sameAs
Pliocene reversal of late Neogene aridificationGenetic differentiation in spite of high gene flow in the dominant rainforest tree of southeastern Australia, Nothofagus cunninghamiiEnvironmental adaptation in stomatal size independent of the effects of genome sizeConifer species adapt to low-rainfall climates by following one of two divergent pathwaysFossil evidence for a hyperdiverse sclerophyll flora under a non-Mediterranean-type climateLow but structured chloroplast diversity in Atherosperma moschatum (Atherospermataceae) suggests bottlenecks in response to the Pleistocene glacialsGlacial refugia and reticulate evolution: the case of the Tasmanian eucalyptsThe Phylogenetic Affinities of Nothofagus (Nothofagaceae) Leaf Fossils based on Combined Molecular and Morphological Data.Linking changes in community composition and function under climate change.Leaf maximum photosynthetic rate and venation are linked by hydraulics.Sensitivity of leaf size and shape to climate: global patterns and paleoclimatic applications.Fossil Ericaceae from New Zealand: Deconstructing the use of fossil evidence in historical biogeography.Leaf fossils of Banksia (Proteaceae) from New Zealand: An Australian abroad.Seed ferns survived the end-Cretaceous mass extinction in Tasmania.Testing the impact of calibration on molecular divergence times using a fossil-rich group: the case of Nothofagus (Fagales).Giant cuticular pores in Eidothea zoexylocarya (Proteaceae) leaves.The major Australian cool temperate rainforest tree Nothofagus cunninghamii withstood Pleistocene glacial aridity within multiple regions: evidence from the chloroplast.Early evidence of xeromorphy in angiosperms: stomatal encryption in a new eocene species of Banksia (Proteaceae) from Western Australia.Fossil evidence for open, Proteaceae-dominated heathlands and fire in the Late Cretaceous of Australia.Transient hybridization, not homoploid hybrid speciation, between ancient and deeply divergent conifers.Gondwanan conifer clones imperilled by bushfireTwo fossil species of Metrosideros (Myrtaceae) from the Oligo-Miocene Golden Fleece locality in Tasmania, Australia.A critical framework for the assessment of biological palaeoproxies: predicting past climate and levels of atmospheric CO(2) from fossil leaves.Leaf hydraulic vulnerability influences species' bioclimatic limits in a diverse group of woody angiosperms.Leaf hydraulic vulnerability is related to conduit dimensions and drought resistance across a diverse range of woody angiosperms.Leaf hydraulics and drought stress: response, recovery and survivorship in four woody temperate plant species.Internal coordination between hydraulics and stomatal control in leaves.Paleo-Antarctic rainforest into the modern Old World tropics: the rich past and threatened future of the "southern wet forest survivors".Climate drives vein anatomy in Proteaceae.Augmentation of abscisic acid (ABA) levels by drought does not induce short-term stomatal sensitivity to CO2 in two divergent conifer species.Phylogenetic biome conservatism on a global scale.Ferns are less dependent on passive dilution by cell expansion to coordinate leaf vein and stomatal spacing than angiosperms.Unified changes in cell size permit coordinated leaf evolution.Acclimation to humidity modifies the link between leaf size and the density of veins and stomata.The evolutionary relations of sunken, covered, and encrypted stomata to dry habitats in Proteaceae.Habitat type and dispersal mode underlie the capacity for plant migration across an intermittent seaway.Cell expansion not cell differentiation predominantly co-ordinates veins and stomata within and among herbs and woody angiosperms grown under sun and shade.Is there a 'suboptimal' woody species height? A response to Scheffer et al.Chloroplast evidence for geographic stasis of the Australian bird-dispersed shrub Tasmannia lanceolata (Winteraceae).Giant eucalypts - globally unique fire-adapted rain-forest trees?
P50
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P50
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Gregory J. Jordan
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