Book contents
- Frontmatter
- Contents
- List of contributors
- Preface
- 1 Introduction
- 2 The Cretaceous world
- 3 The Cenozoic world
- 4 Calcareous nannoplankton and global climate change
- 5 Phenotypic response of foraminifera to episodes of global environmental change
- 6 The response of planktonic foraminifera to the Late Pliocene intensification of Northern Hemisphere glaciation
- 7 The response of Cretaceous cephalopods to global change
- 8 Global change and the fossil fish record: the relevance of systematics
- 9 Response of shallow water foraminiferal palaeocommunities to global and regional environmental change
- 10 Intrinsic and extrinsic controls on the diversification of the Bivalvia
- 11 Global events and biotic interaction as controls on the evolution of gastropods
- 12 Algal symbiosis, and the collapse and recovery of reef communities: Lazarus corals across the K–T boundary
- 13 Changes in the diversity, taxic composition and life-history patterns of echinoids over the past 145 million years
- 14 Origin of the modern bryozoan fauna
- 15 Angiosperm diversification and Cretaceous environmental change
- 16 Cenozoic evolution of modern plant communities and vegetation
- 17 Leaf physiognomy and climate change
- 18 Biotic response to Late Quaternary global change – the pollen record: a case study from the Upper Thames Valley, England
- 19 The Cretaceous and Cenozoic record of insects (Hexapoda) with regard to global change
- 20 The palaeoclimatological significance of Late Cenozoic Coleoptera: familiar species in very unfamiliar circumstances
- 21 Amphibians, reptiles and birds: a biogeographical review
- 22 Paleogene mammals: crises and ecological change
- 23 Response of Old World terrestrial vertebrate biotas to Neogene climate change
- 24 Mammalian response to global change in the later Quaternary of the British Isles
- 25 Human evolution: how an African primate became global
- 26 The biotic response to global change: a summary
- References
- Index
16 - Cenozoic evolution of modern plant communities and vegetation
Published online by Cambridge University Press: 14 August 2009
- Frontmatter
- Contents
- List of contributors
- Preface
- 1 Introduction
- 2 The Cretaceous world
- 3 The Cenozoic world
- 4 Calcareous nannoplankton and global climate change
- 5 Phenotypic response of foraminifera to episodes of global environmental change
- 6 The response of planktonic foraminifera to the Late Pliocene intensification of Northern Hemisphere glaciation
- 7 The response of Cretaceous cephalopods to global change
- 8 Global change and the fossil fish record: the relevance of systematics
- 9 Response of shallow water foraminiferal palaeocommunities to global and regional environmental change
- 10 Intrinsic and extrinsic controls on the diversification of the Bivalvia
- 11 Global events and biotic interaction as controls on the evolution of gastropods
- 12 Algal symbiosis, and the collapse and recovery of reef communities: Lazarus corals across the K–T boundary
- 13 Changes in the diversity, taxic composition and life-history patterns of echinoids over the past 145 million years
- 14 Origin of the modern bryozoan fauna
- 15 Angiosperm diversification and Cretaceous environmental change
- 16 Cenozoic evolution of modern plant communities and vegetation
- 17 Leaf physiognomy and climate change
- 18 Biotic response to Late Quaternary global change – the pollen record: a case study from the Upper Thames Valley, England
- 19 The Cretaceous and Cenozoic record of insects (Hexapoda) with regard to global change
- 20 The palaeoclimatological significance of Late Cenozoic Coleoptera: familiar species in very unfamiliar circumstances
- 21 Amphibians, reptiles and birds: a biogeographical review
- 22 Paleogene mammals: crises and ecological change
- 23 Response of Old World terrestrial vertebrate biotas to Neogene climate change
- 24 Mammalian response to global change in the later Quaternary of the British Isles
- 25 Human evolution: how an African primate became global
- 26 The biotic response to global change: a summary
- References
- Index
Summary
INTRODUCTION
In the Cenozoic, the modernization and continued diversification of flowering plants (Figs. 16.1 and 16.2) was one of the major controls on global change in land biomes. Therefore, it is necessary to understand how this group of plants differed from those which had dominated previous vegetation and hence the impacts which these differences might have had on community evolution and on our ability to relate this to physical global change. In addition, if the evolution of modern vegetation is to be considered, it is necessary to establish how the record of plant fossils can be used to reconstruct ancient communities and to compare them with those existing today.
This chapter considers the nature and application of the plant fossil record, reviews the plant groups which typify latest Cretaceous and Cenozoic floras, addresses the significance of flowering plants and documents the changing distributions of selected dominant plants in response to global change through the Cenozoic. An interpretation of plant communities and their response to global change uses examples of reconstructed communities at their maximum poleward extent during the Eocene thermal maximum. Patterns of community change and species diversity are documented through the Cenozoic.
NATURE AND APPLICATION OF THE PLANT FOSSIL RECORD
Partially complete ‘whole’ plants can be reconstructed from plant fossils.
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- Information
- Biotic Response to Global ChangeThe Last 145 Million Years, pp. 223 - 243Publisher: Cambridge University PressPrint publication year: 2000
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