synonym 1970 cf. Densosporites 3, fig. 9.
sp. de Jersey, 1970b, p. 9; pi.
Diagnosis: Trilete, cingulate, two-layered miospores. A m b convexly subtriangular to subcircular. Diameter (based on 2 4 measured specimens) 26 to 4 3 microns. Laesurae, straight or slightly sinuous, extend to, or almost to, equator, without any marked development of lips. Cingulum 2 to 7 microns wide, of uniform width in subcircular specimens, or slightly broader interradially, in subtriangular specimens. Intexine thin, smooth, normally closely attached to exoexine. Distal exoexine smooth, proximal exoexine smooth or faintly punctate. Cingulum smooth, dark in colour, of uniform thickness. Holotvpe (Plate 4, Figures 1, 2—proximal; distal foci): Slide S2367, stage co-ordinates 21.8, 9 8 . 7 ; diameter 33 microns. Co-ordinates of lower right hand comer of cover glass 26.8. 82.0. Locality: G.S.Q. Ipswich 4. 993 feet, 4 inches (Raceview F o r m a t i o n ) . Figured specimen (Plate 3, Figure 9): Slide S2366, stage co-ordinates 24.9, 8 7 . 3 ; diameter 38 microns. Co-ordinates of lower right hand corner of cover glass 26.4, 81.9. Locality: G.S.Q. Ipswich 4, 993 feet, 4 inches ( R a c e view F o r m a t i o n ) . Figured specimen (Plate 3, Figure 1 0 ) ; Slide S2338, stage co-ordinates 7.0, 9 3 . 5 ; diameter 35 microns. Co ordinates of lower right hand corner of cover glass 26.3, 86.4. Locality: G.S.Q. Ipswich 4, 1042 feet, 3 inches Raceview F o r m a t i o n ) . Figured specimen (Plate 4, Figure 4 ) : Slide S2335, stage co-ordinates 14.0, 93.0; diameter 26 microns. Co-ordinates of lower right hand corner of cover elass 26.7, 8 0 . 1 . Locality: G.S.Q. Ipswich 4, 1042 feet, 3 inches Raceview F o r m a t i o n ) . Variation: Appreciable variation exists in the width of the cingulum, from specimens in which it is relative ly narrow (Plate 3, Figure 9 ) to those with broader cingula, in relation to the spore radius (as in Plate 4, Figure 4 ) . Inter-radial broadening of the cingulum is evident in the holotype (Plate 4, Figures 1 and 2 ) ,
12
EARLY JURASSIC MIOSPORES FROM THE HELIDON SANDSTONE
which is convexly subtriangular, but not in subcircular specimens (as in Plate 4, Figure 4 ) . The thin intexine is normally difficult to detect, but is evident in the oilimmersion photograph (Plate 3, Figure 9 ) of a speci m e n with a widely open trilete rent, in which it has become slightly detached from the exoexine. Remarks; This species resembles spores assigned to Stenozonotriletes (Natimova) Potonie, 1958, such as S. tycosporoides (Butterworth & Williams) Smith & Butterworth, 1967, in having a cingulum of uniform thickness and in the width of the cingulum, in pro portion to the spore radius. However, it differs from described species of that genus in having a thin intexine and for that reason has been assigned to Densosporites. As in the case of Stenozonotriletes, no mention is made of a two-layered exine in the diagnosis of Cingutriletes Pierce emend. Dettman, 1963 (Dettmann, 1963, p. 6 9 ) . Assignment to Densosporites is thus preferred, similarly, to inclusion in this Mesozoic genus. No close comparison can be made with Palaeozoic species of Densosporites. Smooth species of the genus, from Carboniferous sediments, have cingula which are wider, in proportion to the amb radius, and which also differ in tapering equatorially. Among Australian Mesozoic species, Cingutriletes davits (Balme) Dettmann. 1963, differs in having a thickened area on the distal exine (Dettmann, 1963, p. 6 9 ) . Spores described as Cingutriletes sp. cf. C. davus (Balme) Dettmann by Reiser and Williams ( 1 9 6 9 , p. 9 ) have laesurae with thickened lips, which are shorter than those of the Raceview specimens. Other species which are of similar general construction to D. raceviewensis are Stereisporites megastereoides Pflug, 1953 and Cingutriletes congiuens Pierce, 1961. but no mention is made of an intexine in the description of either species. The Rhaetic species Camarozonosporites laevigatus Schulz, 1967 resembles extreme variants of D. raceviewensis in having a cingulum which is broader inter-radially, but the Queensland spores have longer laesurae which lack the thickened lips of C. laevigatus. Distribution: this p a p e r ) .
Raceview Formation (de Jersey, 1970b.
Genus NEVESISPORITES de Jersey & Paten. 1964 Tvpe species: Paten, 1964. Nevesisporites
Nevesisporites
vallalus
de Jersey &
vallatus de Jersey & Paten, 1964 Plate 4, Figure 7
Figured specimen: Slide S2452, stage co-ordinates 23.4, 89.4; diameter 4 0 microns. Co-ordinates of lower right hand corner of cover glass 26.5, 84.3. Locality: G.S.Q. Ipswich 5, 267 feet, 9 inches (Mar burg F o r m a t i o n ) . Distribution: Upper Precipice Sandstone, Evergreen Formation, Hutton Sandstone of Surat Basin (de Jersey and Paten, 1964; Reiser and Williams, 1 9 6 9 ) ; upper Helidon Sandstone, Marburg Formation (this paper).
Genus POLYCINGULATISPORITES Simoncsics & Kedves emend. Playford & Dettmann, 1965 Type species: Polycingulatisporites circulus Simoncsics & Kedves, 1961. Polvcingulatisporites
crenulatus Playford & Dettmann, 1965 Plate 4, Figure 5 Figured specimen: Slide S2413, stage co-ordinates 17.5, 86.5; diameter 59 microns. Co-ordinates of lower right hand corner of cover glass 23.7, 84.7. Locality: N.S. 272, 603 feet, 4 inches (Ripley Road Sandstone). Remarks: Variation in this species has been discussed in detail in a recent paper (de Jersey, 1970b, pp. 10. U).
Distribution: Liassic of Leigh Creek Coal Measures, South Australia (Playford and Dettmann, 1 9 6 5 ) ; Jurassic of Precipice Sandstone, Evergreen Formation. Hutton Sandstone of Surat Basin (de Jersey and Paten. 1964; Reiser and Williams, 1969); Jurassic of Razorback Beds (Playford and Cornelius, 1 9 6 7 ) ; Middle Rhaetian of East Germany (Schulz, 1967); Triassic of Aberdare Conglomerate, Raceview Formation. Ripley Road Sandstone (dc Jersey, 1970b, this p a p e r ) ; Jurassic of Helidon Sandstone, Marburg Formation (this p a p e r ) . Polycingulatisporites
densatus (de Jersey) Playford & Dettmann. 1965 Plate 4, Figure 3 Figured specimen: Slide S2516, stage co-ordinates 7.3. 86.4; diameter 33 microns. Co-ordinates of lower right hand corner of cover glass 26.7, 83.2. Locality: G.S.Q. Ipswich 9. 612 feet, 7 inches (Helidon Sandstone). Distribution: Jurassic of Walloon Coal Measures, Rosewood Coalfield (de Jersey, 1 9 5 9 ) : Rhaeto-Liassic of Leigh Creek Coal Measures, South Australia (Play ford and Dettmann, 1 9 6 5 ) ; Jurassic of Evergreen Formation, Lower Hutton Sandstone of Surat Basin (Reiser and Williams, 1969); Jurassic of Razorback Beds (Playford and Cornelius, 1 9 6 7 ) ; Triassic of Black stone Formation, Aberdare Conglomerate, Raceview Formation. Ripley Road Sandstone (de Jersey, 1964. 1970b, this p a p e r ) ; Triassic of Mount Crosby Forma tion (de Jersey and Hamilton. 1965a); Jurassic of Helidon Sandstone, Marburg Formation (this paper). Polvcingulatisporites
mooniensis 1964
de Jersey & Paten,
Plate 4, Figure 8 Figured specimen: Slide S2445, stage co-ordinates 9.8, 93.2; diameter 25 microns. Co-ordinates of lower right hand corner of cover glass 2 6 . 3 , 83.8. Locality: G.S.Q. Ipswich 5, 530 feet, 1 inch (Mar burg F o r m a t i o n ) . Distribution: Precipice Sandstone, Evergreen Forma tion of Surat Basin (de Jersey and Paten, 1964; Reiser and Williams, 1 9 6 9 ) ; Jurassic of Razorback Beds
13
EARLY JURASSIC MIOSPORES FROM THE HELIDON SANDSTONE
(Playford and Cornelius, 1967); Triassic of Raceview Formation, Ripley Road Sandstone, Jurassic of Helidon Sandstone, Marburg Formation (de Jersey, 1970b, this paper). Genus TAUROCUSPORITES Stover emend. Playford & Dettmann, 1965 Type species: Taurocusporites segmentatus Stover, 1962. Taurocusporites sp. Remarks: Playford and Dettmann ( 1 9 6 5 , p . 146) restricted Taurocusporites to "proximally sculptured forms which in other (distal) respects are close to Polycingulatisporites Simoncsics & Kedves, 1 9 6 1 " . A single specimen observed in the present material has distal thickenings similar to those of P. crenuiatus Playford & Dettmann. 1965 and also well developed lips, but exhibits conspicuous proximal verrucae. It has accordingly been recorded as "Taurocusporites sp." Distribution:
Helidon Sandstone (this p a p e r ) .
Subturma PERINOTRILITES Erdtman, 1947 Genus SEMTRETISPORIS Reinhardt. 1962 Type species: Semiretisporis gotliae Reinhardt, 1962. Serniretisporis antiquus (de Jersey) de Jersey, 1970 Remarks; Reference should be made to a recent paper (de Jersey, 1970b, pi. 12) for an account of the morphology of this species. Distribution: Triassic of Blackstone Formation. Aberdare Conglomerate, Raceview Formation. Ripley Road Sandstone (dc Jersey, 1964, 1970b. this p a p e r ) : Triassic of Moorooka Formation. Brisbane area (dc Jersey and Hamilton, 1965b). T u r m a M O N O L E T E S Ibrahim. 1933 Subturma A Z O N O M O N O I ETES Luber, 1935
Infraturma SCULPTATOMONOLETI Dybova & Jachowicz, 1957 Genus ARATRISPORITES Leschik emend. Playford & Dettmann, 1965 Type species: Aratrisporites parvispinosus Leschik emend. Playford, 1965. Aratrisporites
sp. cf. A. minimus Schulz, 1967 Plate 4 , Figure 12
Figured specimen: Slide S2411. stage co-ordinates 19.9, 9 1 . 8 ; dimensions 41 x 28 microns. Co-ordinates of lower right hand corner of cover glass 2 5 . 2 , 83.6. Locality: N . S . 272 (Ipswich), 6 0 3 feet, 4 inches (Ripley Road Sandstone). Remarks: This specimen closely resembles Aratri sporites minimus, described by Schulz ( 1 9 6 7 , p . 5 9 2 ) from the Hettangian of East Germany, in outline, size and in the relatively narrow extension of the outer layer, beyond the inner layer at the equator. However, study of the sculpture with an oil-immersion objective indicates that it consists of very fine coni and grana. The specimen is accordingly compared, rather than identified, with A. minimus, which is described as having an infra-granulate or finely punctate exoexine.
Distribution (this p a p e r ) .
(one specimen):
Ripley Road Sandstone
Aratrisporites
sp. cf. A. scabratus Klaus, 1960 Plate 4, Figure 13 Figured specimen: Slide S2523, stage co-ordinates 26.7, 9 8 . 1 ; dimensions 45 x 31 microns. Co-ordinates of lower right hand corner of cover glass 27.4, 83.4. Locality: G.S.Q. Ipswich 9, 7 4 3 feet, 3 inches (Raceview F o r m a t i o n ) . Remarks: This specimen is comparable with Aratri sporites scabratus described by Klaus ( 1 9 6 0 , p . 147) from the Karnian of Austria. T h e finely granulate to conate sculpture is similar to that of the Austrian species, which the Queensland specimen also resembles in size and in the proportions of the inner and outer layers. Because of its somewhat more elongate outline, which differs from the broadly oval to subcircular out line shown in published illustrations of A. scabratus, the specimen is not formally identified with that species. Distribution (this p a p e r ) .
(one specimen):
Raceview Formation
Genus POLYPODIISPORITES Potonie & Gelletich ex Potonie, 1956 Tvpe \pecies: Polvpodiisporites javus (Potonie) Potonie & Gelletich, 1933. Polvpodiisporites
ipwiciensis (dc Jersey) Playford & Dettmann. 1965 Distribution: Triassic of Ipswich Coal Measures (de Jersey. 1962. 1970b): Late Triassic of Aberdare Con glomerate. Raceview Formation. Ripley Road Sand stone (dc Jersey. 1964. 1970b. this p a p e r ) ; Triassic of Tingalpa and Moorooka Formations. Brisbane area (de Jersey and Hamilton, 1965b); Triassic of Leigh Creek Coal Measures, South Australia (Playford and Dettmann. 1 9 6 5 ) ; Triassic of Wollar Sandstone, New South Wales (Helby, 1 9 6 7 ) ; Middle Triassic of Moolayember Formation (de Jersey and Hamilton, 1 9 6 7 ) ; Triassic of Clematis Sandstone, Rewan F o r m a tion (de Jersey, 1968, 1 9 7 0 a ) . Genus PUNCTATOSPORITES Ibrahim, 1933 Type species: Punctatosporites minutus Ibrahim, 1933. Punctatosporites walkomi de Jersey, 1933. Distribution; Triassic of Ipswich Coal Measures (de Jersey, 1962, 1 9 7 0 b ) ; Late Triassic of Aberdare Con glomerate, Raceview Formation, Ripley Road Sand stone (de Jersey, 1964, 1970b, this p a p e r ) ; Triassic of Moorooka and Tingalpa Formations, Brisbane area (de Jersey and Hamilton. 1 9 6 5 b ) ; Triassic of Tasmania (Playford, 1 9 6 5 ) ; Middle Triassic of Moolayember Formation (de Jersey and Hamilton, 1967); Triassic of Clematis Sandstone (de Jersey, 1 9 6 8 ) ; Jurassic of Precipice Sandstone, Evergreen Formation, lower Hutton Sandstone (Reiser and Williams, 1 9 6 9 ) ; Jurassic of Helidon Sandstone (this p a p e r ) . Anteturma P O L L E N I T E S Potonie, 1931 T u r m a SACCITES Erdtman, 1947
14
EARLY JURASSIC MIOSPORES EROM THE HELIDON SANDSTONE
Subturma MONOSACCITES Chitaley emend. Kremp, 1954
Potonie &
Infraturma SACCIZONATI Bharadwaj, 1957 Genus ZONALAPOLLENITES Pflue (in Thomson & Pflug), 1953 " Tvpe species: Zonalapollenites igniculus Potonie ex Pflug, 1953. Remarks: Considerable confusion exists in the litera ture regarding the generic assignment of the species recorded below as Zonalapollenites dampieri and Z , segmentatus. Concerning the genera Zonalapollenites and Tsugaepollenites, the position has been recently clarified by Pocock ( 1 9 6 8 , p. 6 3 9 ) who has indicated that Zonalapollenites was validly published in 1953 and that Tsugaepollenites was not validated until 1958. Thus Tsugaepollenites is regarded as a junior synonym of Zonalapollenites- Pflug, 1953. This interpretation is followed here; specimens from the Jurassic of the Surat Basin recorded by de Jersey and Paten ( 1 9 6 4 ) and Reiser and Williams ( 1 9 6 9 ) as Tsugaepollenites dampieri and T. segmentatus are reassigned to Zonala pollenites. One of these species, Z , dampieri. was selected as the type species of the genus Callialaspoiites by Sukh Dev ( 1 9 6 1 , p. 4 8 ) ; proposal of this genus served to separate Mesozoic species from the Tertiary type species of Zonalapollenites, Z . igniculus. Later workers have assigned both Z . dampieri and Z . segmentatus to Callialasporites. However it is considered here that, on the available evidence, the differences between these two species and Z . igniculus are insufficient to justify placing them in a separate genus and they are accord ingly retained in Zonalapollenites. In a recent paper, Singh and Kumar ( 1 9 6 9 ) have placed both Zonalapollenites dampieri and Z. segmen tatus in Tsugaepollenites. These authors were evidently not aware of, and did not take into account, the evidence brought forward by Pocock ( 1 9 6 8 ) . Zonalapollenites
dampieri
Balme, 1957
Plate 4, Figure 10; Plate 5, Figure 6 Figured specimen (Plate 4, Figure 1 0 ) : Slide S2484, stage co-ordinates 16.0, 9 0 . 2 ; overall diameter 56 microns, diameter of corpus 46 microns. Co-ordinates of lower right hand corner of cover glass 25.0, 82.0. Locality: G.S.Q. Ipswich 5, 184 feet, 6 inches (Mar burg F o r m a t i o n ) . Figured specimen (Plate 5, Figure 6): stage co-ordinates 20.8, 86.4; overall microns, diameter of corpus 50 microns. of lower right hand corner of cover glass
Slide S2486, diameter 69 Co-ordinates 24.0, 83.0.
Locality: G . S . Q . Ipswich 5, 89 feet, 5 inches ( M a r burg Formation). Remarks: Reiser and Williams ( 1 9 6 9 , p. 13) found evidence for a gradation from Zonalapollenites seg mentatus, through Z. dampieri to Z trilobatus. They did not merge these forms into one species, since the material examined was at or just above the level of the first appearance of the genus in the Surat Basin, and it
is possible that the three types become more clearly differentiated in younger sediments. Nevertheless, the suggestion of inter-gradation among these species pro vides evidence for assignment to the same genus (Zonalapollenites), and against placing them in dif ferent genera, as has been done by some authors. The specimens figured conform to Balme's description of the species "(1957. p. 3 2 ) . One of them (Plate 5, Figure 6) has a faint (vestigial) trilete mark. This feature has previously been reported in Z. dampieri bv Balme ( 1957, p. 32) and Dettmann, ( 1 9 6 3 , p. 100)." Distribution: Widely distributed in Jurassic and Cretaceous sediments. In a European sequence, which is accurately dated by associated marine faunas, Schulz ( 1 9 6 7 , p. 5 9 3 ) records the first appearance of the species in the upper Toarcian (uppermost Liassic). Queensland records: Jurassic sequence of Surat Basin, first appearing in Upper Evergreen Formation (de Jersey and Paten, 1964; Reiser and Williams, 1 9 6 9 ) ; Jurassic of Walloon Coal Measures. Marburg F o r m a tion (de Jersey, 1959, 1963, this p a p e r ) ; Cretaceous of Eromanga Basin (Haskell, 1968). Zonalapollenites segmentatus Balme, 1957 Plate 4, Figure 11 Figured specimen: Slide S2486, stage co-ordinates 6.3, 84.0; overall diameter 59 microns, diameter of corpus 51 microns. Co-ordinates of lower right hand corner of cover glass 24.0, 83.0. Locality: G.S.Q. Ipswich 5, 89 feet, 5 inches (Mar burg Formation). Remarks: T h e specimen figured is identified with Zonalapollenites segmentatus, on the basis of Balme's original description and figures (1957, p. 3 3 . pi. 9, figs. 9 3 . 9 4 ) . Evidence for a gradation between this species and Z. dampieri has been mentioned above under that species. Distribution: Widely distributed in Jurassic sedi ments. Queensland records: Jurassic sequence of Surat Basin, first appearing in upper Evergreen Formation (de Jersey and Paten, 1964; Reiser and Williams. 1 9 6 9 ) ; Jurassic of Walloon Coal Measures, Marburg Formation (de Jersey, 1959, 1963, this p a p e r ) . Subturma DISACCITES Cookson, 1947 Remarks: Bisaccate pollen grains are abundant in some of the assemblages examined, particularly those from the Raceview Formation, which are in many cases dominated by grains of the Pteruchus type. Many of these grains are poorly preserved; difficulties inherent in effecting specific, or even generic circumscription of a large proportion of them have recently been discussed (de Jersey, 1970b, p. 1 4 ) . Furthermore it seems likely that such precise taxononiic studies will have little, if any stratigraphic application in the section investigated. Accordingly, apart from certain distinctive species, recorded below, the remaining bisaccate grains have been listed simply as "Disaccites ( i n d e t . ) " in the assemblages recorded. Genus A L I S P O R I T E S Daugherty, 1941 Type species: Alisporites
opii Daugherty, 1941.
EARLY JURASSIC MIOSPORES FROM THE HELIDON SANDSTONE
Alisporites
sp. cf. A. grandis (Cookson) Dettmann, 1963 Remarks: Two specimens, each in an assemblage from the Marburg Formation, are similar to a specimen recorded as Alisporites sp. cf. A. grandis by Reiser and Williams (1969, pi. 5, fig. 18) and are close to haploxylonoid types of A. grandis illustrated by Cookson ( 1 9 5 3 , pi, 2, fig. 4 1 ) , Balme ( 1 9 5 7 , pi. 10, fig. 110) and Haskell ( 1 9 6 8 , pi. 1, fig. 2 ) . Distribution: Jurassic of Precipice Sandstone, Ever green Formation, lower Hutton Sandstone of Surat Basin (Reiser and Williams, 1 9 6 9 ) ; Jurassic of Mar burg Formation (this p a p e r ) . Alisporites
lowoodensis de Jersey, 1963 Plate 5, Figure 4 Figured specimen: Slide S2516, stage co-ordinates 23.3, 97.0; total span 54 microns. Co-ordinates of lower right hand corner of cover glass 26.8, 83.2. Locality; G.S.Q. Ipswich 9, 6 ) 2 feet, 7 inches (Helidon Sandstone). Remarks: This species is fairly widespread in samples from the Helidon Sandstone and Marburg Formation and has also been recorded in two assemblages from the Raceview Formation. Distribution: Jurassic of Marburg Formation, Helidon Sandstone (de Jersey, 1963, this p a p e r ) ; Jurassic of Precipice Sandstone, Evergreen Formation, Hutton Sandstone of Surat Basin (de Jersey and Paten, 1964; Reiser and Williams, 1969); Jurassic of Razorback Beds (Playford and Cornelius, 1967); Late Triassic of Raceview Formation (dc Jersey. 1970b. this paper). Alisporites
sitnitis (Balme) Dettmann, 1963 Plate 5, Figure 5 Figured specimen: Slide S2393, stage co-ordinates 17.9. 100.7; total span 58 microns. Co-ordinates of lower right hand corner of cover glass 25.7, 86.4. Locality: G.S.Q. Ipswich 3, 575 feet, 10 inches (Helidon Sandstone), Remarks: The morphology of this species has been recently clarified by Haskell ( 1 9 6 8 , p. 2 1 8 ) . In the present study it has been observed sporadically in assemblages from the Helidon Sandstone and Marburg Formation. Reiser and Williams ( 1 9 6 9 , p. 14) recorded specimens from the Precipice Sandstone, Evergreen Formation and lower Hutton Sandstone of the Surat Basin as Alisporites sp. cf. A. simiiis. Distribution: Upper Jurassic of Western Australia (Balme, 1 9 5 7 ) ; Lower Cretaceous of south-eastern Australia (Dettmann, 1 9 6 3 ) ; Lower Cretaceous of Eromanga Basin (Haskell, 1 9 6 8 ) ; Lower Jurassic of Helidon Sandstone, Marburg Formation (this p a p e r ) . Genus INDUSIISPORITES Leschik, 1955 Type species: Indusiisporites velatus Leschik, 1955. indusiisporites
parvt'saccatus (de Jersey) de Jersey, 1963
15
Distribution: Jurassic of Walloon Coal Measures (de Jersey, 1 9 5 9 ) ; Marburg Formation, Helidon Sandstone (de Jersey, 1963, this p a p e r ) ; Jurassic sequence of Surat Basin (de Jersey and Paten, 1964; Reiser and Williams, 1 9 6 9 ) ; Jurassic Razorback Beds (Playford and Cornelius, 1 9 6 7 ) ; Late Triassic of Ripley Road Sandstone (this p a p e r ) . Genus PLATYSACCUS Naumova ex Potonie & Klaus, 1954 Tvpe species; Platvsaccus papilionis Potonie & Klaus, 1954. Platysaccus queenslandi de Jersey, 1962 Distribution: Triassic of Ipswich Coal Measures, Bundamba Group (de Jersey, 1962, 1964, 1 9 7 0 b ) ; Triassic of Tingalpa and Moorooka Formations. Brisbane area (de Jersey and Hamilton, 1 9 6 5 b ) ; Triassic of Moolayember Formation (de Jersey and Hamilton, 1 9 6 7 ) ; Triassic of Clematis Sandstone, Rewan Formation (de Jersey, 1968, 1 9 7 0 a ) ; Triassic of Tasmania (Playford, 1965); Triassic of Cacheuta Formation, Argentina (Jain, 1968); Triassic and Jurassic of Leigh Creek Coal Measures (Playford and Dettmann, 1 9 6 5 ) ; Jurassic of Helidon Sandstone (this paper). Genus PODOCARPIDITES Cookson ex Couper, 1953 Tvpe species: Podocarpidites ellipn'cus Cookson, 1947. Podocarpidites
sp. cf. P. cilipticus Cookson, 1947 Plate 5, Figure 7 Figured specimen: Slide S2467, stage co-ordinates 23.5. 89.0: total span 74 microns. Co-ordinates of lower right hand corner of cover glass 25.8, 84.0. Locality: G.S.Q. Ipswich 5, 204 feet, 9 inches (Mar burg Formation). Remarks: The specimen figured exhibits the characteristic features of Podocarpidites ellipticus, as detailed by Haskell ( 1 9 6 8 , p, 2 2 1 ) , except that the sacci are relatively longer, in proportion to the length of the corpus, than in typical specimens of the species figured by Cookson ( 1 9 4 7 , pi. 13, figs. 5 - 7 ) , Balme (1957, pi. 9, fig. 104, pi. 10, figs. 105-107) and Haskell ( 1 9 6 8 , pi. 1, fig. 7 ) . A similar specimen, with relatively large sacci, from the Precipice Sandstone of the Surat Basin, was also recorded as Podocarpidites sp. cf. P. ellipticus by Reiser and Williams ( 1 9 6 9 . pi. 6, fig. 3 ) . Apart from the specimen figured, specific identification or com parison has not been attempted for other specimens of Podocarpidites recorded in the present study, which are, in general, unfavourably compressed or otherwise poorly preserved. Distribution: Precipice Sandstone of Surat Basin (Reiser and Williams, 1 9 6 9 ) ; Marburg Formation (this p a p e r ) . Genus VITREISPORITES Leschik emend. Jansonius, 1962 Type species: Vitreisporites signatus Leschik, 1955.
16
EARLY JURASSIC MIOSPORES FROM THE HELIDON SANDSTONE
Vitreisporites microsaccus de Jersey, 1964 Distribution: Tri&ssk of Blackstone Formation, Raceview Formation, Ripley Road Sandstone (de Jersey, 1964, 1970b, this p a p e r ) , Viireisporhes paitidus (Reissinger) Nilsson, 1958 Distribution: Widespread in Mesozoic sediments. Queensland records: Jurassic of Walloon Coal Measures, Marburg Formation, Helidon Sandstone (de Jersey, 1959, 1963, this p a p e r ) ; Jurassic of Precipice Sandstone, Evergreen Formation, Hutton Sandstone, Walloon Coal Measures of Surat Basin (de Jersey and Paten, 1964; Reiser and Williams. 1 9 6 9 ) ; Jurassic of Razorback Beds (Playford and Cornelius, 1 9 6 7 ) ; Cretaceous of Eromanga Basin (Haskell, 1 9 6 8 ) ; Triassic of Moolayember Formation (de Jersey and Hamilton, 1 9 6 7 ) ; Triassic of Clematis Sandstone, Rewan Formation (de Jersey, 1968, 1 9 7 0 a ) ; Triassic of Blackstone Formation, Raceview Formation, Ripley Road Sandstone (de Jersey, 1970b, this p a p e r ) . Genus TRISACCITES Cookson & Pike, 1954 Tvpe species: Trisaccites microsaccatus (Couper) Couper, 1960. Remarks: Haskell ( 1 9 6 8 . p. 2 3 4 ) distinguished Trisaccites from Podosporites by its having pendent sacci that do not extend beyond the corpus equator and are thickest between the centre and distal edge of the saccale areas. This grouping of the species is followed here. Trisaccites
variabilis (Dev) Haskell. 1968 Plate 5. Figure I Figured specimen: Slide S2399, stage co-ordinates 23.1. 94.2; diameter of corpus 51 microns. Co ordinates of lower right hand corner of cover glass 26.7, 85.5. Locality: G.S.Q. Ipswich 3. 153 feet, 3 inches (Mar burg F o r m a t i o n ) , Remarks: The persistent first appearance of this species, within the Helidon Sandstone, is regarded as significant from the biostratigraphic aspect. Distribution: Jurassic Jabalpur Series of Pradesh, India (Dev, 1 9 6 1 ) ; Precipice Sandstone, Evergreen Formation, Hutton Sandstone of Surat Basin (de Jersey and Paten, 1964; Reiser and Williams, 1 9 6 9 ) ; upper Helidon Sandstone, Marburg Formation (this paper). Turma A L E T E S Ibrahim, 1933 Subturma AZONALETES Luber emend. Kremp, 1954
Potonie &
Infraturma PSILONAPITI Erdtman, 1947 Genus INAPERTUROPOLLENITES (Pflug) ex Thomson & Pflug. emend. Potonie, 1966 Type species: Inaperturopollenites dubius (Potonie" & Venitz) Thomson & Pflug emend. Potonie, 1966. Inaperturopollenites juscus (de Jersey, 1962) comb, nov.
1962 Piiasporites fuscus de Jersey, p. 14, pi. 6, figs. 4, 5 Remarks; Jain ( 1 9 6 8 , p. 4 2 ) has recently emended the generic diagnosis of Piiasporites Balme & Hennelly, 1956 on the basis of evidence he has brought forward, which indicates that grains of Piiasporites have a large distal polar opening ("pore") and are not differentially thickened. This interpretation is followed here. Accordingly the species Piiasporites juscus described by the writer from the Ipswich Coal Measures (de Jersey, 1967, p. 14) is here transferred as a new com bination to Inaperturopollenites, as its exine is alete. without any indication of a distal polar thickening. In the present study, /. juscus has been recorded in one of the Raceview assemblages. Distribution: Triassic of Ipswich Coal Measures (de Jersey, 1 9 6 2 ) ; Aberdare Conglomerate (de Jersey, 1 9 7 0 b ) ; Raceview Formation (this p a p e r ) . Inaperturopollenites turbatus Balme, 1957 Plate 5, Figure 3 Figured specimen; Slide S2483, stage co-ordinates 22.9, 9 6 . 9 ; diameter 71 microns. Co-ordinates of lower right hand corner of cover glass 25.0, 83.0. Locality: G.S.Q. Ipswich 5, 159 feet, 9 inches (Mar burg F o r m a t i o n ) . Remarks: Balme ( 1 9 5 7 , p. 3 1 ) considered that the darker central area in this species resulted from differential thickening. Other workers, such as Schulz ( 1 9 6 7 , p. 593) have transferred the species to Callialasporites, because they regarded the darker area as a "central body". However Inaperturopollenites turbatus appears to be distinct from Callialasporites in exhibiting no evidence of the presence of saccus attach ments and in having a different pattern of secondary folding. It is provisionally retained in Inaperturopollen ites until there is definite proof of the presence of an inner layer, from studies of thin sections of the exine or other conclusive evidence. Distribution; Widely distributed in Jurassic sedi ments. Schulz (1967, p. 593) recorded the species as first appearing in the Toarcian (uppermost Liassic), in a microfloral sequence in East Germany, which is accurately dated by associated marine faunas. In France it was recorded by Rioult (1965, p. 2 9 5 ) from the Rhaetic onwards. Queensland records; Jurassic sequence of Surat Basin (first appearance in upper Evergreen Formation) (de Jersey and Paten, 1964; Reiser and Williams, 1 9 6 9 ) ; Jurassic of Marburg Formation (de Jersey, 1963, this p a p e r ) . Inaperturopollenites spp. (indet.) Remarks: Smooth or faintly ornamented grains, assigned to this genus, are present in most of the assemblages studied. Apart from specimens assigned to the species recorded above, specific identification has not been attempted. Infraturma GRANULONAPITI Cookson, 1947 Genus ARAUCARIACITES Cookson ex Couper, 1953 Type 1947.
species:
Araucariacites
australis
Cookson,
EARLY JURASSIC MIOSPORES FROM THE HELIDON SANDSTONE
Araucariacites fissus Reiser & Williams, 1969 Distribution: Precipice Sandstone, Evergreen Forma tion, lower Hutton Sandstone of Surat Basin (Reiser and Williams, 1 9 6 9 ) ; Hution Sandstone, Marburg Formation (this p a p e r ) . Araucariacites spp. (indet.) Remarks: Under this heading are recorded poorly preserved specimens; with sculpture of grana, rather than coni, as in Conaletes. Genus C O N A L E T E S Reinhardt & Schon, 1967 Type species: Conaletes apiculatus Reinhardt & Schbn, 1967. Conaletes sp. Plate 5, Figure 2 Figured specimen: Slide S2356, stage co-ordinates 13.9, 85.6; diameter 49 microns. Co-ordinates of lower right hand corner of cover glass 27.0, 83.6. Locality: G.S.Q. Ipswich 4, 745 feet, 5 inches (Helidon Sandstone). Remarks: The specimen figured has a comprehensive sculpture, dominantly of coni, with minor spinae; the exine exhibits secondary folds. It is representative of alete grains assigned to the genus. Problems inherent in specific differentiation of Queensland specimens of Conaletes have been discussed recently (de Jersey, 1970b, p. 1 6 ) ; insufficient well preserved specimens have been observed in the present study to provide any further evidence on specific identification. Distribution: Triassic of Blackstone Formation, Aberdare Conglomerate, Raceview Formation, Ripley Road Sandstone (de Jersey, 1970b. this p a p e r ) ; Jurassic of Helidon Sandstone, Marburg Formation (this p a p e r ) . Genus DUPLICISPORITES Leschik emend. Klaus, 1960 Type species: Duplicisporites granulatus Leschik, 1955. Duplicisporites sp, A. Remarks: One specimen, identifiable with this species, recently recorded from the Ipswich-Bundamba sequence (de Jersey, 1970b, p. 17) has been observed in one of the Raceview assemblages.
17
the lack of detail in published illustrations and by the brief descriptions of the earlier taxa; thus a conserva tive interpretation seems desirable. Some later workers, e.g. Couper ( 1 5 8 9 , pp, 156, 1 5 7 ) , Chaloner (1962, pp. 1 9 - 2 3 ) , Geiger and Hopping ( 1 9 6 8 , p . 3 3 ) have regarded C. classoides and C. torosus as identical and have assigned specimens to C. torosus on grounds of synomymy; such specimens, following the interpretation of Pocock and Jansonius, would be recorded under the name C. classoides. The concept of the generic circumscription of Classopollis, which is followed here, is that of de Jersey and Paten ( 1 9 6 4 , p. 1 1 ) . This interpretation makes provision for including in the genus species with smooth equatorial girdles, such as C. simplex (Danze-Corsin & Laveine) Reiser & Williams, as well as species with equatorial striations, such as C. classoides. This concept of the genus was opposed by Boltenhagen ( 1 9 6 8 , p. 30), who advocated restriction of Classopollis to species with equatorial striations. However, in the present study, specimens of C. classoides have been observed in which the equatorial striations are broken up into parallel rows of more or less discrete sculptural elements. Such specimens are suggestive of a transition between C. classoides and C. simplex and in any case indicate that too much significance should not be attached to the presence of continuous equatorial striations as a generic characteristic. Apart from simplifying the generic determination of such speci mens, apparently intermediate between C. classoides and C. simplex, the interpretation of the genus, followed here, is of considerable practical utility in classifying grains preserved in polar view. Such grains comprise the vast majority of specimens of Classopollis observed in Queensland Jurassic assemblages. If a more restricted interpretation of the genus were followed, only a small proportion of the grains (those preserved in equatorial view) could be identified, generically, with certainty. Classopollis
classoides Pflug emend. Pocock & Jansonius, 1961 Plate 6, Figures 1, 2, 3 and 5
Raceview
Figured specimen (Plate 6, Figure 1 ) ; Slide S2377, stage co-ordinates 10.6, 103.4; equatorial diameter 4 3 microns. Co-ordinates of lower right hand corner of cover glass 25.6, 84.0.
Infraturma C I R C U M P O L L I N I Pflug emend. Klaus, 1960 Genus CLASSOPOLLIS Pfius emend, de Jersey & Paten, 1964 Type species: Classopollis classoides Pflug emend. Pocock & Jansonius, 1961.
Locality: G.S.Q. Ipswich 3, 1189 feet (Helidon Sandstone). Figured specimen (Plate 6, Figure 2): Slide S2404, stage co-ordinates 13.2, 94.9; dimensions 35 microns (equatorial) x 31 microns ( p o l a r ) . Co-ordinates of lower right hand corner of cover glass 24.9, 85.0.
Distribution: Blackstone Formation, Formation (de Jersey, 1970b, this p a p e r ) .
Remarks: The interpretation of Pocock and Jansonius, who regarded Classopollis classoides as the valid type species of this genus, is followed here. They point out ( 1 9 6 1 , pp, 439-442) that although the specific epithets reclusus and torosus were published prior to classoides, there is no certainty that grains des cribed under those names are specifically identifiable with C. classoides. Comparison is rendered difficult by
Locality: G.S.Q. Ipswich 3, 130 feet, 9 inches (Mar burg F o r m a t i o n ) . Figured specimen (Plate 6, Figure 3): Slide S2346, stage co-ordinates 11.1, 83.7; dimensions 38 microns (equatorial) x 30 microns ( p o l a r ) . Co-ordinates of lower right hand corner of cover glass 22.7, 82.5. Locality: G.S.Q. Ipswich 4, 435 feet, 5 inches (Helidon Sandstone).
18
EARLY JURASSIC MIOSPORES FROM THE HELIDON SANDSTONE
Figured specimen (Plate 6, Figure 5): Slide S2518, stage co-ordinates 13.7, 92.4; dimensions 38 microns (equatorial) x 38 microns ( p o l a r ) . Co-ordinates of lower right hand corner of cover glass 26.0, 8 4 . 1 . Locality: G.S.Q. Ipswich 9, 612 feet, 7 inches (Helidon Sandstone). Remarks: The typical features of this species are shown by the specimens figured in polar and equatorial view (Plate 6, Figures 1 and 2 ) . As indicated above, such specimens are suggestive of a transition to Classo pollis simplex. One such specimen is that illustrated (in equatorial view) in Plate 6, Figure 3, which shows the equatorial striations breaking up into discrete elements. In many specimens the intexine is not readily apparent; it is, however evident in one of the figured specimens (Plate 6, Figure 5 ) in which it has contracted away from the exoexine. This specimen also shows partial breaking up of the equatorial striations into discrete elements. Distribution: Very widely distributed in sediments from Rhaetic to Tertiary in age. Geiger and Hopping ( 1 9 6 8 , p. 3 3 ) point out that this species has been con fused with GliscopoUis meyeriana by some earlier writers; this would explain reported occurrences of C. classoides in pre- Rhaetic strata. It has been recorded from the Jurassic and Cretaceous of the Surat and Eromanga Basins in Queensland. Records in south eastern Queensland are: Marburg Formation (de Jersey, 1963, this p a p e r ) ; Helidon Sandstone (this p a p e r ) . The species is also present in an assemblage from sediments in G.S.Q. Ipswich N o . 1, assigned to the Ripley Road Sandstone, but considered to represent a level which is stratigraphically higher than the top of the type section of that formation. Classopollis
simplex (Danze-Corsin & Laveine) Reiser & Williams, 1969 Plate 6, Figures 4 and 8
Figured specimen (Plate 6, Figure 4 ) : Slide S2349, stage co-ordinates 16.8, 93.6; dimensions 33 microns (equatorial) x 21 microns ( p o l a r ) . Co-ordinates of lower right hand corner of cover glass 22.4, 29.9. Locality: G.S.Q. Ipswich 4, 639 feet, 1 I inches (Helidon Sandstone). Figured specimen (Plate 6, Figure 8 ) : Slide S2448, stage co-ordinates 13.0, 9 5 . 1 ; diameter 25 microns. Co ordinates of lower risht hand corner of cover elass 24.3, 86.6. Locality; G.S.O. Ipswich 5, 375 feet. I inch (Mar burg Formation). Remarks; The specimen figured in polar view (Plate 4, Figure 8 ) is a typical representative of the species, with its smooth, thickened equatorial girdle and infragranulate distal exine. The other figured specimen illustrates in equatorial view, the thickened equatorial girdle. This specimen is suggestive of transition to Classopollis classoides in that the equatorial girdle exhibits infra-granulate sculpture. However the sculp tural elements are discrete, not fused to form bands (striations). While the specimen is thus regarded as being more appropriately assigned to C. simplex, it may
be considered, along with specimens such as that figured in Plate 6, Figure 3, as forming a series suggestive of transition to C. classoides. The species GliscopoUis tersus (Norris) Volkheimer, 1968 resembles C. simplex in size, in having a thickened equatorial girdle and in other features and (since it was proposed in 1965) may be a junior synonym. However the identity of the two species cannot be definitely established as there is as yet no evidence for the presence of an intexine in G. tersus. Another species with a smooth or slightly infrasculptured exine is GliscopoUis meyeriana (Klaus) Venkatachala, 1966. It differs from C. simplex in lack ing a thickened equatorial girdle and an intexine; the latter species may have been derived from G. meyeriana by development of these features. Distribution: Jurassic of France (Briche, DanzeCorsin and Laveine, 1963; Levet-Carette, 1964, 1 9 6 5 ) : Queensland records: Jurassic of Precipice Sandstone. Evergreen Formation, Hutton Sandstone of Surat Basin (de Jersey and Paten. 1964; Hill, Playford and Woods. 1966; Reiser and Williams. 1 9 6 9 ) ; Jurassic Razorback Beds (Playford and Cornelius, 1 9 6 7 ) ; Jurassic Helidon Sandstone, Marburg Formation (this p a p e r ) . Genus DISCISPORITES Leschik emend, de Jersey, 1964 Type species: Discisporites Discisporites
psilatus
niger Leschik, 1955. de Jersey, 1964.
Plate 6, Figure 10 Figured specimen: Slide S 2 4 I 0 , stage co-ordinates 20.4, 93.4; diameter 36 microns. Co-ordinates of lower right hand corner of cover glass 24,7, 84.9. Locality: N.S. 272, 603 feet. 4 inches (Ripley Road Sandstone). Distribution: Triassic of Raceview Formation, Ripley Road Sandstone (de Jersey, 1964, 1970b, this p a p e r ) . Genus GLISCOPOLLIS Venkatachala,
1966
Type species: Gliscopollis meyeriana (Klaus) Venkatachala, 1966. Gliscopollis meyeriana (Klaus) Venkatachala, 1966 Plate 6, Figures 6, 7 and 11 Figured specimen (Plate 6, Figures 6, l~proximal, distal foci): Slide S I 8 2 7 , stage co-ordinates 19.7, 100.1; diameter 30 microns. Co-ordinates of lower right hand comer of cover glass 25.0, 8 4 . 1 . Locality: G.S.Q. Ipswich 1, 384 feet, 6 inches (Ripley Road Sandstone). Figured specimen (Plate 6, Figure 1 1 ) ; Slide S2375, stage co-ordinates 14.2, 88.4; diameter 35 microns. Co-ordinates of lower right hand corner of cover elass 26.4, 85.8. Locality: G . S . Q . Ipswich 3, 1189 feet (Helidon Sandstone). Remarks: Specimens of Gliscopollis meyeriana, recorded in the material studied, range from 21 to 39 microns in equatorial diameter. The species differs from G. tersus (Norris) Volkheimer, 1968, described by Norris ( 1 9 6 5 , pp. 260, 2 6 1 ) and Volkheimer ( 1 9 6 8 ,
EARLY JURASSIC MIOSPORES FROM THE HELIDON SANDSTONE
pp. 3 6 5 , 366) in having an exine of uniform thickness, not thickened equatorially. Classopollis simplex also has a smooth exine, but is distinguished by its thickened equatorial girdle and by the differentialion of the exine into intexine and exoexine, a feature not observed in G. meyeriana. Distribution: Karnian, Norian and Rhaetian of Austria (Klaus, 1 9 6 0 ) ; Rhaetian of Hungary (Venkatachala and Goczan, 1 9 6 4 ) ; Middle and Upper Keuper and Liassic of East Germany (Schulz, 1966, 1 9 6 7 ) ; Norian and Rhaetian of West Germany and the Netherlands, Rhaetian of England (Geiger and Hopping, 1 9 6 8 ) ; Triassic of Aberdare Conglomerate, Raceview Formation and Ripley Road Sandstone (de Jersey, 1964, 1970b, this p a p e r ) ; Jurassic of Helidon Sandstone (this paper) . T u r m a PLICATES Naumova emend.
Potoni6,
1960
Subturma POLYPLICATES Erdtman, 1952 Genus EQUISETOSPORITES Daugherty emend. & Jansonius, 1964
Pocock
Type species: Equisetosporites chinieana Daugherty, 1941. Remarks: As indicated previously (de Jersey, 1968, p. 2 0 ) the writer supports the use of this generic name for dispersed pollen grains of this Ephedroid type. Accordingly the species Ephedripites tortuosus Madler, 1964 to assigned to Equisetosporites as a new combina tion. Equisetosporites
sp. cf. E. tortuosus (Madler, 1964) comb. nov. Plate 6, Figure 9 Figured specimen: Slide S2410, stage co-ordinates 18.2, 9 7 . 1 ; dimensions 38 x 21 microns. Co-ordinates of lower right hand corner of cover glass 24.8, 84.8. Locality: N.S. 272, 603 feet, 4 inches (Ripley Road Sandstone). Remarks: T h e specimen figured is somewhat smaller than grains of Equisetosporites tortuosus (Madler) comb, nov., described by Madler (1964b, p. 194, pi. 3, fig. 17) and Schulz (1967, p. 604) but appears to have ridges arranged in a similar pattern. As it is the only specimen of this type observed it is compared, rather than identified, with E. tortuosus. Distribution of E. tortuosus: Liassic of (Madler, 1964; Schulz, 1966, 1 9 6 7 ) . Subturma
MONOCOLPATES Wodehouse, Troels-Smith, 1953
Germany Ivcrsen
&
Genus CAMEROSPORITES Leschik emend. Clarke. 1965 Type species: Camerosporites Camerosporites
clarkei
secatus Leschik, 1955. nom. nov.
Synonymy: 1964 Discisporites verrucosus de Jersey, pp. 12, 13; pi. 2, figs. 13, 15, 16. 1967 Discisporites verrucosus de Jersey, in de Jersey and Hamilton, p. 19, pi. 9, fig. 11.
19
1970 Camerosporites verrucosus (de Jersey) de Jersey comb. nov. in de Jersey, 1970b, p. 18. pi. 6, figs. 4-7. Remarks: The name Camerosporites verrucosus (de Jersey) de Jersey 1970, proposed as a new combina tion for this species (de Jersey, 1970b, p. 18) is a later homonym of Camerosporites verrucosus Madler 1964, described by Madler ( 1 9 6 4 , p. 174) from the Middle Keuper of Germany. Accordingly, in conform ity with Articles 55 and 64 of the International Code of Botanical Nomenclature ( 1 9 6 6 ) the new specific epithet clarkei is proposed for this species. This new specific name has reference to Dr. R. F . A. Clarke, who re-interpreted the morphology of Camerosporites (Clarke, 1965, p. 3 1 3 ) . Distribution: Triassic of Blackstone Formation, Aberdare Conglomerate, Raceview Formation, Ripley Road Sandstone (de Jersey, 1964, 1970b, this p a p e r ) ; Middle Triassic of Moolayember Formation (de Jersey and Hamilton, 1 9 6 7 ) ; Jurassic of Helidon Sandstone (this p a p e r ) . Genus C E R E B R O P O L L E N I T E S Nilsson emend. Kumar, 1969
Singh &
Type species: Cerebropollenites macroverrucosus (Thiergart) Schulz, 1967. Remarks: Pocock states (1968, p. 6 4 0 ) that Cerebropollenites "includes strongly convolute grains with sexine and nexine tightly appressed. These species form a distinct and significant morphological group, separable from Zonalapollenites". Likewise Schulz (1967, p. 603) distinguishes Cerebropollenites from Tsugaepollenites (= Zonalapollenites) on the basis of the different sculpture and presence of a sulcus in Nilsson's genus. These views are supported here; the sculpture, presence of a sulcus and close attachment of the layers of exine are all features which enable distinc tion from Zonalapollenites. In Nilsson's original diagnosis ( 1 9 5 8 , p. 7 2 ) the genus is described as inaperturate. Clearly this is in appropriate in view of the presence of a sulcus, and accordingly the emendation of Singh and Kumar ( 1 9 6 9 , p. 8 7 ) is adopted here. (Schulz ( 1 9 6 7 , p. 6 0 3 ) regarded the genus as monosulcate (not inaperturate) but made no formal emendation of the diagnosis). Cerebropollenites
sp. cf. C. macroverrucosus (Thier gart) Schulz, 1967 Plate 6, Figures 13, 14 Figured specimen (Plate 6, Figures 13, 14'—prox imal, distal foci): Slide S2390, stage co-ordinates 20.7, 94.0; diameter 48 microns, sulcus 2 0 x 16 microns. Co-ordinates of lower right hand corner of cover glass 25.6, 87.5. Locality: G.S.Q. Ipswich 3, 575 feet, 10 inches (Helidon Sandstone). Remarks; Schulz ( 1 9 6 7 , p. 6 0 3 ) has discussed the morphology and taxonomy of Cerebropollenites macro verrucosus; his interpretation is supported here. The specimen figured (Plate 6, Figures 13, 14) is closely comparable with this species, as described and illus-
20
EARLY JURASSIC MIOSPORES FROM THE HELIDON SANDSTONE
trated by Nilsson ( 1 9 5 8 ) , Danze-Corsin and Laveine ( 1 9 6 3 ) and Schulz ( 1 9 6 7 ) . The sculpture of the proximal polar region is particularly reminiscent of a specimen figured by Danze-Corsin and Laveine (1963, pi. 8, fig. 13b). The only feature in which there is some apparent difference is in the lower profile of the projections at the equatorial margin of the Queensland specimen: this may be an effect due to greater com pression in preservation. Because of this difference, which may or may not be significant and because only one specimen has been observed, it ts compared, rather than identified, with C. macroverrucosus. Distribution of C. macroverrucosus: Liassic, Dogger of East Germany (Thiergart, 1949; Schulz and Mai, Schulz, 1966, 1967); Jurassic and Lower Cretaceous of Great Britain (Couper, 1 9 5 8 ) : Liassic of Sweden (Nilsson, 1 9 5 8 ) ; Liassic of Poland, Hungary (Schulz, 1 9 6 7 ) ; Infraliassic of France (Briche, Danze-Corsin and Laveine, 1963, Levet-Carette, 1964, 1965). Cerebropollenites
sp. cf. C. thiergartii Schulz, 1967 Plate 6, Figure 12 Figured specimen: Slide S 2 5 I 6 , stage co-ordinates 15.8," 100.0", diameter 51 microns, sulcus 23 x 2 ! microns. Co-ordinates of lower right hand corner of cover glass 26-7, 83.2. Locality: G.S.Q. Ipswich 9, 612 feet, 7 inches (Helidon Sandstone). Remarks: Cerebropollenites thiergartii differs from C. macroverrucosus in having smaller, more compact verrucae. The specimen figured conforms to the specific diagnosis (Schulz, 1967, p. 6 0 4 ) , but because detailed comparison of the sculpture has not been possible, on the basis of the published illustrations, it has not been formally identified with the European species. Distribution of C. thiergartii: Liassic Germany and Poland (Schulz, 1967).
of
East
Genus CYCAOOPITES Wodehouse ex Wilson & Webster, 1946 Type species: Webster, 1946. Cycadopites
Cycadopites
granulatus
follicularis
Wilson
&
(de Jersey) de Jersey, 1964.
Distribution: Triassic of Ipswich Coal Measures, Bundamba Group (de Jersey, 1962, 1964, this p a p e r ) ; Triassic of Tingalpa and Moorooka Formations, Brisbane area (de Jersey and Hamilton, 1965b); Middle Triassic of Moolayember Formation (de Jersey and Hamilton, 1 9 6 7 ) ; Triassic of Clematis Sandstone (de Jersey, 1 9 6 8 ) ; Jurassic of Marburg Formation (this p a p e r ) . Cycadopites
magnus
Figured specimen: Slide S2364, stage co-ordinates 23.2, 88.6; dimensions 86 x 28 microns. Co-ordinates of lower right hand corner of cover glass 26.4, 85.6. 4, 993 feet,
Distribution: Upper Triassic Los Rastros Formation of Argentina (Herbst. 1 9 6 5 ) ; Raceview Formation (this p a p e r ) . Cycadopites nitidus (Balme) de Jersey, 1964 Distribution: Widely distributed in the Mesozoic of Australia. Queensland records: Jurassic of Walloon Coal Measures, Marburg Formation, Helidon Sand stone (de Jersey, 1959, 1963, this p a p e r ) ; Jurassic of Precipice Sandstone, Evergreen Formation, Helidon Sandstone, Walloon Coal Measures of Surat Basin (de Jersey and Paten, 1964; Reiser and Williams, 1 9 6 9 ) ; Triassic of Ipswich Coal Measures. Bundamba Group (de Jersey, 1964, 1 9 7 0 b ) ; Triassic of Tingalpa and Moorooka Formations, Brisbane area (de Jersey and Hamilton, 1 9 6 5 b ) ; Middle Triassic of Moolayember Formation (de Jersey and Hamilton, 1 9 6 7 ) : Triassic of Clematis Sandstone, Rewan Formation (de Jersey, 1968, 1 9 7 0 a ) . Cycadopites
sp. cf. C. potoniei Bharadwaj & Sineh, 1964 Plate 2, Figure 10 Figured specimen: Slide S2406, stage co-ordinates 17.6, 9 3 . 1 ; dimensions 94 x 33 microns. Co-ordinates of lower right hand corner of cover glass 25.7, 83.5. Locality: N.S. 272, 1128 feet, 9 inches (Ripley Road Sandstone). Remarks: The specimen figured is representative of a few large grains which are similar in all other features to Cycadopites potoniei Bharadwaj & Singh, 1964 but are somewhat more elongate, the leneth : breadth ratio being about 3 : 1, as compared with 2 : 1 quoted by Bharadwaj and Singh (1964. D, 3 9 ) . Accordinely these specimens are compared, rather than identified with that species. Thev differ from arains of C. grandis de Jersey and Hamilton, 1967 (de Jersey and Hamilton, 1967, p. 19) in being more spindle-shaped and in having more pointed extremities. Distribution; Triassic of Raceview Formation. Ripley Road Sandstone (this p a p e r ) ; Jurassic of Marburg Formation (this p a p e r ) . T u r m a POROSES Naumova emend. Potonie, 1960 Subturma MONOPORINES Naumova, 1939 Genus P E R I N O P O L L E N I T E S Couper, Type 1958.
Herbst, 1965
Plate 2, Figure 11
Locality: G.S.Q. Ipswich (Raceview F o r m a t i o n ) .
Remarks: Two specimens in one of the Raceview assemblages conform to the description and figures of this species (Herbst, 1965, p. 149, pi. 2, figs. 22, 2 3 ) . The species is distinguished by its relatively large size and presence of prominent folds or thickenings adjacent to the colpus.
4
inches
species;
Perinopollenites
elatoides
1958 Couper,
Perinopollenites elatoides Couper, 1958 Plate 4, Figures 6, 9 Figured specimen (Plate 4, Figure 6): Slide S2349, stage co-ordinates 16.0, 96.8; diameter 46 microns, intexine 35 microns. Co-ordinates of lower right hand corner of cover glass 27.5, 79.9.
EARLY JURASSIC MIOSPORES FROM THE HELIDON SANDSTONE
Locality: G.S.Q. Ipswich 4, 639 feet, 11 inches (Helidon Sandstone). Figured specimen (Plate 4, Figure 9): Slide S2347, stage co-ordinates 14.7, 91.0; diameter 33 microns, intexine 23 microns. Co-ordinates of lower right hand corner of cover glass 26.8, 84.6. Locality: G.S.Q. Ipswich 4, 435 feet, 5 inches (Helidon Sandstone). Distribution: Widespread in Jurassic and Lower Cretaceous sediments of E u r o p e and Canada, RhaetoLiassic of Poland (Orlowska-Zwolinska, 1966); Rhaetic and Liassic of East Germany (Schulz, 1 9 6 6 ) . Queensland records; Precipice Sandstone, Evergreen Formation, Hutton Sandstone, Walloon Coal Measures of Surat Basin (de Jersey and Paten, 1964; Reiser and Williams, 1 9 6 9 ) ; Ripley Road Sandstone, Helidon Sandstone, Marburg Formation (de Jersey. 1963, this paper). ACRITARCHA
Remarks: Acritarchs, assigned to the genera Baltisphaeridium, Micrhystridium and Veryhachlum, have been recorded in three of the assemblages from the Marburg Formation, penetrated in G.S.Q. Ipswich 5. The samples which yielded these acritarchs came from a section containing chamositic oolite, which is regarded as stratigraphically equivalent to a section in the Ever green Formation of the Surat Basin, with sediments of similar lithology. Samples from the latter sequence also contain acritarchs (Reiser and Williams, 1969, p. 2 1 ) . The stratigraphic significance of these occurrences, associated with these oolitic sediments, is discussed in a later section of this paper. I N C E R T A E SEDIS
Genus CIRCULISPORITES de Jersey emend. Norris, 1965 Type species: Circulisporites parvus de Jersey emend. Norris, 1965. Circulisporites parvus de Jersey emend. Norris, 1965 Distribution: Recorded from the Permian and Mesozoic of Australia, South Africa and Antarctica. Queensland records: Triassic of Ipswich Coal Measures (de Jersey, 1962, 1 9 7 0 b ) ; Late Triassic of Bundamba Group (de Jersey, 1 9 6 4 ) ; Triassic of Tingalpa Formation, Brisbane area (de Jersey and Hamilton, 1 9 6 5 b ) ; Jurassic of Marburg Formation (de Jersey, 1963, this p a p e r ) ; Jurassic of Evergreen Formation, Hutton Sandstone of Surat Basin (de Jersey and Paten, 1 9 6 4 ) ; Middle Triassic of Moolayember Formation (de Jersey and Hamilton, 1 9 6 7 ) . MICROFLORAL SEQUENCE AND IN
THE SECTION
CORRELATION
STUDIED
As indicated in the Stratigraphic Discussion above, the sections penetrated in G.S.Q. Ipswich 3, 4, and 5 can be correlated on the basis of lithological evidence (see figure 2 ) . The complete sequence intersected in these holes has a stratigraphic thickness of about 2430 feet, (Because of the slight magnitude of the regional dip to the south, stratigraphic and vertical thicknesses
21
can be approximately e q u a t e d ) . The distribution of genera and species is shown diagrammatically in Figure 3, which is a composite distribution diagram based on trie complete thickness of sediments penetrated. Samples from the Esk Beds, at the base of this composite sequence, were barren. Assemblages from the overlying section came from sediments correlated, on lithological evidence, with the Raceview Formation. They were derived from samples between the depths of 991 and 1169 feet in G.S.Q. Ipswich 4. In all these assemblages bisaccate pollen grains (mainly of the Pteruchus type) are abundant or dominant; Classo pollis, Lycopodiumsporites austroclavatidites and Perinopollenites elatoides are absent. Species present include Foveosporites moretonensis, Gliscopollis meyeriana, Lycopodiumsporites rosewoodensis, Poly cingulatisporites crenulatus and P. mooniensis. This association is characteristic of the Raceview Forma tion (de Jersey, 1970b, pp. 19-22, fig. 2 ) ; the com position of the assemblages thus supports lithological correlation of this section with that unit. Similar assemblages are recorded from a section of Raceview-like sediments, penetrated between 742 and 995 feet in G.S.Q. Ipswich 9. The presence of this attenuated representative of the Raceview Formation in two separate areas (the Lowood and Helidon areas) indicates that it may well be of significant areal extent in the subsurface of the region between Helidon and Ipswich. Overlying the Raceview Formation in G.S.Q. Ipswich 4 is the Helidon Sandstone; it is about 1180 feet in thickness in the section penetrated by G.S.Q. Ipswich 3, 4 and 5. Study of the distribution diagram (Figure 3 ) shows that there is a marked change in the assemblages; the level at which this change takes place substantially coincides with the lithological boundary between the formations. A distinctive feature of the Helidon assemblages is the presence, usually in abundance, of Classopollis classoides, a species which is absent from the Raceview microflora. Coinciding with the introduc tion of Classopollis, the proportion of bisaccate pollen grains is markedly reduced. Other species which are introduced include Ceratosporites helidonensis, Lycopodiumsporites austroclavatidites, L. semimuris and Perinopollenites elatoides; their abrupt introduc tion, together with the disappearance of certain Raceview species, favours the view that there was a time interval between the Raceview and Helidon microfloras. This view is supported by other evidence, discussed below. The Helidon Sandstone is much thicker than the Precipice Sandstone, a unit of similar lithology in the Surat Basin. Typical sections of the latter, in the U.K.A. Moonie 3 Well and in D.R.D. 6 (Reiser and Williams, 1969, Text. fig. 3) are approximately 270 and 300 feet in thickness respectively. Assuming roughly similar rates of deposition, the greater thickness of the Helidon Sandstone indicates a longer time range for the sediments of this formation. Comparison of the Precipice and Helidon assemblages also supports the view that deposition of the latter unit extended over a longer time interval. Assemblages from the basal part
22
EARLY JURASSIC MIOSPORES FROM THE HELIDON SANDSTONE
of the Helidon Sandstone, in G.S.Q. Ipswich 3 and 4, are lacking in certain species, including in particular Antulsporites varigranulatus and Trisaccites variabilis (— Podosporites sp. of Reiser and Williams, 1969), which are present in the basal pari of the Precipice Sandstone (Reiser and Williams, 1969, Figures 4, 5 ) . Moreover they contain Ceratosporites helidonensis, a distinctive species which has not been recorded in the Precipice assemblages. From these features of the microfloras it is concluded that the section, about 500 feet in thickness, at the base of the Helidon Sandstone in G.S.Q. Ipswich 3 and 4 is older than the Precipice Sandstone. At higher levels C. helidonensis is absent, and with the gradual introduction of Precipice species, the mio spore populations become increasingly similar to those from the Surat Basin. Assemblages which are very similar to those of the Precipice Sandstone came from depths of 531 feet I inch and 575 feet 10 inches in G.S.Q. Ipswich 3, and a section of similar thickness to the average Precipice sequence can be selected in this upper part of the Helidon Sandstone, including these levels in G.S.Q. Ipswich 3. On this basis the correlation of the Precipice Sandstone with a section in the upper part of the Helidon Sequence is indicated below in Table 1. In G.S.Q. Ipswich 9 (near Helidon) the Helidon Sandstone is appreciably thinner than in the area around Lowood, its thickness being about 650 feet in this hole. In this section there are fewer shale beds than in the sections of the formation penetrated in G.S.Q. Ipswich 3 and 4 and only two assemblages are recorded. However the presence of Ceratosporites helidonensis in one of them (from 612 feet, 7 inches) and the absence of Antulsporites varigranulatus and Trisaccites variabilis from the other (from 696 feet, 8 inches) provide evidence for the presence of the lower, pre-Precipice portion of the Helidon sequence in this area also, although its thickness is evidently consider ably less than in the Lowood area. Slightly higher in the sequence, the first appearance of Nevesisporites vallalus is of biostratigraphic significance. In the Surat Basin the first appearance of this species has been used to define the base of a subzone (Reiser and Williams. 1969, p. 19). In sections in D.R.D. 6 and 12, studied by those authors, it first appears in the uppermost 100 feet of the Precipice Sandstone. The earliest record of the species, in the Helidon sequence, is in an assemblage from 575 feet, 10 inches in G.S.Q. Ipswich 3 ; the top of the Helidon Sandstone is at a depth of 200 feet in this hole. By equating this first appearance with the base of the Nevesisporites vallatus Subzone in the sections studied by Reiser and Williams, the top of the Helidon Sand stone is equated with a level about 250 to 350 feel above the Precipice-Evergreen boundary in the Surat Basin. This correlation is indicated below in Table 1. The next major change in the microfloral sequence is brought about by the appearance of Zonalapollenites, notably Z. damvieri and Z. segmentatus. The first appearance of this genus was used by Reiser and Williams (1969, p. 19) to define the top of their
Classopollis classoides Zone, and also the top of the Nevesisporites vallalus Subzone within it. In the Surat Basin the top of this zone (and subzone) is in the Evergreen Formation, at or near the base of the Boxvale Sandstone or Westgrove Ironstone Member( where the Boxvale Sandstone is absent). In the sections studied by Reiser and Williams its level ranged from about 80 to 210 feet below the top of the Evergreen Formation. The first record of Zonalapollenites, in the Lowood sequence, is in an assemblage from 234 feet. 2 inches in G.S.Q. Ipswich 5. This is about 800 feet above the base of the Marburg Formation. Consequent ly the Evergreen-Hutton boundary is equated (from the aspect of time equivalence) with a level about 900 feet above the base of the Marburg Formation. This relationship is shown in Table 1. In the Surat Basin the uppermost part of the Ever green Formation, overlying the level of the first appear ance of Zonalapollenites, is characterized by the presence of beds of chamositic oolite. In this part of the sequence, also, varying proportions of acritarchs are present in the microfloral assemblages. Reiser and Williams point out ( 1 9 6 9 , p. 2 1 ) that while this lithology is suggestive of marine origin, acritarchs have been found associated with marine, brackish and fresh water deposits. Apart from a few arenaceous foraminifera from the acritarch-bearing interval at one locality, there are no other records of foraminifera or other marine macro- or microfossils. Accordingly Reiser and Williams concluded (loc. cit.) that "although a wide spread change of environment is indicated at this interval, it is uncertain whether or not there was a true marine incursion". This pattern of distribution of acritarchs and oolite beds is repeated in the Marburg Formation. In G.S.Q. Ipswich 5 acritarchs are present in the assemblages from samples at 184 feet, 6 inches, 159 feet, 9 inches and 89 feet, 5 inches and beds of oolite, respectively I inch and 5 inches in thickness, occur at depths of 166 feet, 1 inch and 185 feet, 3 inches (A.R.G. Gray, pers. c o m m . ) . From this evidence, taken in conjunction with that of occurrences of oolite reported by Woods ( 1 9 4 7 , pp. 12, 13) from the Brighton-Pine River area, it seems probable that the change of environment noted by Reiser and Williams was even more widespread than reported by those authors, and that it took place over a distance of at least 250 miles (i.e., from the Roma area to the present coastline). A similar conclusion has been reached by R. J. Paten (pers. comm.) on the basis of the distribution of other samples containing acritarchs and oolite beds at other localities. In both the Marburg and Evergreen Formations, beds of oolite are confined to relatively narrow intervals in the sequence and it seems likely that this oolitic facies is relatively continuous over the area concerned. The presence of oolite in G.S.Q. Ipswich 5 thus enables evidence bearing on the possibility of diachronism of this oolite-bearing section, to be assessed. This can be done by comparison of the levels at which Zonala pollenites first appears, in relation to the oolite-bearing intervals. In the Evergreen Formation of the Surat Basin, Reiser and Williams (1969, Fig. 5 ) record the
EARLY JURASSIC MIOSPORES FROM THE HELIDON SANDSTONE
lirst appearance of Zonalapollenites (—Tsugaepollen ites) at about 60 feet below the oolitic section in D.R.D. No. 6. (Selection of this hole for comparison with the Moreton Basin is more appropriate than use of other stratigraphic holes, which intersected the Boxvale Sandstone, a unit known locally in the northern Surat Basin, which wedges out to the east and is not represented in the Moreton Basin). In the Marburg Formation, Zonalapollenites makes its first appearance in G.S.Q. Ipswich 5, about 50 feet below the oolitic section. When the vertical spacing of the samples is taken into account, the intervals below the oolitic section in each case (50 and 60 feet) are so similar as to indicate that the latter is relatively isochronous, between D.R.D. 6 and G.S.Q. Ipswich 5. Further evidence from other sections is desirable, but assuming that the introduction of Zonalapollenites constitutes a reliable time marker, it seems likely that deposition of the oolitic sediments took place at about the same time over their entire areal extent. In Table 1 the stratigraphic positions of sections in the Ipswich and Ripley Road areas, in relation to the Helidon-Marburg sequence, are also indicated. Evidence from the former area is based on N.S. 272 (Ipswich), core from which constitutes the type sections of the Raceview Formation and Ripley Road Sandstone (Staines, 1964, p. 3 4 ) . Microfloral assemblages from the Raceview Formation and Aberdare Conglomerate in this hole have been discussed recently (de Jersey, 1 9 7 0 b ) ; this investigation has now been extended to samples from the Ripley Road Sand stone. A particularly rich and varied assemblage has been obtained from a sample from a depth of 603 feet, 4 inches in this hole. This assemblage lacks Classopollis, which is a constant and usually abundant component of the Helidon assemblages. In this respect it resembles assemblages previously recorded from the Ripley Road Sandstone (de Jersey, 1964); the absence of Classo pollis in the type section of the Formation and in other sections equivalent to it indicates a pre-Helidon age for this part of the sequence. This Ripley Road assemblage includes species such as Ceratosporites helidonensis, Lycopodiumsporites austroclavatidites and Perinopollenites elatoides, the presence of which indicates that the assemblage is intermediate between the Raceview and Helidon microfloras. The occurrence of Ceratosporites helidonensis, in particular, supports the view that the top of this type section of the Ripley Road Sandstone is relatively close, in time, to the basal part of the Helidon Sandstone, as has been shown in Table 1. The other stratigraphic hole, G.S.Q. Ipswich I, was drilled to the southeast, in the Ripley Road area, to explore sediments above the type section of the Ripley Road Sandstone, which in N.S. 272 is overlain by Tertiary strata. This objective was achieved as. while assemblages from the lower part of the section in this hole are similar to those from the type section of the formation, one from a higher sample (192 feet, 1 inch) contains a significant proportion of Classopollis and is closely comparable with those from the basal part of the Helidon Sandstone. The uppermost part of the
23
Ripley Road section in this hole has accordingly been equated, in Table 1, with the basal part of the Helidon Sandstone. There is an apparent discrepancy in thick ness between the Ripley Road sections in M.S. 272 and G.S.Q. Ipswich 1, in that while these sections are about the same thickness, the top part of the latter has pene trated younger sediments. However these differences in thickness are considered to be an effeel of faulting, indicated by the occurrence of steeply-dipping strata and slickensiding in part of the section (near the Raceview-Riplcy Road boundary) in G.S.Q. Ipswich 1. Such faulting could lead to elimination of part of the section and render inaccurate any determination of strati graphic thickness. On the basis of the correlations shown in Table 1, the geographical distribution of the formations con cerned can be related to a major structural feature, the West Ipswich "•fault" or West Ipswich Structure of Allen. Staines and Wilson ( I 9 b 0 . pp. 250. 2 6 0 ) . This is a zone of steeply dipping rocks of varying ages trace able for many miles both north and south of Ipswich. The structure was first observed in the West Ipswich area, where disturbed, steeply-dipping sediments of the Ipswich Coal Measures and Bundamba Group, and sub-horizontal strata of the Walloon Coal Measures, arc in juxtaposition. The correlations made indicate that, while sediments of the Raceview Formation and Ripley Road Sandstone, over 1000 feet in iota! thick ness, were being deposited on the eastern side of this structure, only an attenuated version of the Raceview Formation, about 200 feet In thickness, was laid down on the w c t c r n s'idc. (The latter conclusion is based on the sections penetrated in G.S.Q. Ipswich 4 and 9 ) . Furthermore no sediments equivalent to Ihe upper part of the Ipswich Coal Measures (the Tivoli. Cooneana and Blackslonc Formations) have been found on the western side of this structure. Consequently it is sug gested that the West Ipswich Structure delineates the eastern margin of the Esk Rift, and that this structural feature had a profound influence on sedimentation in the region in Late Triassic time. It is presumed that, except for a brief interval, during which an attenuated extension of the Raceview Forma tion was deposited, the region west of this structural line was a high area being subjected to erosion during the latter p a n of the Late Triassic. To the east of this structural line, the evidence indicates that continuous sedimentation took place, the sediments represented comprising successively the Aberdare Conglomerate. Raceview Formation and Ripley Road Sandstone, pass ing conformably upwards into equivalents of the Helidon Sandstone, which on the evidence of surface mapping, are in turn succeeded by equivalents of the Marburg Formation and Walloon Coal Measures. If the sections studied are representative, it is evident that only in a restricted portion of south-eastern Queens land, including the area east of the West Ipswich Struc ture, is there a continuous conformable sequence through from the Raceview Formation to equivalents of the Marburg Formation and Walloon Coal Measures.
24
EARLY JURASSIC MIOSPORES FROM THE HELIDON SANDSTONE AGE
OF
THE
MICROFLORAS
In a recent paper (de Jersey, 1970b, pp. 2 1 , 2 2 ) microfloral evidence on the age of the Aberdare Con glomerate and Raceview Formation has been discussed. From a comparison of assemblages from these forma tions with the Triassic microfloral sequence in Europe, they were regarded as Late Triassic (Rhaetian or N o r i a n ) . This comparison was based on the discovery of European species of restricted range in the Queens land assemblages and on evidence that their patterns of distribution show fairly close similarities in both the Queensland and European successions. The wide dis tribution of such species is in conformity with the view that provincialism was much less significant in Late Triassic and Early Jurassic floras than, for example, those of Late Cretaceous and Tertiary age (Tschudy, 1969, p. 1 1 7 ) . In particular it is noteworthy that three widespread species—Gliscopollis meyeriana, Classo pollis classoides and Zonalapollenites dampieri—appear in the same order in both central European and Queens land sequences; this parallelism provides evidence for a broadly-based correlation. Extending the above comparison to assemblages from the type section of the Ripley Road Sandstone and from equivalent levels in G.S.Q. Ipswich 1, it is evident that they are also of Late Triassic aspect. Thus they contain Gliscopollis meyeriana, but are lacking in Classopollis; also present are Perinopollenites elatoides and Polycingulatisporites crenulatus, which first appear in the Rhaetic of central Europe (Schulz, in Doring et ai, 1966, Table 5 e ) . (The morphology and synonymy of the latter species has been recently dis cussed—de Jersey, 1970b, pp. 10, 1 1 ) . The Rhaetic aspect of these Ripley Road assemblages is further strengthened by the presence in one of them (from 483 feet, 7 inches in G.S.Q. Ipswich 1) of Zebras porites interscriptus. This species, although its E u r o pean ranee extends from late Karnian to Liassic (Schulz, 1967, p. 5 8 9 ; Geiger and Hopping, 1968, p. 3 2 ) is a characteristic component of Rhaetian micro floras and rare or absent in assemblages from overlying and underlying sediments. Indeed, its presence was regarded by Geiger and Hopping (1968, p. 12) as a feature distinguishing the Rhaetic from overlying Jurassic strata. Accordingly the type section of the Ripley Road Sandstone and the equivalent section in G.S.Q. Ipswich No. 1 have been shown as Late Triassic in Table 1. T h e Helidon Sandstone and uppermost Ripley Road Sandstone in G.S.Q. Ipswich 1 are regarded as probably Early Jurassic on the basis of the presence, in abundance of Classopollis classoides. This is a some what arbitrary criterion of Jurassic age, as while this species appears in some European sections in the Liassic (e.g. Geiger and Hopping, 1968, p. 7 ) , in
others it is known from sediments as old as Rhaetian. However the assignment of these sediments to the Liassic is supported by the Rhaetic aspect of micro floras from the type section of the Ripley Road Sand stone and its equivalents, which as shown in Table 1, are overlain by sediments correlated with the basal Helidon Sandstone. Further evidence for a Liassic age, at least for the upper part of the Helidon Sandstone, is provided by the presence of a specimen of Cerebro pollenites, closely comparable with C. macroverrucosus, in an assemblage from 575 feet, 10 inches in G.S.Q. Ipswich 3 . In a European sequence, accurately dated by associated marine faunas, this species first appears in the early Liassic (Schulz, 1967, p. 6 0 3 ) . These conclusions on the age of the Helidon Sandstone are indicated by recording it as Rhaeto-Liassic in Table 1, thus allowing for the possibility of the basal Helidon sediments being of Rhaetic age. At a higher level, Zonalapollenites dampieri makes its first appearance near the middle of the Marburg Formation, at a level correlated with its first appear ance in the upper Evergreen Formation of the Surat Basin. In E u r o p e the most precisely dated record of the initial appearance of this species is that of Schulz ( 1 9 6 7 , p. 5 9 3 ) who recorded it from the Toarcian (uppermost Liassic) onwards. By equating these initial appearances the Marburg Formation, and equivalent strata in the Surat Basin, are regarded as Liassic, although it is possible that the uppermost Marburg sediments and, in the Surat Basin, the upper Hutton Sandstone, may extend into the Middle Jurassic. These conclusions regarding ages of the formations are shown diagrammatically in Table 1, below. This table illustrates the hiatus in deposition at the base of the Helidon Sandstone in the Lowood area and below the Precipice Sandstone of the Surat Basin, the youngest sediments underlying the latter being those of the Middle Triassic Moolayember Formation. Data now available indicate that this time break at or near the base of the Jurassic is a characteristic feature of the Mesozoic record over most of southern Queensland. It seems likely that the only part of the State in which continuous deposition from Late Triassic to Early Jurassic took place is a restricted area of south-eastern Queensland, to the east of the West Ipswich Structure. In this area, as discussed in the preceding section, a continuous conformable sequence appears to exist from the Aberdare Conglomerate. Raceview Formation and Ripley Road Sandstone, upwards into sediments equivalent to the Helidon Sandstone, Marburg Forma tion and Walloon Coal Measures. This is the only area in eastern Australia, where there is evidence for the existence of a continuous sedimentary sequence extend ing from Late Triassic to Middle Jurassic, thus span ning the System boundary.
25
EARLY JURASSIC MIOSPORES FROM THE HELIDON SANDSTONE
SURAT BASIN. (D.R.D. 1, 6, 12; U.K.A. Moonie 1, 3).
MORETON BASIN (G.S.Q. Ipswich 3, 4, 5)
IPSWICH AREA (N.S. 272 Ipswich)
RIPLEY ROAD AREA (G.S.Q. Ipswich 1)
AGE
HUTTON SANDSTONE
MARBURG ("Marburg
EVERGREEN
RHAETO-
FORMATION
-type" sandstone
FORMATION
LIASSIC
in outcrop) PRECIPICE SANDSTONE
HELIDON SANDSTONE
RIPLEY ROAD SANDSTONE
RIPLEY ROAD SANDSTONE
LATE
(type section) TRIASSIC RACEVIEW F M N .
RACEVIEW FORMATION (type section)
RACEVIEW FORMATION
Aberdare Conglomerate T a b l e 1 — S h o w i n g correlation (based o n m i o s p o r e assemblages) a n d suggested ages of f o r m a t i o n s s t u d i e d .
ACKNOWLEDGEMENTS
The material examined was largely obtained from cores of holes drilled in the course of the stratigraphic drilling programme of the Geological Survey of Queensland. Fundamental assistance was provided by Messrs. R. J. Allen and A. R. G. Gray, of the Petroleum Section of the Geological Survey, and Mr. D. J. Casey, formerly of the Geological Survey, who exercised geological supervision of the stratigraphic
drilling, assisted in selection of samples for study, and furnished advice on the stratigraphic background of the investigation. Mr. R. Beaugeais, of the Palynology Section of the Geological Survey, was responsible for laboratory processing of the samples and also, in con junction with Dr. H. Hekel, assisted in preparation of the photomicrographs and plates. The assistance of Mr. J. R. Kay, who undertook preparation of the locality map, correlation diagram and microfloral dis tribution diagram, is also gratefully acknowledged.
26
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Dep. Geol. Univ. ( V . , 6 48), 211-243. HELBY, R . , 1967: Triassic plant microfossils from a shale within t h e W o l l a r S a n d s t o n e , N . S . W , / , Proc. R. Soc. N.S.W.. 100, 61-73. HERBST, R., 1965: A l g u n o s e s p o r o m o r f o s del Triasico d e A r g e n t i n a . Rev. Asoc. Pal. Argentina. 4 . 141-152. HILL. D , . PLAYIORD. G . a n d WOODS, J. T . , 1965: Triassic fossils of
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_
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EARLY JURASSIC MIOSPORES FROM THE HELIDON
27
SANDSTONE
PLAVEORD, G . a n d CORNELIUS, K. D., 1967: Palynological a n d , I 9 6 0 : Palynological evidence for t h e straligraphical l i t h o s t r a t i g r a p h i c f e a t u r e s of the R a z o r b a c k Beds, M o u n t division o f t h e M e s o z o i c deposits of t h e K h a l a n g a Basin Morgan district, Queensland. Pap. Dept. Geol. Univ. (in R u s s i a n ) . Truclv naiiclmoissled. Inst. Geol. Arkt., 109, Qrf..6(3),8l-94. 134 p p . KLAUS, W „ I 9 6 0 : S p o r e n d e r K a r n i s c h e n Stufe d e r ostalpinen
Trias. Jb. Geol. B.A., 5 , 107-183. KOPITOVA, E . A . , 1963a: N e w species o f s p o r e s a n d pollen from Triassic beds o f western K a z a k h s t a n ( i n R u s s i a n ) . Trudv VNIGRI, 3 7 . 65-69. — _ 1963b; S t r a t i g r a p h y a n d spore-pollen complexes of t h e Triassic depression o f t h e llek Basin ( A k t y u b i n s k p r e Urals) (in Russian). Trudy VNIGRI, 37, 77-78.
PLAY FORD, G . a n d DETTMANN, M . E., 1965: R h a e t o - L i a s s i c plant microfossils from t h e Leigh Creek C o a l Measures, S o u t h A u s t r a l i a . Senckenbeig. leih., 4 6 (2/3), 127-181. POCOCK, S. A , J., 1968: Zonalapolleniies Pflug 1953 a n d related g e n e r a . Taxon, 17 (6), 639-641. POCOCK, S. A . J. a n d JANSONIIJS, J., 1 9 6 1 : T h e pollen g e n u s Cknsopollis Pflug. 1953. Micropaleoiitologv, 7 (4), 439-449. POTOMF., R . , 1956: Synopsis d e r G a l t u n g e n d e r Sporae dispersae 1.
Teil: Sporites, Beih. Geol. Jh., 23, 103 p p . , 1958: Synopsis d e r G a t t u n g e n d e r S p o r a e dispersae, 11. T e i l : S p o r i t e s ( N a c h t r a g e ) , Saccites. Aletes, Praecolpates,
LESCHIK. G . . 1955: D i e Keuperflora von Neuewelt bei Basel, I I . Die Isosporen u n d M i k r o s p o r e n . Schwei:.pulaeont'. Abb., 72, 1-70,
Polyplicates, Monocolplates. Beih. Geol. Jb., 3 1 , 114 p p . . I 9 6 0 : Synopsis d e r G a t t u n g e n d e r S p o r a e dispersae. I I I . Tiel: N a c h t r a g e sporites, F o r t s e t / u n g Pollenites. Mit G e n e r a l register Z e r T e i l l - l l l . Beih. Geol.Jb.,39, I 89 p p .
LEVLT-CARETTE, 1964a: E t u d e d e la microflore infraliassique d"un s o n d a g e effectue d a n s be sous-sol d e B o u l o g n e - s u r - M e r
(Pas-de-Calais). Amils. Soc. Geol. N., 83,101-128.
— _
, 1964b: E l u d e d e la microflore bajocienne d"un s o n d a g e effect ue d a n s le sous-sol d e B o u l o g n e - s u r - M e r , Annh.
i
| 9 6 6 : Synopsis d e r G a l t u n g e n d e r S p o r a e dispersae, IV. T e i l : N a c h t r a g e zu alien G r u p p e n ( T u r m a e ) . Beih. Geol. Jb., 72, 244 p p .
RF-ISTR, R. F . a n d WILLIAMS, A. J., 1969: Palynology of t h e Lower Jurassic sediments of the n o r t h e r n Surat Basin. Pubis.
Soc. Geol. N., 8 4 , 91-121. MADLFR, K . . 1964a: Die geologische V e r b r e i t u n g von Sporen u n d Pollen in d e r D e u t s c h e n T r i a s . Beih. Geo!. Jb., 6 5 , 1-147.
Geol. Surv. Qd.. 339. Palaeonl. Pap., 15, 24 p p .
RIOIJLT. M . , 1965: Microflore infraliasique d u C o t e n t i n .
Annh.
Soc. Geol. N.. 85, 283-298. —
, 1964b: Bemerkenswerte S p o r e n f o r m e n a u s d e m K e u p e r und unteren Lias. Fovtschr. Geol. Rheinl. West/., 12, 189-200.
RTXIIALSKA. M . , 1954: S p o r e a n d pollen analysis o f the Liassic C o a l of Blanowice in U p p e r Silesia (Polish with English s u m m a r y ) . Biul. Inst. Geol., 89. 4 6 p p .
MALYAVKINA, V. S., 1964: Spores a n d pollen from Triassic rocks of t h e W e s t e r n Siberian lowland (in R u s s i a n ) . Trudv VNIGRt, 231, 1-294.
SCHIILZ, E . . 1962: S p o r e n p a l a o n t o l o g i s c h e U n t e r s u c h u n g e n z u r R h a t - l . i a s - G r e n z e in Thiiringen u n d d e r A l t m a r k . Geologic. 11 (3). 308-319.
MCGREGOR, D . C , 1965: Triassic, Jurassic a n d Lower C r e t a c e o u s
. 1967: S p o r e n p a l a o n t o l o g i s c h e U n t e r s u c h u n g e n r a t o liassischer Schichlen in Zentralteil d e s G e r m a n i s c h e n
spores a n d pollen of Arctic C a n a d a . Pap. Geol. Surf.
Beckens. Paldonl. Abb.. Abt. B.. 2 (3), 547-633.
C
Poland. Inst. Geol. Biui, 203, 47-57.
, in DORINO el id., 1 9 6 6 : Erlaliterungen z u r Tabelle dei ST rati g r a p h ischen V e r b r e i t u n g d e r S p o r e n u n d Pollen
v o m oberen Perm bis untersten Inst., 8, 1-203.
Lias. Abh. Zent. Geol.
SINCH, H , P . a n d KUM*R. P . , 1969: Reappraisal o f some s u b s a c c a t e fossil pollen g e n e r a . Palaeobotanist, 17 (1), 80-92, SMITH, A . H . V. a n d BUTTER WORTH, M . A . , 1967: M i c s p o r e s in t h e coal s e a m s o f the C a r b o n i f e r o u s of G r e a t Britain. Spec.
Pap. in Palaeonl., Palaeonl. Assoc.. 1. 324 p p .
STAINES, H . R . E . , 1964: S t r a t i g r a p h i c n o m e n c l a t u r e of B u n d a m b a G r o u p , in t h e Ipswich a r e a . Qd. Govt. Min. J., 6 5 , 33-35.
THIERGART. F . , 1949: D e r st rati g r a p h isc he Wert M e s o z o i s c h e r — , 1966: L o w e r Liassic a g e of the W i e l i c h o w o beds in t h e Pollen u n d s p o r e n . Pahieoniogiaphica, Abt. 13, 89, 1-34. light of s p o r e - a n d - p o l l e n analysis (Polish lowlands). (Polish with English s u m m a r y ) . Kwori. Geol., 10 ( 4 ) . TSCHIJDY, R . H . : Applied Palynology. 103-126 in TSCHUDY. R. H, 1003-1021. and SCOTT, R . A . , 1969: Aspects of Pahnology, J o h n Wiley & S o n s . Sydney, 510 p p . PFLUG. H . D., 1953: Z u r E n t s t h e h u n g u n d E n t w i c k l u n g d e s a n g i o VENKATACKALA. B . S. a n d GOCZAN, F „ 1964: T h e spore-pollen spermiden Pollens in d e r Erdgeschichte. Ptilaeontoflora of t h e H u n g a r i a n " K d s s e n F a d e s " . Acta. Geol. graphica, Abt. B., 95, 60-171. Hung., 8 (1-4), 203-228. PIERCE, R , L., 1 9 6 1 : L o w e r U p p e r C r e t a c e o u s plant
microflora
from Minnesota. Bull, Minn. Geol. Sun.. 42, 86 p p . PLAYFORD, G . , 1962: L o w e r C a r b o n i f e r o u s microfloras o f Spits b e r g e n — P a r t O n e . Palaeontology, 5 . 550-618. —
, 1965: Plant microfossils f r o m Triassic sediments near P o a t i n a , T a s m a n i a . / , Geol. Soc. Ausi., 12 (2), 173-210.
VOLKHEIMER, W „ 1968: E s p o r a s y g r a n o s d e p o l e n del J u r a s i c o d e N e u q u e n ( R e p u b l i c a A r g e n t i n a ) . I, Descripciones Sistem a t i c a s . Ameghiniana. 5 (9), 333-370. WOODS, J, T . , 1947: S t r a l i g r a p h i c a l notes o n t h e B r i g h t o n Beds, 12-15. in JONES, O . A , a n d DE JERSEY, N . J.: Fertile Equisetales a n d o t h e r p l a n t s from t h e Brighton Beds.
Pap. Dep. Geol. Univ. Qd., 3 (4), 16 p p .
PLATE 1 (Ail p h o t o g r a p h s a p p r o x i m a t e l y x 1000) Figure I —Cyaihidites australis
C o u p e r , 1953 ( e q u a t o r i a l focus).
F i g u r e 2 —Anapiculatisporites prlstitlentatus (equatorial focus I.
Reiser a n d Williams, 1969
F i g u r e 3 —Cyaihidites minor C o u p e r , 1953 ( e q u a t o r i a l focus). F i g u r e 4 —Apiculatisporis globosus (Leschik) Playford a n d 1965 (equatorial focus). F i g u r e 5 —Anapiculatisporites dawsonensis (distal-equatorial focus).
Reiser a n d
Williams,
Playford
F i g u r e 7 —Apiculatisporis tarootnensis e q u a t o r i a l focus).
Reiser a n d Williams, 1969 (distal-
F i g u r e 8 —Ceratosporites helidonensis
s p . nov, (distal-equatorial focus).
F i g u r e JO—Ceratosporites helidonensis F i g u r e 11 —Ceratosporites helidonensis specimen a s F i g u r e 10).
sp.
nov.
Dettmann,
1969
F i g u r e 6 —Foraminisporis tribulosus (proximal focus).
Figure 9 —Ceratosporites helidonensis e q u a t o r i a l focus).
and
Dettmann,
(Holotype,
1965
distal-
sp. n o v . ( p r o x i m a l focus). sp,
nov,
(distal
focus,
same
PLATE
1
PLATE 2 (All p h o t o g r a p h s a p p r o x i m a t e l y x 1000) F i g u r e 1 —Ceratosporites
helidonensis
sp. n o v . (distal-equatorial focus).
F i g u r e 2 —Conbaculaiisporites sp. A ( m e d i a n focus). F i g u r e 3 —Neoraistrickia taylorii focus).
Playford a n d D e t t m a n n , 1965 ( m e d i a n
Figure 4 —Neoraistrickia etongaia focus).
Reiser a n d W i l l i a m s , 1969 (equatorial
F i g u r e 5 —Neoraistrickia elongata Reiser a n d W i l l i a m s , 1969 ( p r o x i m a l focus, s a m e specimen a s F i g u r e 4). F i g u r e 6 —Duplexisporites problematicus m a n n , 1965 (distal focus). F i g u r e 7 —Annulispora focus).
folliculosa
( R o g a l s k a ) de Jersey,
Figure S —Antulsporites varigranulatus W i l l i a m s , 1969 (distal focus). F i g u r e 9 —Lycopodiacidites focus).
( C o u p e r ) Playford a n d D e t t
(Levet-Carette)
sp. cf. L. kuepperi
F i g u r e 10—Cycadopites s p , cf. C. potoniei ( m e d i a n focus). F i g u r e 11—Cycadopites magnus
Klaus,
1959 (distal Reiser
and
1960 ( m e d i a n
B h a r a d w a j a n d Singh, 1964
H e r b s t , 1965 ( m e d i a n focus).
PLATE 2
PLATE 3 (All p h o t o g r a p h s a p p r o x i m a t e l y x 1000) F i g u r e I —Lycopodiumsporiies austroclavatidites 1956 ( p r o x i m a l faciesl.
(Cookson)
Potonie,
F i g u r e 2 —Lycopodiumsporites austroclavatidites (Cooksonl 1956 (distal focus, s a m e specimen a s F i g u r e I),
Potonie,
F i g u r e 3 —Lycopodiumsporites semimuris ( D a n z e - C o r s i n Reiser a n d W i l l i a m s , 1969 (equatorial focus).
Laveine)
Figure 4 —Lycopodiumsporites rosenoodensis (distal focus).
and
( d e Jerseyl d e Jersey, 1963
F i g u r e 5 —Lycopodiumsporites rosewoodensis ( d e Jersey) de Jersey, 1963 ( p r o x i m a l focus, s a m e specimen a s F i g u r e 4). F i g u r e 6 —Zebrasporites focus).
interscriptus
( T h i e r g a r t ) K l a u s , 1960 ( m e d i a n
Figure 7 —Annulispora microaimulatti
de Jersey, 1962 ( e q u a t o r i a l focus).
F i g u r e 8 —Cingutriletes s p . cf. ( p r o x i m a l focus).
C. clavus
(Balme) D e t t m a n n .
1963
F i g u r e 9 —Densosporites raceviewensis thin intexine).
s p . n o v . ( m e d i a n focus, s h o w i n g
F i g u r e 10—Densosporites raceviewensis
sp. n o v . (proximal focus).
F i g u r e II—Trilobosporites antiquus focus).
Reiser a n d Williams, 1969 ( p r o x i m a l
Figure 12—Ischyosporites inarburgensis
d e Jersey, 1963 (equatorial focus).
PLATE 4 (All p h o t o g r a p h s a p p r o x i m a t e l y Figure I —Densosporites focus).
raceviewensis
sp. n o v . ( H o l o t y p e ,
Figure 2 —Densosporites raceviewensis
raceviewensis
Figure 5 — PolycitigutatispotUes (median focus).
F i g u r e 6 —Perinopollenites elatoides specimen with p o r e ) .
Figure 8 —Polycingulatisporites ( m e d i a n focus). Figure 9 —Perinopollenites
Jersey)
Playford
and
sp, nov. ( p r o x i m a l focus).
crenulatux
Figure 7 —Nevesisporites vallalus focus).
proximal
sp. nov. ( H o l o t y p e , distal focus).
F i g u r e 3 —Polycingulatisporites densatus (de D e t t m a n n , 1965 ( m e d i a n focus). Figure 4 —Densosporites
• 1000)
Playford a n d D e t t m a n n , 1965
Couper,
1958
(median
focus,
de Jersey a n d Paten, 1964 (proximal mooniensis
elatoides
Figure 10—Zonalapollenites dampieri
de Jersey a n d P a t e n ,
1964
C o u p e r , 1958 ( m e d i a n focus). Balme, 1957 (equatorial focus).
F i g u r e II—Zonalapollenites segmentatus
Balme, 1957 (median focus).
F i g u r e 12—Aratrisporites sp. cf. A. minimus Schulz, 1967 ( m e d i a n focus). Figure 13—Aratrisporites s p . cf. A. scabratus
K l a u s , 1960 ( m e d i a n focus).
PLATE
PLATE S (All p h o t o g r a p h s a p p r o x i m a t e l y F i g u r e 1—Trhaccites variabilis
1000)
( D e v ) Haskell, 1968 (equatorial focus).
Figure 2—Conaletes s p . (median focus). Figure 3—Inaperturopollenites F i g u r e A^AIispohtes
turbatm
lowoodensis
Balme, 1957 ( m e d i a n focus).
de Jersey, 1963 ( m e d i a n focus).
F i g u r e 5—Alisporites simitis (Balme) D e t t m a n n , 1963 (distal focus). Figure 6—Zonalapolleniies dampieri Balme, specimen with trilete m a r k ) .
1957
F i g u r e 7—Podocarpidites focus).
Cookson,
sp. cf. P. ellipiieus
(equatorial
focus,
194-7 ( m e d i a n
PLATE
5
PLATE 6 (AH p h o t o g r a p h s a p p r o x i m a t e l y Figure 1 —Classopollis classoides Pflug emend. 1%] ( p o l a r view, p r o x i m a l focus).
- 1000) Poeock and J a n s o n i u s ,
Figure 2 —Classopollis classoides Pflug emend. Pocock a n d J a n s o n i u s . 1961 (equatorial view, focussed o n well developed s t r i a t i o n s ) . F i g u r e 3 —Classopollis classoides Pflug emend. Pocock a n d J a n s o n i u s , 1961 ( e q u a t o r i a l view, s t r i a t i o n s b r e a k i n g up into discrete elements). F i g u r e 4 —Classopollis simplex ( D a n z e - C o r s i n a n d Laveine) Reiser a n d Williams, 1969 (equatorial view, s h o w i n g thickened e q u a t o r i a l girdle with infragranulate sculpture). Figure 5 —Classopollis classoides Pflug emend. Pocock a n d J a n s o n i u s , 1961 (equatorial view, specimen with s h r u n k e n intexine). F i g u r e 6 —Gliscopollis meyeriana view, p r o x i m a l focus).
(Klaus)
Venkatachala,
F i g u r e 7 —Gliscopollis meyeriana (Klaus) Venkatachala, view, distal focus, s a m e specimen a s F i g u r e 6),
1966
(polar
1966 ( p o l a r
Figure 8 —Classopollis simplex ( D a n z e - C o r s i n a n d Laveine) Reiser a n d W i l l i a m s , 1969 ( p o l a r view, proximal focus). Figure 9 —Eqtiiselosporiies s p . cf. E. tortuosus ( m e d i a n focus). F i g u r e 10—Discisporites psilatus Figure 11—Gliscopollis meyeriana view, m e d i a n focus).
(Madler) comb. nov.
d e Jersey, 1964 ( m e d i a n focus). (Klaus)
Venkatachala,
Figure 12—Cerebropollenites sp, cf, C, thiergartii focus).
1966
(polar
Schulz, 1967 (median
Figure 13—Cerebropollenites sp. cf. C, macroverrucosus Schulz, 1967 ( p r o x i m a l focus).
(Thiergart)
Figure 14—Cerebropollenites sp. cf. C. macroverrucosus Schulz, 1967 (distal-equatorial focus, s a m e F i g u r e 13),
(Thiergart) specimen a s
PLATE 6
40
EARLY JURASSIC MIOSPORES FROM THE HELIDON SANDSTONE
APPENDIX — Lists of Microflora! Assemblages T h e a s s e m b l a g e s r e c o r d e d b e l o w a r e a r r a n g e d in a s c e n d i n g s t r a t i g r a p h i c o r d e r for e a c h of t h e b o r e h o l e s studied. In t h e h e a d i n g for e a c h s a m p l e , d e p t h , lithology, f o r m a t i o n a n d n u m b e r of s p e c i m e n s a r e recorded. R e g a r d i n g t h e latter, t h e figures indicate t h a t c o u n t s of t h e s e m a g n i t u d e s were m a d e : a d d i t i o n of t h e -t- sign, e.g. 200 + , indicates t h a t a n a d d i t i o n a l low p o w e r t r a v e r s e w a s m a d e of t h e a v a i l a b l e slides. Species r e c o r d e d only in such a d d i t i o n a l traverses a r e indicated by t h e sign + in each list I n d e t e r m i n a t e s p e c i m e n s have not been included.
G.S.Q. I P S W I C H I RACEV1EW
FORMATION
741ft.. I in. G r e y shale
C o u n t 200-!0.5% 1.0% 2.5% 40.5% 0.5% 3.5 % 0.5% 5.5% 1-0%
A nopic ulal isporiles da wsonensis Apkulalisporis spp. Araucariaciies spp. (indet.) Camerosporites ciarkei Conaleles s p . Con rerrucosisporiles ctmteron i Cycadopiies nil id us Cycadopiies s p . (indet.) Inapertmopollenites s p p . (indet.) Leiotriietes direct us Osmundacldites sp. Polypodiisporiies ipsviciensis Verrucosisporites sp. Vitreisporites pallid us Disaccites tindet.)
~-
1.5% 1.0% 1.0% 81.0%
384ft.. 6in. G r e y shale
Annulispora microannulaia Apkulatisporis spp. Araucariaciies s p p . (indet.) Cadargasporiles reliculalus Ceraiosporites helidonensis Conaleles s p p . Con verrucosisporites cameroni Converrucosisporiies sp. (indet.) Cycadopiies niiidus Dictyophyllidites mortoni Discisporiles psilalus Duplexisporiles p roblemulkus Foveosporiies moretonensis Gliscopollis meyeriana Granulalisporiies spp. Inaperturopollenites s p p . (indet.) Leiotriietes direct us Lop/iotri/etes s p . Lycopodiumsporil es rose woodensis Osmundacidiies spp. Perinopolleniies elatoides Platysaccus queenslandi Polycingulat isporiles crenulalus Siereisporites anliquasporites Siereisporites sp. (indet.) Disaccites (indet.) Paeasaccites sp. ( r e w o r k e d ) A c r i t a r c h : Veryhachium sp. ( ? r e w o r k e d )
SANDSTONE
483ft., 7in. D a r k grey shale
Count 200+
Annulispora folliculosa Annulispora microannulata Apkulalisporis spp. Araucariaciies s p p . (indet.) Cadargasporiles reliculalus Conaleles s p p . Converrucosisporiies cf. cameroni Cycadopiies nil id us Dklyophyllidiles mortoni D uplexisporiles problemai icus Foveosporites moretonensis Granulatisporiles spp. Inaperturopollenites s p p . (indet.) cf. Indospora sp. Leiotriietes directus Lopholrileies s p . Lycopodiumsporites rosewoodensis Osmundacldites spp. Perinopollenites elatoides Polycingidatisporiles crenulalus Polycingulatisporites densatus Poiycingidalisporiles mooniensis Polycingulatisporites cf, mooniensis Siereisporites antiquasporiles Siereisporites perforaius Siereisporites sp. (indet,) Vitreisporites pullidus Zebrasporites interscriplus Disaccites (indet.)
+ 1.5% i.0% 2.5%
+
4.5% 0.5%
).o%
_
"
4,5% 0.5% 0.5% 3.0% 4.0% 0.5% 12.5% 0.5% 1.5% 18.5% 2.5% 0.5% 2.0% 2.5% 0.5% 0.5%
+
8.0%
+ 27.5%
+
2.0% 1-0% 0.5%
+
3.5%
+
0.5% 4.0% 2.0%
+
+ + +
1.5% 4-5% 6.5%
+
0.5% 5.0% 3.5% 0.5%
+
0.5% 1.5% 62,0%
+
0.5%
192ft.. lin. G r e y shale
RIPLEY ROAD
Count 2004-
C o u n t 2004-
Anapiculatisporites da n'sonensis Annulispora microannulaia Apkulatisporis spp. Araucariaciies s p p . (indet.) Baculalisporiles comaumensis Cadargasporiles reliculalus Ceraiosporites helidonens is Ciassopollis classoides Conaleles s p p . Conbaculalisporites sp. Converrucosisporiies sp. Cyaihidiies s p . (indet.) Diclyophyllidil es mortoni Dischporiies psilatus Duplexisporiles problematicus Fo veosporites I noretonensis Foveosporiies s p . (indet.) Gliscopollis meyeriana Granulatisporiles spp. Inaperturopollenites s p p . (indel.) Leiotriietes direclus Lopholrileies sp. Lycopodiumsporites austroclavalidil es Lycopodiumsporites rosewoodensis Lycopodiumsporites semimuris Osmundacidiles spp. Perinopollenites elatoides Polycingulat isporiles crenulalus Polycingulatisporites mooniensis Rugulatisporiies sp. Siereisporites anliquasporites Siereisporites sp. (indet.) Vitreisporites pallidas Disaccites (indet.) cf. Indospora s p . ( ? r e w o r k e d ) Parasacciles sp. ( r e w o r k e d )
+
0,5%, 2.5% 5.5% 0.5 % 1.0% 0.5% 9.5% 16.5% 0.5% 0.5% 0.5% 0.5% 0.5% 0.5% 0.5% 1.0% 3.5% 2.0% 2.0% 7.0% 0.5% 1.5% 1.0 +
+
9.0% 8.0% 0.5% 0,5% 6.5% 0.5% 0.5% 1.5% 20.5%
+ +
41
EARLY JURASSIC MIOSPORES FROM THE HELIDON SANDSTONE N . S . 272 ( I P S W I C H ) RIPLEY ROAD
SANDSTONE
1128ft., 9 i n .
G r e y shale
C o u n t 200-!-
Apiculatisporis globosus Cadargasporites retictdatas Cycadopites nitidus Cycadopites cf. potoniei Cycadopites s p . (indet.) Dictyophyllidites mortoni Duplexisporites problematicus Foveosporites sp. Inapertuorpollenites spp. (indet.I Leiotriletes directus Polypodiisporiles ipsviciensis Stereisporites sp. (indet.) Disaccites (indet.)
i 5.0",, + 1.0% 0.5 % + 0,5% 6.5°,, 1.0% 7.5 % 1.0% 77.0",;
Apiculatisporis globosus Baculatisporites comaumensis Camerospoi ites clarkei Cllordasporites sp. Coiiverrucosisporites cf. camerom Cycadopites nitidus cf. Cycadopites sp. Dictyophyllidites mortoni Discisporiies psilutus Duplexisporites problematicus cf. Foveosporites s p . inaperturopolleniies s p p . (indet.) Lopholriletes sp. Osmundacidites spp. Platysaccus queenslandi Polycingulatisporites ci cutdatas Polypvdiispotties ipsviciensis Stereisporites sp. Vitreisporites niierosaeats Disaccites (indet.)
— 4+ 0.5°,', 0.5% + 40.5 % 41.0% 41.0% 1.0% + 0.5% 4 95.0%
603ft., 4 i n . 1042ft., 3in
G r e y siltstone
Count 200-D a r k grey shale
,4 /)i7/i «•«/h/ isporites daw sonensis A napiculatisporites pristidenlalus Annulispora folliculosa Apiculatisporis spp. Aratrisporites cf. minimus Araucariacites s p p . (indet.) Baculatisporites sp. ( i n d e t . I Cadargasporites baculatus Cadargasporite s reticulatus Camerosporites clarkei Ceratosporites helidonens is Conaletes s p p . Conbaculaiisporites sp. A Cycadopites nitidus Cycadopites sp. (indet.) cf. Deusoisporites sp, Dictyophyllidites cf. harrisii Dictyophyllidites mortoni Dictyophyllidites sp. (indet.) Discisporites psllalus D uplexisporites p roblemal kits Equisetosporites cf. tortuosus Fo veosporites moretonensis Foveosporites sp. (indet.) Gliscopollis meyeriana Granulatisporites sp. Inaperturopolleniies s p p . (indet.) /nduslisporiles parvisaccatus Laevigatosporiles sp. Leiotriletes directus Lycopodiacidites cf. kuepperi Lycopodiumsporites austrocla vat idites Lycopodiumsporites cf. semimuris Osmundacidites spp. Perinopollenites elatoides Polycingulal is parties crenulalus Polycingulal isporites densatus Pol) cingulalisporites mooniensis Polypodiisporiles ips viciensis Punctatosporites aalkomi Stereisporites antlquasporites Stereisporites perforalus Stereisporites sp. (indet,) Verrucosisporites sp. Vitreisporites pallidus Disaccites (indet.)
G.S.Q. I P S W I C H 4 RACEVIEW
FORMATION
1125ft.. l i n .
D a r k grey c a r b . shale
C o u n t 2004-
-t1.0% 4
1.0% 0.5%
4.0,= 2.5",,
0,5° 0.5° 0,5" 1.0" 0.5"
T 0.5% 0.5".;, 14.0% 0,5% 0.5",, 6.5% 1.5% 14.5% 0.54
i.o?;, 6.0% 0.5% 1.0% 40,5%
Count 2 0 0 -
AIisporites lo woodeiisis Annulispora mkroannulata cf. Annulispora sp. Apiculatisporis globosus Apiculatisporis sp (indet I Araucariaciies spp. (indet.> Baculatisporites coniaumciisis Baculatisporites sp. h n d e t . ) Cqmerosporites clarkei Conaletes sp. Craterisporites rolundus Cycadopites niliduDensosporites raeeiJesvensls Dictyophvllidiles moitoni Duptcxisporitc problematicus Duplicisporites sp A Foveosporites uiot clone>rst\ Faseo•jwiro ?p. t i n d e i . t cf. Foveosporites sp Gliscopollis rnc^c'tuna Inaperturopolh niles juscus Inaperturopollenites spp. (indet.) Indusiisporites sp. Leiotriletes directus Osmundacidites spp. Polycingulatispor ites crenulalus Polypodiisporiles ips viciensis Semiretispori s aiiliiiuus Stereisporites cf. antiqutisporites Slereisporites sp. ( i n d e t . I Verrucosisporites spp. Vitreisporites microsaccus Disaccites (indet.) Nevesisporites timaiulus ( ? r e w o r k e d ) Striate bisaccate pollen ( ? r e w o r k e d )
0.5% 0.5% I 5% 1.5% 0.5 % 4
5.5% 3-0% 0.5%, 0.5% 5-5 % 2.0% 0.5% 0.5% 1.50.5% 0.5% 2.5% 3.5% 4.0% + 1.0% 5.5%
+ 1.0% 1-0% 0.5% 56.0% 4-
1015ft., 9in.
Black m u d s t o n e
Count 200-
Alisporites lor-oodensis cf. Annul/spot a sp. A piculatisporis globosus Apiculatisporis sp. (indet.) Araucariacites Spp. (indet.) Camerosporites clarkei Conaletes spp. Converrucostspoi ites camerom Cycadopites giannlaius Cycadopites nitidus Densosporites race viewensis
f 2.0% 0.5% i 5°/ 5.5% 1.0% 5.0%
1.0% 0.5% 1-0% 4-
42
EARLY JURASSIC MIOSPORES [-ROM THE HELIDON SANDSTONE Diclyopliyllidites mortoni Duplexisporile.s problemuticus Foveosporiies s p p . Granulatisporiles sp. Leiotriietes direclus Lopholrileies sp. Lycopodiumsporites rosewoodensis O.smundacidiies cf. parvus Osmundacidites spp. (indet.) Polycingulol isporiles crenulalus Polycingtduti.sporites densaius Polypodiisporiies ipsviciensis Semiietispoiis anliquus Siereisporites anliquasporites Siereisporites sp. (indet.) Verrucosisporites s p p . Vitreisporites cf. niwrosacctts Disaccites (indet.)
0.5",, — 1.5",, 0.5",, 4.5",, 0.5",, 1.0 0.5",, 15.0"„ I 1.5"., 33.5",, 0.5",, 0.5 % 1.5% 2.0",, 0.5",, 17.0",,
Dklyophyllidiles mortoni Dupiexisporites problemalicus Gliscopol!is meyeriana liiaperiuropolkiiiles s p p . (indet.) Leiotr Hel es directus Lopholrileies sp. Lycopodiumsporites austroclavatidih' Lveopodiumsporile.s rosewoodensis Lycopodiumsporites cf. sem'unuris Lycopodiumsporites sp. (indet.) Osmundacidites spp. /V™ KJ/KI//C/MVCA elatoides Polycingulatisporites mooniensis Verrucosisporiics spp. I-Vli-eisporil es pa IIit his D h a c c i t c s (indet.)
639ft.,
llin.
G r e y siltstone 993ft., 4in. D a r k grey c a i b . m u d s t o n e
C o u n t 200 •
Anapiciilalisporiles cf. pristidenlaltis Annulispora foiliculosa Apkulatisporis globosus Apkulalisporis spp. (indet.) Araucariaciies sp. I indet.) Baculalisptiriles comuumensis Camerosporites ciarkei Converrucosisporiies cameroni Converrucosisporiies sp, (indet.) Cycadopiies magnus Cycadopiies cf. potoniei aff. Cycadopiies sp. Densosporiles raceviewensis Dklyophyllidiles morloni Discisporites psilatus Dupie.xisporiles problemalicus Duplicisporites sp, Gliscopollis meyeriana inaperturopollenites s p p . (indet.) Indusiisporiies s p . Leiotriietes direclus Osmundacidites spp. Perinopollenites sp. Plalysaccus queenslandi Polycmgulatisporiles densatus Polycingulatisporites mooniensis Polypodiisporiies ipsviciensis Semireiisporis anliquus Verrucosisporites sp, Vitreisporites cf. microsaceus Disaccites (indet.)
HELIDON
2.0 "„ 6.0",, 0.5",, \ .0",. 1,0% 0.5",, 0.5",,
0.5",', — 0.5 "„ 4i0.5 "„ 0.5 "„ 4.5",, 0.5 % 0.5 7.5",, — + 12.0 + 0.5"„ 0,5% 60.5%
>t // sporiles to II -oodensis Annulispora foiliculosa Apiculutisporis globosu.s Apkulatisporis spp. (indet.) Arairisporiles cf. hank si Araucariaciies spp. (indet.) Haculalisporites con laumensis Baciiialispriles sp. (indet.) Cadargasporites haeulaltis Cadargasporites granutatus Cadargasporites reliculalus Camarzonosporiles i 'lull s Cei •alosporites helidonensis Cla.s sopollis classoides Classopollis simplex Conaleles spp. Cvcadopiles niiidus cf. Densosporiles sp. Dklyophy llidiles morloni Duple.xi.sporiles problemalicus Foram in isporis tribulosus Foveosporiies moretonensis Gliscopoilis meyeriana Inaperturopollenites spp. (indet.) Indusiisporiies parvisaccatus Leiotriietes direclus L\ copodiunisporiles auslroclavalidiie Ly copodiunisporiles rose"'oodensis dsn itindacidites w •ellmanii Osmundacidiles spp. (indet.) Perinopolleu iles eiaio ides Pilosisporiles sp, Polycingulatisporites crenulalus Polycingulatisporites mooniensis Stereisporiles untiipjasporites Siereisporites spp. (indet.) Vitreisporites pailidus Disaccites (indet.)
SANDSTONE
745ft., 5in. Grey mudstone
C o u n t 200 -
603ft., 9in.
Count 2 0 0 +
Anapicuiatisporiles sp. Annullspora foiliculosa cf. Annulispora s p . Apkulatisporis spp. Araucariaciies s p p . (indet.) Cadargasporites reliculalus Ceraiosporites helidonensis Classopollis classoides Classopollis simplex Classopollis sp. Conaleles spp. Converrucosisporiies sp. Cycadopiies niti'dus
Grey mudstone + •0.5% 2.5% 8.0% 0.5 % 0.5 % 31.5% + 0,5% 8.5% 0.5 % 0.5 % L
C o u n t 200
Alisporites iowoodensis A lisporiles simiiis Anapieu lot isporiles dawsonensis Anapkulaiisporiies s p . (indet.) Annulispora foiliculosa Annulispora microannulata Antulsporites varigranulalus Araucariaciies fissus Araucariaciies spp. (indet.) Baculatisporites comaumensis Baculalisporites sp, (indet.) Ceraiosporites helidonensis Classopollis classoides
LARLY JURASSIC MIOSPORES FROM THF. HLLIDON Classopollis simples Conaletes s p p Cycadopites nithlus Csiadopitcs ^p. lindel I Dicinipln Width's mot icni Dupfcsispoiircs pmtilctttaiicus Foieospot ites s p . Gliscopollis meyetiaitu Graiuiltilispoi ites s p . Inaperiuropollenttes s p p . (indet.) Indususporiles parrisaccalus Leioliileles directus Lytopodinmsporiies unsiroclavatidiies Lycopodiutrspot aes rosesroodensis Lycopodiumspoi ncs semimuris Osiiiutidacidites sppPerinitpollr'tiies ,'faloid-'sPolvimgiilulispoiih's mooniensis PltUCItUospOl ties HCllkonil Stereisporites ontiauosporltcs Siereispotties s p (mdet.) Vilreisporites /inllidus Disaccites (indet.)
r 5.5",, 2.5"„ 0.5",, 0.5 "„ 0 5",, 0.5",, 0.5 "„ 4.0",. 0.5 "„ 3,0",, + 0.5",, II.5",, 3.5",, 0 5"„ 0.5",, 0.5",, 1.5",, 4.5 "„ 20.5 "„ v
SANDSTONE
Ceraiospoi 'lies he I idoneu sis Classopollis classoides CIas sopolli s s ii nplex Conaletes s p p . Dictyophyllidites liai ris ii Dietyopliyllidilcs mortoni Discisporites s p . Duplexispol lies problematicus Gliscopollis meyeriana Inaperturopollenites Spp. (iitdet.) Indusiisporiles parvisaccatus Leiotriletes directus Neoraistrickia cf. lay lord Osntiinducidiles s p p . Perinopollenites elatoides Platysaccus queeuslandi Podocai pidilcs s p . Polycinatdutisporiies irenulaius Poly cingulalisporites mooniensis Slereis pontes ant Up taspoi 'lies Stereisporites s p . (indet.I Verrueosisporites sp. I--?/1 •<'/ s/>W'/f« pallidas Disaccites (indet.i Parasaceites s p . ( r e w o r k e d )
435ft., 5in. Light grey siliiti nc Alispoiiics
Count 2 0 0 -
1154ft.. D i n .
liiHciodetisis
Anaptcidatisporites pi isridenlalus cf. Aniiubspota sp Atltidspotilcs vaiigi'oiudutus Apiculolispi.itis vUtlxisas Araucarjacitt s ft-.sus Ai'iiiictniai.lies s p p . (indet.) Baculatisporites comaitmeirsis Cadargasporites retieidatus Cair.arozonosporiles rlidis Ceratosporites helidonensis Classopollis classoides Classopollis simplex Conaletes s p p . Cycadopites nitidus Foveosporites s p p . Gliscopollis meyeriana Grantdatisporites sp. Inaperturopollenites s p p . (indet.) Leiotriletes directus Lycopodiumsporites austroclavatidites Lycopodiumsporiies rosewoodensis Lycopodiumsporiies semimuris Osmundaeidiles cf. frs.vw.i Osmundacidites weiimanii Osmundacidites s p p . (indet.) Perinopollenites elatoides Polycingulatisporites crenulalus Polycingulalisporites densalus Polycingulatisporites mooniensis Stereisporites spp. Vitreisporites pallidas Vitreisporites s p . (indet.) Disaccites (indet.) Parasaceites s p , ( r e w o r k e d )
G r e y siltstone
1.5"., 0.5",,
41.0",, 2.5 1.0",, 1.5",, 6.5 "„ 1.0",, 6.5",, 8.0"^ 1.5 "„ 3,0 % 0,5 % 0.5",, 1.0",, I5.0°„ 4.0",, + — 1.0% 4.5",, 0.5°„ 4.5",, -)
G.S.Q. I P S W I C H 3 HELIDON
SANDSTONE
1189ft. G r e y siltstone
C o u n t 200-h
Alisporites lowoodensis Alisporites cf. similis Anapiculatisporites dawsonensls Annulispora folliculosa Apiculatispora cf. globosus Cadargasporites reticulaius
0.5"; 1.0% 0.5 % + + +
C o u n t 200 •
Acatitholrileles s p . (indet.) Alisporites lowoodensis Anapiculatisporites dawsonensls Apiculatisporis s p . (indet.) Artimarkicites s p p . (indet.) Cadaiga'parites reticulaius Ceratosporites helidonensis Classopollis classoides Classopollis simples Ct-nideies s p p . Cycadopites nitidus Ditplcsispftlies prohlemaliius Fo\eiispoilies moteionensis Gliscopollis meyeriana Inaperturopollenites s p p .
1046ft., lOin. G r e y siltstone
C o u n t 200-1-
Anapicuhtiisporites dawsonensis Apiculatisporis s p p , Araucariacites s p p . (indet.) Baculatisporites s p . Cadargasporites reticulaius Ceratosporites helldonen s is Classopollis classoides Classopollis simplex Conaletes s p . Dictyophyllidites morion i Foveosporites s p . Gliscopollis ineverlana Granulatisporiles sp. Inaperturopollenites s p p . (indet.) Leiotriletes directus Lophoiriletes s p . Lycopodiun isporites austroclavatidites Lycopodiumsporites cf. semimuris Osmundacidites s p p , Perinopollenites elatoides
44
EARLY JURASSIC MIOSPORES FROM THE HELIDON SANDSTONE Poddcarpidites sp. Siereisporites aniiquasporiles Siereisporites s p . (indet.) Vitreisporites pallidas Disaccites (indet.) Granulatisporiles micronodosus
(reworked)
— 0.5 % 0.5% 3.0 % 33.5% +
Polycingulatisporiies densai us Polycingulai isporiles n looniens i \ Siereisporites perforatus Siereisporiles s p . (indet.) Taurocusporites sp, Vitreisporites pallidas Disaccites (indet.) Parasaciies s p . (reworked)
825ft., 2 i n . 575ft., l O i n .
Grey mudstone
Count 200~ Grey mudstone
Alisporites Iowoodensis Atiapiculalisporiles dawsonensis Annulispora foiliculosa Baculatisporites comaumensis Cadargasporites baculaius Cadargasporites reliculalus Ceraiosporites helidonensis Classopollis classoides Classopollis simplex Conbaculatisporites sp. A Cyathidiies s p . Cycadopiies niiidus Diclyopliyllidites mortoni Dupiexisporites problemalicus Foveosporiies moretonensis Gleicbeniidites cf. senonicus Gliscopollis meyeriana Granulatisporiles spp. Inaperturopollenites s p p . (indet.) Indusiisporiies parvisaccaius Leiotrileies directus Lycopodiumsporites auslrociavatidites Lycopodiumsporites rosewoodensis Osmundacidites s p p , Perinopollenites elatoides Plalysaccus queenslandi Polycingulatisporites mooniensis Stereisporiles antiquasporiies Slereisporiles perforatus Siereisporites s p . tindet.) Vitreisporites pallidas Disaccites (indet.)
~ — -++ -j+ 52.0 % 41-0% 0.5% 0.5 % •+• + 44— 1.5 % 2.5% j2.5% -j+ 0.5% 4.0% + -h -r + 0.5% 7.5",, 27.0%
C o u n t 200 +
Alisporites similis A nnulispora n licroannulala Aniulsporiies varigranulalus Apiculaiisporis s p . Araucariaciies fissus Araucariaciies s p p . (indet.) Baculalisporites s p . Cadargasporites baculaius Cadargasporites reliculalus Cerebropoileniies cf. macroverriicosus cf. Cerebropoileniies sp. Cinguirileies cf. clavus Conaleles sp, Classopollis classo ides Classopollis simplex Foveosporiies s p p . Granulaiisporites s p p . Inaperturopollenites s p p . (indet.) Leiolrileles direclus Lycopodiumsporites austrocla validiles Lycopodiumsporites rosewoodensis Lycopodiumsporites sen limuris Lycopodiumsporites s p . (indet.I Neoraistrickia s p . Nevesisporiles valiants Osmundacidites s p p . Perinopoiienites elatoides Podocarpidiies s p . Polycingulatisporites mooniensis Siereisporites perforatus Siereisporites s p . (indet.) Vitreisporites pallidas Disaccites (indet.)
730ft„ l i n .
531ft., l i n . G r e y siltstone
C o u n t 200-i G r e y Siltstone
Alisporites Iowoodensis Anapicutatisporites dawsonensis Anapiculatisporiies pristidentaius Annulispora foiliculosa Annulispora microannulata Apicuiatisporis s p . (indet.) Araucariaciies s p p . (indet.) Baculatisporites comaumensis Cadargasporites baculaius Cadargasporites reliculalus Camerosporites ciarkei Cinguirileies cf. clavus Classopollis classoides Classopollis simplex Conaleles s p p . Converrucosisporiies sp. Cycadopiies niiidus Dupiexisporites problemalicus Foveosporiies moreionensh Granulatisporiles sp. Inaperluropolieniies s p p , (indet.) Indusiisporiies parvisaccaius Indusiisporiies s p . (indet.) Leiolrileles direclus Lycopodiumsporites auslroclavalidiles Lycopodiumsporites rosewoodensis Osmundacidites s p p . Perinopollenites elatoides Perotriletes sp,
4 44 -+• -t0.5% 1.0% 44— 0,5% 4 63.0% 0.5 % 1.0% 0.5 % 0.5% + + 0.5% 3.0% 40.5 % 3.5 % + 0.5% 2.0% 10.0 % 4-
C o u n t 200 i-
Acantholriletes cf, pallidus A napiculatisporiles da wsonensis A napkululisporites prist idenlatus Annulispora foiliculosa A nnulispora microannulata cf. Annulispora sp, Aniulsporiies varigranulalus Apkulalisporis spp. .4 raucariacites fissus Araucariaciies s p p . (indet.) Cadargusporiies baculaius Cadargasporites reliculalus Camarozonosporiles rudis Conaleles s p . Conbaculalisporites sp. Classopollis classoides Classopollis simplex Cycadopiies niiidus D iciyophyilidiies mortoni Fo veosporiies moretonensis Gliscopollis meyeriana Inaperturopollenites s p p , (indet.) /ndusiisporites par visaccalus Ischyosporites marburgensis Leiotriietes direclus Lopholrileies s p . Lycopodiumsporites Lycopodiumsporites
rosewoodensis semimuris
EARLY JURASSIC MIOSPORES FROM THE HELIDON SANDSTONE N corals trick in lay tor ii Neoraistrickia sp. (indet.) Nevesisporites cf. vallalus Osmundacidites weiimanii Osmundacidites sp, (indet.) Peritiopotlem'tes el atoides Podocarpidites sp. Polycingulatisporites crenulalus Pol) •eingulat isporites ileitsalns Stereisporites amiquasporites Stereisporites per/oratus Stereisporites sp. (indet.I Trisaccites s'ariab His Vitreisporites pallidas Disaccites (indet.I Parasaceites sp. ( r e w o r k e d )
0.5% 4 0.5% 1.0% 15.5% 4_L 40.5% 1.0% 2.0% 2.0% 17.5% 4-
lycingulatisporiles n looniensis cf. Raislriekia sp. Stereisporites perfo rat us Stereisporites sp. (indet.) Trisaccites variabilis Verrucosisporites sp. Vitreisporit es pallidas Disaccites (indet.) Parasaceites sp. ( r e w o r k e d )
G.S.Q. I P S W I C H 5 MARBURG 988ft., l O i n .
Grey m u d s t o n e MARBURG
C o u n t 200 —
Alisporites lowoodensis Alisporites simitis Anapiculatisporites prislidenlalus Annulispora microannulata Araucariacites fissus Araucariacites s p p . (indet.) Baculatisporites spp. Cadargasporites baculatus Cadargasporites sp. (indet.) Classopollis classoides Conaletes sp. Cycadopites nitidus Gliscopollis meyeriana Inaperturopolleniies spp. (indet.) Leiotriletes directus Osinundackliles spp. Perinopollenites elalolde s Podocarpidites %. Stereisporites sp. Trisaccites variabilis Vilreisporites pallidas Disaccites (indet.)
0.5 "„ 0.5% 4 + — 2.0% 0.5% 4 1.0";, 37.5",, 0.5% 0.5 % 0.5% 13.0% 2.0% 1.5% 10.0 % + 0.5% -f 6.0",, 23.0";,
130ft., 9in. Grey carb. mudstone
C o u n t 200 —
FORMATION
153ft.,3iii.
G r e y siltstone
FORMATION
C o u n t 200-r
Anapiculatisporites dawsonensls Anapiculatisporites prislidenlalus Annulispora folliculosa Annulispora microannulata Antulsporites varigranulatus Apiculatisporis luroomensis Apiculatisporis sp, (indet.) Araucariacites fissus Araucariacites spp, (indet.) Cadargasporites baculatus Cadargasporites granulatus Cadargasporites reticulaius Cadargasporites verrucosus Camarozonosporites rudis Classopollis classoides Conaletes spp. cf. Cycadopites sp. Duplexisporites problematicus Inaperturopollenites s p p . (indet.) Indusiisporites parvisaccalus Leiotriletes direcius Lycopodiumsporites austroclavatidites Lycopodiumsporiies semimuris Neoraistrickia elongala Neoraistrickia sp. (indet.) Nevesisporites vallatus Osmundacidites spp, Perinopollenites elatoides
4 -t-f +— 0.5% 0.5% 1.5% 0.5% + 0.5% 4+ 36.0% 1.5% 0.5% 4H.0% 41-5% 0.5% -±-<0.5% + 5.0 % 31.5%'
Alisporites lowoodensis Anapieulalisporites dasvsonensis Anapiculatisporites pristidentat us Annulispora fol liculosa Annulispora microannulata A plculailspo ris lai oomensis Araucariacites fissus Araucariacites spp. (indet.) Baeulatisporites comaumensis Cadargasporites bacu kit us Cadarga sporit es verrucosus Calamospora tetter Cingutriletes cf. elavus cf. Cingutriletes sp. Circulisporites parvus Classopollis classoides cf. Densoisporites sp. Dielyopltyllidiles sp. Foveosporites sp. Granulaiisporiies sp. Inaperturopollenites s p p . (indet.) /ndusilsporites par vis accalus Leiotriletes direcius Lycopodiutnsporiles auslroclavatidilcs Lycopodhn nsporiles rose wooden sis Lycopodiumsporiies set n imuris Neoraistrickia elongala Neoraistrickia s p . (indet.) Ne ves isporites vallalus Osmundacidites spp. Perinopollenites elatoides Perotrileles sp. Polvcingulallsporiles crenulalus Polycingulatisporites moon lens is Punelatlspor'ues spp. Stereisporites per/oratus Stereisporites s p . (indet.) Tris accites variabilis Vitreisporites pallidas Disaccites (indet.) Claratriletes cf. Itammenii ( ? r e w o r k e d ) Parasaceites sp. ( r e w o r k e d )
690ft., 5in. Black c a r b . m u d s t o n e
C o u n t 200 —
Alisporites cf. grandis Alisporites similis A napiculatt'sporites da wsonens is Annulispora microannulala A ntulsporiles varigranulatus A rancariacites fiss us Araucariacites s p p . (indet.) Cadargasporites baculatus Cadargasporites granulatus Cadai gasporites verrucosus Classopollis classoides Classopollis simplex Converrucosisporites sp.
46
EARLY JLRASSIC MIOSPORES FROM THE HELIDON SANDSTONE Cynihilities minor Cycadopiies niiidus Foveosporiies s p . tnaperlliropoUeniies s p p . (indet.) Ischyospoi'ires uiarhurgeitsis I. eiolrileles direct us Lycopodiumspoeiles austroclavalidiies Lycopodiumsporites rosewoodensis Lycopodiumsporites semimuris Lycopodiumsporites s p . (indet.) Neorais trie kin elongata Nevesisporiles vailatus Osmundacidites s p p . Perinopollenites eloioides Perinopollenites s p . (indet.) Podocarpidiies s p . Siereisporites s p . (indet.) Trisoccites variabilis Vitreisporites pallidas Disaccites (indet.)
0.5% 0.5% 0.5% 5.0% 1.0%
0.5% 0 5% 1.0% 41.0% 0.5% 1.5% 6.5",, 0.5% 5.0",,
375ft., l i n .
5 7 8 f t , Bin.
Grev carb, mudstone
C o u n t 200
Alisporites cf. grand! s A lisporiles lo \ voodensis Anapiculutisporiles pristidentuius Annulispora lolliculosa Annulispora microannulata Aniulsporiies varigranulalus Apiculatispot is s p . Araucariaciies fissus Araucariaciies s p p . (indet.) Bacutalisporilcs commit liens is Cadargasporites baculaius Camaro-onosporiies rudis CIas s-opollis cias soicles Classopollis simplex Conaleles s p . Cyalhidites minor Cyathidiies cf. minor Cycadopiies niiidus Foveosporiies moretonensis Foveosporiies s p . (indet.) Inaperturopollenites s p . (indet.) Indus iisporiles par visacca tus Leiolrileles directus Ly copodiun isporiles uiisirocla validates Lycopodiumsporites rosewoodensis Lycopodiumsporites semii iiuris Lycopodiumsporites s p . (indet.) Osmundacidites s p p . Perinopollenites elatoides Podocarpidiies sp. Po /1 cingtdatisporiles moonieits is Siereisporites am iquasporilcs Siereisporites s p . (indet.) Trisaccii es variabilis Verrucosisporites s p p . Vit retsporiles pallidas Disaccites (indet.) Parasaccites s p . ( r e w o r k e d )
G r e y siltstone
0.5",, 0,5% 3.0",, 0.5";, 0.5% 70.5",, 0.5% 1.0", •h 0.5% 0.5% 1.0% -1.5% 0.5% 2.0";, 0.5% 1-0% 1.5% 0.5%, 1.0% 0.5% 10,0%
530fl., l i n .
Grey mudstone
Conaleles s p p . Cycadopil es granular us Inaperturopollenites s p p . (indet.) Indusiisporiies par visaccal us Leiolrileles directus Lycopodiumsporites ausiroc/avalidite.s Lycopodiumsporiies rosewoodensis Lycopodiumsporites s en limuris Neorais trick ia elongata Neorttistrkkitt s p . (indet.) N evesisporites va Hal us Osmundacidites s p p . Peri:lapollenites elatoides Podocttrpidiles s p . Pol) ciugulaiisporiies it tooniens is Rugtdati.sporiles s p . Stereispoi-il es perioral us Siereisporites s p . (indet.) Vitreisporites pallidus Disaccites (indet.)
C o u n t 200 -
A napiculatisporites da wsonensis Annulispora nucroannulala Aniulsporiies varigranulalus Apkulatisporis sp. Araucariaciies fissus Araucariaciies s p p . (indet.) Cadargasporites baculaius Camarozonosporites rudis Classopollis classoides Classopollis simplex
0.5%
+ 0.5% 0.5% 2.0% 4.0%
58.0%
Count 2 0 0 -
Anap iculai isporiles pristidenttttus Annulispoi a microannulata Apii ulatisporis cf. globosus -tpiculatisporis s p . lindet.) Araucariaciies fissus Araucariaciies s p p . (indet.) Baculatisporites comaumensis Cadarga sporiles baculaius Clas sopo His lias s aides Cla s.s opollis s implex Conaleles s p p . Cyarh idiles minor Cycadopiies niiidus Diet i vphyl I idiles mortoni Inaperturopollenites s p p . (indel.) Ischyosporites marburgensis Leiolrileles direclus Lopholrileies s p . Lycopodiumsporites austrocluvatidlies Lycopoduunspoi •ties rose woodens is Lycopodiumsporites semimuris Ne vesisporil es vallalus Osmundacidites s p p . Peril topollenites elatoides Podocarpidiies s p . Siereisparties anliquasporites Vitreisporites pallidum Disaccites (indet.) Proiobaploxypinus sp. (reworked)
267ft., 9in. Grey shale
Count 2 0 0 -
A/isporiles lo< voodensis Anapiculatisnorites pristidentatus Annulispora microannulata Aniulsporiies varigranulalus Apkulalisporis s p . Araucariaciies fissus Araucariaciies s p p . (indet.) Baculatisporites comaumensis Cadargasporites baculaius Cadargasporites reliculalus Clas sop oil is cl assoides Classopollis simplex Cyathidiies auslralis Cyathidiies minor Cycadopiies niiidus Inaperturopollenites s p p , (indet.) Indusiisporiies parvisaccaius Ischyosporites marburgensis Leiotriietes directus
EARLY JURASSIC MIOSPORES FROM THE HELIDON SANDSTONE Lycopodiumsporites austroclavatidites Lycopodiumsporites semimuris Neoraistrickia elongala Nevesisporltes vallalus Osmundacidites spp. Perinopollenites elatoides Podocarpidites sp. Polycingulatisporites crenulalus Stereisporites perforatus Stereisporites s p p . (indet.) Trisaccites variabilis Vitreisporites pallidas Disaccites (indet.)
1.0% + -t1.5°',, 3.0",, 23.0",, 0.5% + 0.5 % 2.0% 0.5% 1.0% 25.0°,,
234ft.. 2in. Grey mudstone
C o u n t 2004-
Anapiculalisporiles dawsonensls A raucariacites fissus Araucariacites s p p . (indet.) Baculatisporites comaumensis Cadargasporiies baculatus Classopollis classoides Classopollis simplex Cyaihidites australis Cyaihidites minor Cycadopites nitidus Cycadopites cf, potoniei Dictyophyllidites mortoni Duplexisporites problematicus Granulatisporites sp. Inaperturopollenites turbatus Inaperturopollenites s p p , (indet.) Indusiisporites parvt'saccaius Ischyosporites marburgensis Leiotriletes directus Lycopodiumsporites austroclavatidites Lycopodiumsporites rosewoodensis Nevesisporites vallalus Osmundacidites s p . Perinopollenites elatoides Podocarpidites cf. ellipticus Stereisporites antitiuasporites Trilobosporites anliqitus Vitreisporiies pallidus Zonalapollenites cf. segmentatus Disaccites (indet.) Parasaceites s p . ( r e w o r k e d ) Protohaploxypinus sp. (reworked)
— 1.5% 2.5% 44 39.0% -i + 0.5 % 4 + + 0.5",, — 4.5%' 2.5 % 0.5% 2.0% -• — 40.5% 2.5% + + 44.0% -r 15.0% 4-t
184ft., 6 i n .
D a r k grey m u d s t o n e
C o u n t 200 —
Alisporites lowoodensis Araucariacites fissus Araucariacites s p p . (indet.) Classopollis classoides £>/W yophyllid ites mortoni Duplexisporites problematicus Inaperturopollenites turbatus Inaperturopollenites s p p . (indet.) Indusiisporites parvt'saccaius Leiotriletes directus Lycopodiumsporites austroclavatidites Lycopodiumsporites rosewoodensis Osmundacidites s p p . Perinopollenites elatoides Podocarpidites sp. Trisaccites variabilis Vitreisporites pallidus Zonalapollenites dampieri Zonalapollenites segmentatus Disaccites (indet.) Leiosphaeridia s p . A c r i t a r c h (Micrhystridium sp.)
4 3.0% 2,5 % 11.5% 0.5 % 46.5% 18.0% 1.0 % 4.5 % 4H1.5 % 15.0 % 0.5% 0.5 % 0.5 % 0,5 % 1.5 % 25.0% 7.0% 0.5%
159ft., 9 i n .
Grey c a r b . m u d s t o n e
C o u n t 200 —
/(I isporites lo wooden s i s Anapiculatisporites dawsonensls Annulispora follieulosa Araucariacites fissus Araucariacites s p p , (indet.) SOCJI latisporites
comaun let is is
Classopollis classoides Contignisporites s p . Cycadopites nitidus Dictyophyllidites mortoni Duplexisporites problematicus Inaperturopollenites turbatus Inaperturopollenites s p p . (indet.) / H(/W,( iisporites parvisaccalus Leiotriletes directus Lycopodiumsporites austroclavatidites Lycopodiumsporites rose* -ooclet is is Nevesisporites vallalus Osmundacidites s p p . Pei inopollenlles elatoides Podocarpidites s p , Staplinisporites can linus Trilobosporites antiquus Trisaccites variabilis Trisaccites s p . (indet.) Vitreisporites pallidus Zonalapolten ites dampier i Zonalapollenites segmental us Zonalapollenites cf. segmentatus Zonalapollenites triloba!us Disaccites ( i n d e t . ) Acritarcha: Baltisphaerldium s p p . , Micrhystridium Veryhachium s p . Leiosphaeridia s p .
89ft., 5in.
Grey c a r b , m u d s t o n e
C o u n t 200->-
Anapicidatisporites dawsonensis Apiculatisporis s p . (indet.) Araucariacites fissus Araucariacites s p p . (indet.) Baculatisporites comaumensis Classopollis classoides Conbaculaiisporites sp. Contignisporites s p . Cycadopites nitidus Did yophyl lidites morion! Gleichen iidiles s enom'cus Inaperturopollenites turbatus Inaperturopollenites s p p . (indet.) Indusiisporites par visaccatus Ischyosporites marburgensis Leiotriletes directus Lycopodiumsporiies austroclavatidites Lycopodiumsporites rose woodensis Lycopodiumsporiies s p . (indet.) Osmundacidites s p p . Perinopolleniles elatoides Podocarpidites s p . Polyciltgulaiisporites densatus Polycingulatisporites mooniensis Stereisporites s p . Trilobosporites antiquus Trisaccites variabilis Trisaccites s p . (indet.) Vilreisporites pallidus Zonalapollenites dampieri Zonalapollenites segmentatus Disaccites (indet.) Acritarcha: Micrhystridium s p . Leiosphaeridia s p .
spp
48
EARLY JURASSIC MIOSPORES FROM THE HELIDON SANDSTONE G.S.Q. I P S W I C H 9 RACEVIEW
FORMATION
946ft.. 4 h .
Grey carb. mudstone
Count 2 0 0 -
Anmtlispora follictihsa Annulispora microannulata Apiculatisporis spp. Camurozonosporites rutlis Camerosporites clarkei cf. Cingutriletes s p . Conaletes s p p . Conbaculaiisporites sp. Craterisporites rotundas Dictyophyllidites mortoni Duplexisporites problematicus Foveosporites s p p . Granulatisporites sp. Inaperturopolleniies spp. Leiotriletes directus Lycopodiumsporites rosewoodensis Neoraistrickia sp. Osmundacidites spp. Perolriletes s p . Polypodiisporiles ipsviciensis Pustulatisporites blackstonensis Semi reti spoils antiquus Stereisporites sp. (indet.) Verrttcosisporites spp. Disaccites (indet.)
I °' 2 \ 2% •+1 %' I ";, 3"I I % 1% 2 % 33 % 3 1 "/„ 2?'„ 11 %' 1% I "„ 9"; — 12?,', 1% 5" 2"„ 41;, I 0
n
roveosporites sp. Granulatisporites sp. Inaperturopollenites s p p . (indet.) Leiotriletes directus Neoraistrickia cf. laytotii Osmundacidites sp. Polycingulatisporites crenulalus Polycingulatisporites s p . (indet.) Polypodiisporiles ipsviciensis Punetaiisporites spp. 5e; »j'r/ isporis am iquus Stereisporites sp. Verrucosisporites spp. Disaccites (indet.)
878ft., 3 i n .
D a r k grey c a r b . s h a l e
C o u n t 200
Anapiculatisporites pris tidenralus Annulispora microannulata Apiculatisporis cf. globosus Conaletes sp, Cycadopiles nitidus Cycadopites sp. (indet.) Duplexisporites problematicus Inaperturopollenites s p p . (indet.) 10/ ri/efc.v directus Poiycingulutisporties crenulalus Policingnlatisporites densatus Polypodiisporiles ipsviciensis Stereisporites sp. (indet.) Vilreisporites pallidus Disaccites (indet.)
939ft., Sin.
Grey mudstone
824ft.. 6 i n .
C o u n t 100 •
Anapiculatispoi ites prislidenlalus Auapiculattsporties cf. prislidenlalus Anapiculaltsporites i p . (indet.) .4n»jii/i»/H7RN follitulosa Apiculatisporis sp. CamcrnspOrites clarkei cf. Cingutriletes s p . Cra/t'iisporites rotundas Cycadopnei nitidus Dictyophyllidites mortoni Duplexisporites problematicus Foveosporites spp. Granulatisporites sp,
Leiotriletes directus
4"„ I% I ",', 3"-,, 1 ''-'„ I — 4% 2"„ 6% 22 \ 3";, 1 "„
\4°
Lycopodiumsporites rosewoodensis Ncoraisl'tckiu sp Osmuudacidiies sp|i. Pohcingulatisporites crenulalus Polvcingiilati'poritCi densalas Polveingulaiispoi ites mooniensis Polvpndiispornes ipsviciensis Pustulatisporites blacks ton ensis Semireii'porii antiquus Stereisporites anlk/uasporiles Stereispo'ites sp. (indet.) D i s a c c i t e i (indet.)
+ 1 "J 8°N l"N l I 6' % u
2"'„ I 8% 8"I
926ft., W n .
D a r k grey s h a l e
C o u n t 100 +
.4 IIU/i ira/all spot ites p rist idem at us Annulispora microannulata Apiculatisporis globosus Araucariacites s p p . (indet.) Baculatisporites comaumensis Chordasporites austraiiensis Conaletes s p p . Converrucosisporites sp. Densosporites raceviewensis
+ I% I %' I% + 2?; I "I I %
0
Grey mudstone
C o u n t 200
Annulispora folliculosa Apiculalisporis globosus Apiculatisporis sp. (indet.) Conaletes sp, Cycadopiles granulatus Cycadopites nitidus Cycadopiles sp. (indet.) Cycadopites cf. potoniei Densosporites race vie wens is Dictyopiiy IIidiles mortoni Duplexisporites problematicus Inaperturopollenites s p p . (indet.) Leiotriletes direct us Osmundacidites sp. Polycingulatisporites crenulalus Polypodiisporiles ipsviciensis Verrucosisporites sp. Disaccites (indet.)
797ft., 4 i n .
Black m u d s t o n e
C o u n t 200
cf. Apiculatisporis sp. Con verrucosisporites sp. Cycadopiles nitidus Did yophyl Iidiles mortoni Duplexisporites problematicus Granulatisporites sp. Inaperturopollenites s p p . (indet.) Leiotriletes directus Osmundacidites spp. Polycingulatisporites moon iens is Punclalisporites sp. cf. Slenozonotrileles sp. Stereisporites sp. Verrucosisporites sp. Disaccites (indet.)
49
EARLY JURASSIC MIOSPORES FROM THE HELIDON SANDSTONE 743ft., 3 i n .
D a r k g r e y shale
Count 2004
Annulispora microannulata Apkulatisporis sp. Aratrisporites cf. scabralus Araucariaciies s p p . (indet.) Conaleles s p p . Converrucosisporiies spp. Cycadopiies niiidus Diclyopliyllidites mortoni Dupiexisporites problemalicus Foveosporiies s p . Granulaiisporites spp. inaperiuropoilenites s p p . (indet.) Indusiisporiies s p . Leiotriietes direclus Lopholrileies aff. bauhiniae Lycopodiumsporites cf. ausiroclavatidiies Lycopodiumsporites rose woodensis Osmundacidites s p p . Polycingulalliporiles crenulalus Polycingulatisporites densatus Polycingulatisporites mooniensis Polycingulatisporites sp, (indet.) Siereisporites anliquasporites Siereisporites s p . (indet.) Vitreisporites pal/idus Disaccites (indet.) HELIDON
+ 0.5% 41.5% 3.5% 1.5% 9.5% 4.0% 1.0% 0.5% 2.0% 3.5% 0.5% 11.5% 4445.5% 41-5% 1.0% 1.0% 0.5% 8.5% 0.5% 42,0%
A napiculatisporites prist idenlatus Annulispora foiliculosa Aniulsporiies varigranulalus Cadargasporites bacuiatus Cadargasporites reliculalus Ceraiosporites helidonensis Cerebropoileniies Cf, thiergariii Classopollis classoides Conaleles s p p . Cycadopiies niiidus Dupiexisporites problemai icus Foveosporiies s p . Gliscopollis meyeriana Inaperturopollenites s p p . (indet.) Leiotriietes directus Lopholrileies s p . Lycopodiumsporites austrocla vat id it es Lycopodiumsporites rose woodensis Lycopodiumsporites semimuris Neoraistrickia elongata Osmundacidites s p p . Perinopollen'tles elatoides Polycingulatisporites densatus Polycingulatisporites mooniensis Punclaiisporites sp. Siereisporites s p p . (indet.) Vitreisporites pallidus Disaccites (indet.) Clavatriletes cf. hammenii ( ? r e w o r k e d !
4-!-
-r 440.5% 439.5% 2.5% 2.0% 40.5% 0.5% 10.0% 2.0% 0.5% 40.5% 41.0% 12.5% 10.0%
+
40.5% 2.0% 4.5% 10.5% f
SANDSTONE
696ft., S i n .
MARBURG G r e y shale
C o u n t 2004-
Alisporites lowoodensis Apkulatisporis globosus Apkulatisporis s p p . (indet.) Araucariaciies s p p . (indet.) Classopollis classoides Cotialetes s p p . Diclyopliyllidites n tor torn' Discisporites psilatus Fo veosporiles moretonensis Foveosporiies s p . (indet.) Granulatisporiles spp. Inaperiuropoilenites s p p , (indet.) Leiolrileles directus Leiotriietes s p . (indet.) Lycopodiumsporites austroclavaiidites Lycopodiumsporites rosewoodensis Lycopodiumsporites sen limuris Lycopodiumsporites sp, (indet.) Osmundacidites s p p . Perinopollenites elatoides Plaiysaccus queenslandi Polycingulatisporites moon iensis Siereisporites anliquasporites Siereisporites s p . (indet.) Vitreisporites pallidus Disaccites (indet.)
74ft., 7 i n .
40,5% 1.0% 1.0% 46.0% 1.5%
+
40.5% 1.5°-; 3.5% 1.0% 0-5%
+
1.0% 42.5% 2.0% 1.0%
+
0.5% 40.5% 36.5% 39.0%
612ft., 7in. Grey mudstone
C o u n t 2004-
Alisporites lowoodensis Anapiculatisporites dawsonensis
FORMATION
0.5 % +
Light grey siltstone
C o u n t 2004-
A lisporiles lo woodensis Anapiculatisporiles dawsonensis Annulispora foiliculosa Annulispora microannulata Aniulsporiies varigranulalus Araucariaciies s p p . (indet.) Cadargasporites baculaius Cadcngasporiies reliculalus Clas sopo/lis classoides Classopollis simplex Conaleles s p p . Conbaculatisporiles sp. Cycadopiies niiidus Dictyophyl 1idiles mortoni Gliscopollis meyeriana Inaperturopollenites s p p . (indet.) Ischyosporites marburgensis Leiotriietes direclus Lopholrileies s p . Lycopodiumsporites austroclavatidites Lycopodiumsporites rose woodensis Lycopodiumsporites semimuris Osmundacidites s p p . Perinopollenites elatoides Siereisporites perforatus Siereisporites s p . (indet.) Verrucosisporites s p . Vitreisporites pallidus Disaccites (indet.) Parasaccites s p . ( r e w o r k e d ) Semiretisporis denmeadi (reworked)
i
40.5% 440.5% 4-i64.5% 0.5% 2.0% 1.0% 1.0% 0.5% 0,5% 3.0% 0.5% 2.0% 1.0% 0.5% 444.0% 6.0% 41.0% 0.5% 1.5% 9.0% 44-