Plankton evolution and the Paleogene/Neogene transition

This thesis documents calcareous nannoplankton diversity, population dynamics and community structure from the early Oligocene through early Miocene, across the significant Warmhouse to Coolhouse transitional interval in Earth history when ice sheets were first established on Antarctica, using secti...

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Bibliographic Details
Main Author: Routledge, Claire Marie
Format: Doctoral or Postdoctoral Thesis
Language:English
Published: UCL (University College London) 2021
Subjects:
Online Access:https://discovery.ucl.ac.uk/id/eprint/10137445/1/Routledge_thesis.pdf
https://discovery.ucl.ac.uk/id/eprint/10137445/7/Routledge_10137445_Thesis_appendixes.zip
https://discovery.ucl.ac.uk/id/eprint/10137445/
Description
Summary:This thesis documents calcareous nannoplankton diversity, population dynamics and community structure from the early Oligocene through early Miocene, across the significant Warmhouse to Coolhouse transitional interval in Earth history when ice sheets were first established on Antarctica, using sections recovered by Integrated Ocean Discovery Program (IODP) Expedition 342 from the North Atlantic Ocean. This period of dramatic climatic and palaeoceanographic change saw major extinctions and compositional changes in plankton, and a previous lack of long-term, high-resolution quantitative records have limited attempts to document the structure of this biotic change and to test whether climate played a significant role. Here, rapidly deposited deep-sea sections from IODP Sites U1406 and U1411 in the North Atlantic are used to generate a high-resolution record of quantitative nannofossil assemblage diversity data. These sections provide continuous and expanded stratigraphy with excellent calcareous microfossil preservation that is relatively unique for Paleogene deep-sea sediments, ensuring that these records are of highest quality. An unprecedented ~23 million year, high-fidelity whole-assemblage record from the middle Eocene to early Miocene was produced by merging this study’s record with a comparable nannoplankton dataset from the same IODP expedition sites. Together this composite section shows that diversity was almost constantly declining from the middle Eocene into the lower Miocene and that with community composition shifts were largely responding to decreasing temperatures and increased nutrient availability. These changes are dominated by shifts in the overwhelmingly dominant reticulofenestrid group, but subtle signals are also present in temperature and productivity sensitive taxa such as discoasters, sphenoliths and Clausicoccus. The Oligocene itself is characterised by continued and progressive loss of warm-water taxa, but also significant loss of cool-water forms. As the Oligocene progresses, ...