OFR 151.pdf - CRC LEME
OFR 151.pdf - CRC LEME OFR 151.pdf - CRC LEME
Ashley, P.M., Duncan, R.A. and Feebrey, C.A., 1995. Ebor Volcano and Crescent complex, northeastern New South Wales: age and geological development. Australian Journal of Earth Sciences 42: 471-480. Axelrod, D.I., 1984. An interpretation of Cretaceous and Tertiary biota in polar regions. Palaeogeography, Palaeoclimatology, Palaeoecology 45: 105-147. Backhouse, J., 1978. Palynology of two bores on Lake Dundas. Geological Survey of Western Australia Palaeontology Report 1978/7 (unpublished). Backhouse, J., 1981. Palynology of Sir James Mitchell Park 2A. Geological Survey of Western Australia Palaeontology Report 1981/39 (unpublished). Backhouse, J., 1986. Palynology of Ponton Creek 2, Officer Basin. Geological Survey of Western Australia Palaeontology Report 1986/289 (unpublished). Backhouse, J., 1988. Late Jurassic and Early Cretaceous palynology of the Perth Basin, Western Australia. Geological Survey of Western Australia Bulletin 135: 233. Backhouse, J., 1989. Palynology of boreholes in the Norseman area – Federation site. Geological Survey of Western Australia Palaeontology Report 1989/22 (unpublished). Baillie, P. and Pickering, R., 1991. Tectonic evolution of the Durroon Basin, Tasmania. Exploration Geophysics 22: 13-18. Bain, J.H.C. and Draper, J.J. (Editors), 1997. North Queensland Geology. AGSO Bulletin 240/Queensland Geology 9: 1-95. Balme, B.E., 1964. The palynological record of Australian pre-Tertiary floras. In: L.M. Cranwell (Editor), Ancient Pacific Floras. University of Hawaii Press, Honolulu, pp. 48-80. Balme, B.E. and Churchill D.M., 1959. Tertiary sediments at Coolgardie, Western Australia. Journal of the Royal Society of Western Australia 42: 37-43. Barlow, B., 1981. The Australian flora: its origin and evolution. In: George, A.S. (Editor), Flora of Australia Volume 1 (1 st edition), Australian Government Printing Service, Canberra, pp. 25-75. Barnes, R.W. and Hill, R.S., 1999a. Ceratopetalum fruits from Australian Cainozoic sediments and their significance for petal evolution in the genus. Australian Systematic 12: 635-645. Barnes, R.W. and Hill, R.S., 1999b. Macrofossils of Callicoma and Codia (Cunoniaceae) from Australian Cainozoic sediments. Australian Systematic Botany 12: 647-670. Barnes, R.W. and Jordan, G.J., 2000. Eucryphia (Cunoniaceae) reproductive and leaf macrofossils from Australian Cainozoic sediments. Australian Systematic Botany 13: 373-394. Barrera, E., 1994. Global environmental changes preceding the Cretaceous-Tertiary boundary: early-late Maastrichtian transition. Geology 22: 877-880. Barrera, E. and Keller, G., 1994. Productivity across the Cretaceous/Tertiary boundary in high latitudes. Geological Society of America Bulletin 106: 1254-1266. Barrera, E., Savin, S.M., Thomas, E. and Jones, C.E., 1997. Evidence for thermohalinecirculation reversals controlled by sea-level change in the latest Cretaceous. Geology 25: 715-718. Barrett, D.J. and Christophel, D.C., 1990. The spatial and temporal component of two Australian Tertiary plant megafossil deposits. In: J. Douglas (Editor), Proceedings of the Third IOP Conference. Melbourne, pp. 43-49. 125
Barron, E.J., 1985. Explanations of the Tertiary global cooling trend. Palaeogeography, Palaeoclimatology, Palaeoecology 50: 45-61. Barron, E.J. and Peterson, W.H., 1991. The Cenozoic ocean circulation based on ocean General Circulation Model results. Palaeogeography, Palaeoclimatology, Palaeoecology 83: 1-28. Barron, E.J. and Washington, W.M., 1982. Atmospheric circulation during warm geologic periods: is the equator-to-pole surface-temperature gradient the controlling factor? Geology 10: 633-636. Barron, E.J., Fawcett, P.J., Peterson, W.H., Pollard, D. and Thompson, S.L., 1995. A “simulation” of mid-Cretaceous climate. Paleoceanography 10: 953-962. Barron, J.A., 1996. Diatom constraints on the position of the Antarctic Polar Front in the middle part of the Pliocene. Marine Micropaleontology 27: 195-213. Batten, D.J., 1984. Palynology, climate and the development of Late Cretaceous floral provinces in the Northern Hemisphere: a review. In: P. Brenchley (Editor), Fossils and Climate. Wiley, New York, pp. 127-164. Bawa, K.S., 1995. Pollination, seed dispersal and diversification of angiosperms. Trends in Ecology and Evolution 10: 311-312. Beard, J.S., 1990. Plant Life of Western Australia. Kangaroo Press, Sydney. 319 pp. Beck, R.A., Burbank, D.W., Sercombe, W.J., Olson, T.L. and Khan, A.M., 1995. Organic carbon exhumation and global warming during the early Himalayan collision. Geology 23: 387-390. Beeston, J.W., 1994. Tertiary palynology in the Mount Coolon and Riverside areas. Queensland Geology 6: 127-179. Benbow, M.C., Alley, N.F., Callen, R.A. and Greenwood, D.R., 1995. Geological history and palaeoclimate. In: J.F. Drexel and W.V. Preiss (Editors), The Geology of South Australia 2: Phanerozoic. Department of Mines and Energy, Adelaide, pp. 208-209. Bernabo, J.C. and Webb, T., 1977. Changing patterns in the Holocene pollen record of northeastern North America: a mapped summary. Quaternary Research 8: 64-96. Berner, R.A., 1990. Atmospheric carbon dioxide levels over Phanerozoic time. Science 249: 1382-1386. Bigwood, A.J. and Hill, R.S., 1985. Tertiary Araucarian macrofossils from Tasmania. Australian Journal of Botany 33: 645-656. Billups, K., Ravelo, A.C. and Zachos, J.C., 1998. Early Pliocene deep water circulation in the western equatorial Atlantic: implications for high-latitude climate change. Paleoceanography 13: 84-95. Bint, A.N., 1981. An Early Pliocene pollen assemblage from Lake Tay, south-western Australia and its phytogeographic implications. Australian Journal of Botany 29: 277- 291. Bird, M.I. and Chivas, A.R., 1993. Geomorphic and palaeoclimatic implications of an oxygen-isotope chronology for Australian deeply weathered profiles. Australian Journal of Earth Sciences 40: 345-358. Birks, H.J.B. and Saarnisto, M., 1975. Isopollen maps and principal components analysis of Finnish pollen data for 4000, 6000 and 8000 years ago. Boreas 4: 77-96. Birks, H.J.B. and Birks, H.H., 1980. Quaternary Palaeoecology. Edward Arnold, London. 289 pp. 126
- Page 76 and 77: Palaeo-southern Australia Dryland c
- Page 78 and 79: 6.7 Time Slice K-6. Late Campanian-
- Page 80 and 81: 7.1. Global backdrop SECTION 7 (TER
- Page 82 and 83: Explanations for the PETM are centr
- Page 84 and 85: East Antarctica and strengthening o
- Page 86 and 87: amplifying, pacing and potentially
- Page 88 and 89: southeastern Australia than elsewhe
- Page 90 and 91: 7.4 Time Slice T-1. Paleocene [65-5
- Page 92 and 93: Palaeo-southern Australia Unlike no
- Page 94 and 95: Palaeo-central Australia As for the
- Page 96 and 97: 7.6.2 Palaeobotany The palaeobotani
- Page 98 and 99: Zone microfloras imply temporary wa
- Page 100 and 101: in the Bass Basin, the basal Seaspr
- Page 102 and 103: Similarly it is difficult to summar
- Page 104 and 105: However, the data are emphatic that
- Page 106 and 107: margin of plateau were cooler (~7 0
- Page 108 and 109: fossil taxa that are morphologicall
- Page 110 and 111: during Late Pleistocene glacial max
- Page 112 and 113: SECTION 8 (CONCLUSIONS) Climatic in
- Page 114 and 115: • On present indications, Early C
- Page 116 and 117: TABLE 8a: INFERRED CRETACEOUS PALAE
- Page 118 and 119: 8.2 Results in prospect (recommenda
- Page 120 and 121: The 10 μm sieved, oxidised extract
- Page 122 and 123: phenology. The method also provides
- Page 124 and 125: SECTION 9 (REFERENCES) Acton, G.D.
- Page 128 and 129: Birks, H.J.B. and Gordon, A.D., 198
- Page 130 and 131: Burnham, R.J., 1989. Relationships
- Page 132 and 133: Clarke, J.D.A., 1994. Evolution of
- Page 134 and 135: Dettmann, M.E. and Playford, G., 19
- Page 136 and 137: Evans, P.R., 1970b. Palynology of H
- Page 138 and 139: Godthelp, H., Archer, M., Cifelli,
- Page 140 and 141: Harris, W.K., 1974. Biostratigraphy
- Page 142 and 143: Hill, R.S., 1994b. Nothofagus smith
- Page 144 and 145: Holland, S.M. and Patzkowsky, M.E.,
- Page 146 and 147: Australia: paleoceanographic implic
- Page 148 and 149: Lindsay, J.M. and Harris, W.K., 196
- Page 150 and 151: Macphail, M.K., Colhoun, E.A. and F
- Page 152 and 153: McGowran, B. and Beecroft, A., 1985
- Page 154 and 155: Morgan, R., 1977. Palynology of Ter
- Page 156 and 157: Abstracts of the Annual General Mee
- Page 158 and 159: Raymo, M.E., Grant, B., Horowitz, M
- Page 160 and 161: Sereno, P.C., 1999. The evolution o
- Page 162 and 163: Taylor, G., 1998. Prediction of mod
- Page 164 and 165: Webb, L.G., 1968. Environmental rel
- Page 166 and 167: Zachos, J.C., Stott, L.D. and Lohma
- Page 168 and 169: APPENDIX 1 CRETACEOUS DATA 167
- Page 170 and 171: 1. TIME SLICE K-1 Age Range: Berria
- Page 172 and 173: Australian assemblages, located on
- Page 174 and 175: 2. Officer Basin Dinoflagellates in
Barron, E.J., 1985. Explanations of the Tertiary global cooling trend. Palaeogeography,<br />
Palaeoclimatology, Palaeoecology 50: 45-61.<br />
Barron, E.J. and Peterson, W.H., 1991. The Cenozoic ocean circulation based on ocean<br />
General Circulation Model results. Palaeogeography, Palaeoclimatology,<br />
Palaeoecology 83: 1-28.<br />
Barron, E.J. and Washington, W.M., 1982. Atmospheric circulation during warm geologic<br />
periods: is the equator-to-pole surface-temperature gradient the controlling factor?<br />
Geology 10: 633-636.<br />
Barron, E.J., Fawcett, P.J., Peterson, W.H., Pollard, D. and Thompson, S.L., 1995. A<br />
“simulation” of mid-Cretaceous climate. Paleoceanography 10: 953-962.<br />
Barron, J.A., 1996. Diatom constraints on the position of the Antarctic Polar Front in the<br />
middle part of the Pliocene. Marine Micropaleontology 27: 195-213.<br />
Batten, D.J., 1984. Palynology, climate and the development of Late Cretaceous floral<br />
provinces in the Northern Hemisphere: a review. In: P. Brenchley (Editor), Fossils<br />
and Climate. Wiley, New York, pp. 127-164.<br />
Bawa, K.S., 1995. Pollination, seed dispersal and diversification of angiosperms. Trends in<br />
Ecology and Evolution 10: 311-312.<br />
Beard, J.S., 1990. Plant Life of Western Australia. Kangaroo Press, Sydney. 319 pp.<br />
Beck, R.A., Burbank, D.W., Sercombe, W.J., Olson, T.L. and Khan, A.M., 1995. Organic<br />
carbon exhumation and global warming during the early Himalayan collision.<br />
Geology 23: 387-390.<br />
Beeston, J.W., 1994. Tertiary palynology in the Mount Coolon and Riverside areas.<br />
Queensland Geology 6: 127-179.<br />
Benbow, M.C., Alley, N.F., Callen, R.A. and Greenwood, D.R., 1995. Geological history and<br />
palaeoclimate. In: J.F. Drexel and W.V. Preiss (Editors), The Geology of South<br />
Australia 2: Phanerozoic. Department of Mines and Energy, Adelaide, pp. 208-209.<br />
Bernabo, J.C. and Webb, T., 1977. Changing patterns in the Holocene pollen record of<br />
northeastern North America: a mapped summary. Quaternary Research 8: 64-96.<br />
Berner, R.A., 1990. Atmospheric carbon dioxide levels over Phanerozoic time. Science 249:<br />
1382-1386.<br />
Bigwood, A.J. and Hill, R.S., 1985. Tertiary Araucarian macrofossils from Tasmania.<br />
Australian Journal of Botany 33: 645-656.<br />
Billups, K., Ravelo, A.C. and Zachos, J.C., 1998. Early Pliocene deep water circulation in the<br />
western equatorial Atlantic: implications for high-latitude climate change.<br />
Paleoceanography 13: 84-95.<br />
Bint, A.N., 1981. An Early Pliocene pollen assemblage from Lake Tay, south-western<br />
Australia and its phytogeographic implications. Australian Journal of Botany 29: 277-<br />
291.<br />
Bird, M.I. and Chivas, A.R., 1993. Geomorphic and palaeoclimatic implications of an<br />
oxygen-isotope chronology for Australian deeply weathered profiles. Australian<br />
Journal of Earth Sciences 40: 345-358.<br />
Birks, H.J.B. and Saarnisto, M., 1975. Isopollen maps and principal components analysis of<br />
Finnish pollen data for 4000, 6000 and 8000 years ago. Boreas 4: 77-96.<br />
Birks, H.J.B. and Birks, H.H., 1980. Quaternary Palaeoecology. Edward Arnold, London. 289<br />
pp.<br />
126