A new mid-latitude terrestrial climate proxy record is presented for southeastern Australia. The Middle Eocene to Middle Miocene palynofloral and δ13C record of the Latrobe Group, Gippsland Basin, details that the climate of southeastern Australia, paleolatitude 60–50°S, supported the growth of highly diverse subtropical to cool-temperate rainforests. These forests are characterized by mesothermal to microthermal floral elements that are here interpreted as subtropical (Malvacipollis subtilis and Cupanieidites orthoteichus dominated palynofloras), warm-temperate (Beaupreadites elegansiformis and Phyllocladus mawsonii dominated palynofloras) and cool-temperate (Nothofagus spp. and Dacrycarpidites australiensis dominated palynofloras) rainfor...
Australia's Gippsland Basin contains a semi-continuous Eocene-Oligocene (41.5–28.4 Ma) near-coastal ...
While many palaeoclimate studies have focussed on the Eocene-Oligocene transition (EOT), little is k...
Terrestrial climate and ecosystem evolution during ‘Greenhouse Earth’ phases of the early Paleogene ...
We present a composite terrestrial pollen record of latest Eocene through Oligocene (35.5–23 Ma) veg...
Early Paleogene southern Australia, which comprises the north shore of the Australo- Antarctic Gulf,...
In this study, data from fossil macrofloras and microfloras in southeastern Australia are used to re...
© 2018 Dr. Vera Alexandra KorasidisThe brown coals of the Latrobe Group, Gippsland Basin, Australia,...
Current knowledge of terrestrial ecosystem response to the Paleocene-Eocene Thermal Maximum (PETM; c...
During the early to middle Eocene, a mid-to-high latitudinal position and enhanced hydrological cycl...
The Australian Tertiary plant fossil record documents rainforests of a tropical to temperate charact...
Considered one of the most significant climate reorganizations of the Cenozoic period, the Eocene-Ol...
Well preserved spores and pollen from a number of middle Oligocene sedimentary formations in the mid...
Reconstructing the early Palaeogene climate dynamicsof terrestrial settings in the high southern lat...
A worldwide greenhouse warm climate prevailed in the Early Eocene, and nowhere was warming more dram...
Reconstructing the early Paleogene climate dynamics of terrestrial settings in the high southern lat...
Australia's Gippsland Basin contains a semi-continuous Eocene-Oligocene (41.5–28.4 Ma) near-coastal ...
While many palaeoclimate studies have focussed on the Eocene-Oligocene transition (EOT), little is k...
Terrestrial climate and ecosystem evolution during ‘Greenhouse Earth’ phases of the early Paleogene ...
We present a composite terrestrial pollen record of latest Eocene through Oligocene (35.5–23 Ma) veg...
Early Paleogene southern Australia, which comprises the north shore of the Australo- Antarctic Gulf,...
In this study, data from fossil macrofloras and microfloras in southeastern Australia are used to re...
© 2018 Dr. Vera Alexandra KorasidisThe brown coals of the Latrobe Group, Gippsland Basin, Australia,...
Current knowledge of terrestrial ecosystem response to the Paleocene-Eocene Thermal Maximum (PETM; c...
During the early to middle Eocene, a mid-to-high latitudinal position and enhanced hydrological cycl...
The Australian Tertiary plant fossil record documents rainforests of a tropical to temperate charact...
Considered one of the most significant climate reorganizations of the Cenozoic period, the Eocene-Ol...
Well preserved spores and pollen from a number of middle Oligocene sedimentary formations in the mid...
Reconstructing the early Palaeogene climate dynamicsof terrestrial settings in the high southern lat...
A worldwide greenhouse warm climate prevailed in the Early Eocene, and nowhere was warming more dram...
Reconstructing the early Paleogene climate dynamics of terrestrial settings in the high southern lat...
Australia's Gippsland Basin contains a semi-continuous Eocene-Oligocene (41.5–28.4 Ma) near-coastal ...
While many palaeoclimate studies have focussed on the Eocene-Oligocene transition (EOT), little is k...
Terrestrial climate and ecosystem evolution during ‘Greenhouse Earth’ phases of the early Paleogene ...