Palaeobotanical experiences of plant diversity in deep time. 2: How to measure and analyse past plant biodiversity

Heather S. Pardoe; Christopher J. Cleal; Christopher M. Berry; Borja Cascales-Miñana; Basil A.S. Davis; Jose B. Diez; Mariana V. Filipova-Marinova; Thomas Giesecke; Jason Hilton; Dimiter Ivanov; Evelyn Kustatscher; Suzanne A.G. Leroy; Jennifer C. McElwain; Stanislav Opluštil; Mihai Emilian Popa; Leyla J. Seyfullah; Ellen Stolle; Barry A. Thomas; Dieter Uhl

doi:10.1016/j.palaeo.2021.110618

Palaeobotanical experiences of plant diversity in deep time. 2: How to measure and analyse past plant biodiversity

Heather S. Pardoe^*, Christopher J. Cleal, Christopher M. Berry, Borja Cascales-Miñana, Basil A.S. Davis, Jose B. Diez, Mariana V. Filipova-Marinova, Thomas Giesecke, Jason Hilton, Dimiter Ivanov, Evelyn Kustatscher, Suzanne A.G. Leroy, Jennifer C. McElwain, Stanislav Opluštil, Mihai Emilian Popa, Leyla J. Seyfullah, Ellen Stolle, Barry A. Thomas, Dieter Uhl

^*Corresponding author for this work

Palaeo-ecology

Research output: Contribution to journal › Article › Academic › peer-review

Abstract

Determining the diversity of past floras helps with interpreting both the history and predicting the future of vegetation change. For global-scale and regional-scale diversity studies especially, secondary data are often used but local-scale studies tend to be based on survey data that require rigorous sampling. The correct sampling strategies depend on the types of fossils being investigated, including their physical size, and whether the aim is to determine taxonomic richness or relative abundance. Describing and comparing diversities can use a range of different metrics, depending on whether binary presence/absence or abundance data are available. Each metric provides a different insight into the diversities and the choice of which to use depends on the research question being investigated. Various numerical approaches are available for identifying spatial and stratigraphical diversity patterns, mainly classificatory techniques (e.g., cluster and parsimony analyses) and ordination (e.g., Detrended Correspondence Analysis, Nonmetric Dimensional Scaling). The choice of technique again depends on the research question, but often it has proved useful to run both types of analysis in tandem. This article is illustrated by past biodiversity case studies from throughout the fossil record, dealing with floras ranging in age from the Devonian to the last few centuries.

Original language	English
Article number	110618
Pages (from-to)	1-26
Journal	Palaeogeography, Palaeoclimatology, Palaeoecology
Volume	580
DOIs	https://doi.org/10.1016/j.palaeo.2021.110618
Publication status	Published - 15 Oct 2021

Bibliographical note

Funding Information:
The authors are grateful to the European Science Foundation for supporting the Exploratory Workshop entitled Tracking changes in plant diversity over the last 400 million years, held in 2014 at National Museum Wales, Cardiff, UK. Thanks go to Tom Olszewski (IDA Science and Technology Policy Institute, Washington DC) for advice on drawbacks in detrending in ordination analyses. The paper is a contribution to National Museum Wales Research Project NS25 Plant diversity through 450 million years of Earth history.

Publisher Copyright:
© 2021

Funding

The authors are grateful to the European Science Foundation for supporting the Exploratory Workshop entitled Tracking changes in plant diversity over the last 400 million years, held in 2014 at National Museum Wales, Cardiff, UK. Thanks go to Tom Olszewski (IDA Science and Technology Policy Institute, Washington DC) for advice on drawbacks in detrending in ordination analyses. The paper is a contribution to National Museum Wales Research Project NS25 Plant diversity through 450 million years of Earth history.

Keywords

Classificatory analysis
Ordination
Palaeobotany
Palynology
Taphonomy
Taxonomy

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10.1016/j.palaeo.2021.110618

1-s2.0-S003101822100403X-mainFinal published version, 9.72 MBLicence: Taverne

Cite this

Pardoe, H. S., Cleal, C. J., Berry, C. M., Cascales-Miñana, B., Davis, B. A. S., Diez, J. B., Filipova-Marinova, M. V., Giesecke, T., Hilton, J., Ivanov, D., Kustatscher, E., Leroy, S. A. G., McElwain, J. C., Opluštil, S., Popa, M. E., Seyfullah, L. J., Stolle, E., Thomas, B. A., & Uhl, D. (2021). Palaeobotanical experiences of plant diversity in deep time. 2: How to measure and analyse past plant biodiversity. Palaeogeography, Palaeoclimatology, Palaeoecology, 580, 1-26. Article 110618. https://doi.org/10.1016/j.palaeo.2021.110618

@article{1f2762972be842bba23cc045af075437,

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abstract = "Determining the diversity of past floras helps with interpreting both the history and predicting the future of vegetation change. For global-scale and regional-scale diversity studies especially, secondary data are often used but local-scale studies tend to be based on survey data that require rigorous sampling. The correct sampling strategies depend on the types of fossils being investigated, including their physical size, and whether the aim is to determine taxonomic richness or relative abundance. Describing and comparing diversities can use a range of different metrics, depending on whether binary presence/absence or abundance data are available. Each metric provides a different insight into the diversities and the choice of which to use depends on the research question being investigated. Various numerical approaches are available for identifying spatial and stratigraphical diversity patterns, mainly classificatory techniques (e.g., cluster and parsimony analyses) and ordination (e.g., Detrended Correspondence Analysis, Nonmetric Dimensional Scaling). The choice of technique again depends on the research question, but often it has proved useful to run both types of analysis in tandem. This article is illustrated by past biodiversity case studies from throughout the fossil record, dealing with floras ranging in age from the Devonian to the last few centuries.",

keywords = "Classificatory analysis, Ordination, Palaeobotany, Palynology, Taphonomy, Taxonomy",

author = "Pardoe, {Heather S.} and Cleal, {Christopher J.} and Berry, {Christopher M.} and Borja Cascales-Mi{\~n}ana and Davis, {Basil A.S.} and Diez, {Jose B.} and Filipova-Marinova, {Mariana V.} and Thomas Giesecke and Jason Hilton and Dimiter Ivanov and Evelyn Kustatscher and Leroy, {Suzanne A.G.} and McElwain, {Jennifer C.} and Stanislav Oplu{\v s}til and Popa, {Mihai Emilian} and Seyfullah, {Leyla J.} and Ellen Stolle and Thomas, {Barry A.} and Dieter Uhl",

note = "Funding Information: The authors are grateful to the European Science Foundation for supporting the Exploratory Workshop entitled Tracking changes in plant diversity over the last 400 million years, held in 2014 at National Museum Wales, Cardiff, UK. Thanks go to Tom Olszewski (IDA Science and Technology Policy Institute, Washington DC) for advice on drawbacks in detrending in ordination analyses. The paper is a contribution to National Museum Wales Research Project NS25 Plant diversity through 450 million years of Earth history. Publisher Copyright: {\textcopyright} 2021",

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doi = "10.1016/j.palaeo.2021.110618",

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Pardoe, HS, Cleal, CJ, Berry, CM, Cascales-Miñana, B, Davis, BAS, Diez, JB, Filipova-Marinova, MV, Giesecke, T, Hilton, J, Ivanov, D, Kustatscher, E, Leroy, SAG, McElwain, JC, Opluštil, S, Popa, ME, Seyfullah, LJ, Stolle, E, Thomas, BA & Uhl, D 2021, 'Palaeobotanical experiences of plant diversity in deep time. 2: How to measure and analyse past plant biodiversity', Palaeogeography, Palaeoclimatology, Palaeoecology, vol. 580, 110618, pp. 1-26. https://doi.org/10.1016/j.palaeo.2021.110618

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AU - Cascales-Miñana, Borja

AU - Davis, Basil A.S.

AU - Diez, Jose B.

AU - Filipova-Marinova, Mariana V.

AU - Giesecke, Thomas

AU - Hilton, Jason

AU - Ivanov, Dimiter

AU - Kustatscher, Evelyn

AU - Leroy, Suzanne A.G.

AU - McElwain, Jennifer C.

AU - Opluštil, Stanislav

AU - Popa, Mihai Emilian

AU - Seyfullah, Leyla J.

AU - Stolle, Ellen

AU - Thomas, Barry A.

AU - Uhl, Dieter

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N2 - Determining the diversity of past floras helps with interpreting both the history and predicting the future of vegetation change. For global-scale and regional-scale diversity studies especially, secondary data are often used but local-scale studies tend to be based on survey data that require rigorous sampling. The correct sampling strategies depend on the types of fossils being investigated, including their physical size, and whether the aim is to determine taxonomic richness or relative abundance. Describing and comparing diversities can use a range of different metrics, depending on whether binary presence/absence or abundance data are available. Each metric provides a different insight into the diversities and the choice of which to use depends on the research question being investigated. Various numerical approaches are available for identifying spatial and stratigraphical diversity patterns, mainly classificatory techniques (e.g., cluster and parsimony analyses) and ordination (e.g., Detrended Correspondence Analysis, Nonmetric Dimensional Scaling). The choice of technique again depends on the research question, but often it has proved useful to run both types of analysis in tandem. This article is illustrated by past biodiversity case studies from throughout the fossil record, dealing with floras ranging in age from the Devonian to the last few centuries.

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KW - Ordination

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Palaeobotanical experiences of plant diversity in deep time. 2: How to measure and analyse past plant biodiversity

Abstract

Bibliographical note

Funding

Keywords

Access to Document

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