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The uncertain role of diversity dependence in species diversification and the need to incorporate time-varying carrying capacities (2016)

Marshall, Charles R. ; Quental, Tiago B.

The Royal Society

In: Philosophical Transactions of the Royal Society of London. Series B, Biological Sciences. 2016; 371(1691): 20150217. Published 2016 Apr 05. doi: 10.1098/rstb.2015.0217.

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Publikationsdatum: 2016-04-05

Beschreibung: There is no agreement among palaeobiologists or biologists as to whether, or to what extent, there are limits on diversification and species numbers. Here, we posit that part of the disagreement stems from: (i) the lack of explicit criteria for defining the relevant species pools, which may be defined phylogenetically, ecologically or geographically; (ii) assumptions that must be made when extrapolating from population-level logistic growth to macro-evolutionary diversification; and (iii) too much emphasis being placed on fixed carrying capacities, rather than taking into account the opportunities for increased species richness on evolutionary timescales, for example, owing to increased biologically available energy, increased habitat complexity and the ability of many clades to better extract resources from the environment, or to broaden their resource base. Thus, we argue that a more effective way of assessing the evidence for and against the ideas of bound versus unbound diversification is through appropriate definition of the relevant species pools, and through explicit modelling of diversity-dependent diversification with time-varying carrying capacities. Here, we show that time-varying carrying capacities, either increases or decreases, can be accommodated through changing intrinsic diversification rates (diversity-independent effects), or changing the effects of crowding (diversity-dependent effects).

Print ISSN: 0962-8436

Digitale ISSN: 1471-2970

Thema: Biologie

Publiziert von The Royal Society

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Diversification dynamics of mammalian clades during the Kâ€“Pg mass extinction (2018)

Pires, Mathias M. ; Rankin, Brian D. ; Silvestro, Daniele ; [weitere]

The Royal Society

In: Biology Letters. 2018; 14(9): 20180458. Published 2018 Sep 01. doi: 10.1098/rsbl.2018.0458.

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Publikationsdatum: 2018-09-01

Beschreibung: The Cretaceous/Palaeogene (Kâ€“Pg) episode is an iconic mass extinction, in which the diversity of numerous clades abruptly declined. However, the responses of individual clades to mass extinctions may be more idiosyncratic than previously understood. Here, we examine the diversification dynamics of the three major mammalian clades in North America across the Kâ€“Pg. Our results show that these clades responded in dramatically contrasting ways to the Kâ€“Pg event. Metatherians underwent a sudden rise in extinction rates shortly after the Kâ€“Pg, whereas declining origination rates first halted diversification and later drove the loss of diversity in multituberculates. Eutherians experienced high taxonomic turnover near the boundary, with peaks in both origination and extinction rates. These findings indicate that the effects of geological episodes on diversity are context dependent and that mass extinctions can affect the diversification of clades by independently altering the extinction regime, the origination regime or both.

Print ISSN: 1744-9561

Digitale ISSN: 1744-957X

Thema: Biologie

Publiziert von The Royal Society

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The challenges to inferring the regulators of biodiversity in deep time (2016)

Ezard, Thomas H. G. ; Quental, Tiago B. ; Benton, Michael J.

The Royal Society

In: Philosophical Transactions of the Royal Society of London. Series B, Biological Sciences. 2016; 371(1691): 20150216. Published 2016 Apr 05. doi: 10.1098/rstb.2015.0216.

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Publikationsdatum: 2016-04-05

Beschreibung: Attempts to infer the ecological drivers of macroevolution in deep time have long drawn inspiration from work on extant systems, but long-term evolutionary and geological changes complicate the simple extrapolation of such theory. Recent efforts to incorporate a more informed ecology into macroevolution have moved beyond the descriptive, seeking to isolate generating mechanisms and produce testable hypotheses of how groups of organisms usurp each other or coexist over vast timespans. This theme issue aims to exemplify this progress, providing a series of case studies of how novel modelling approaches are helping infer the regulators of biodiversity in deep time. In this Introduction, we explore the challenges of these new approaches. First, we discuss how our choices of taxonomic units have implications for the conclusions drawn. Second, we emphasize the need to embrace the interdependence of biotic and abiotic changes, because no living organism ignores its environment. Third, in the light of parts 1 and 2, we discuss the set of dynamic signatures that we might expect to observe in the fossil record. Finally, we ask whether these dynamics represent the most ecologically informative foci for research efforts aimed at inferring the regulators of biodiversity in deep time. The papers in this theme issue contribute in each of these areas.

Print ISSN: 0962-8436

Digitale ISSN: 1471-2970

Thema: Biologie

Publiziert von The Royal Society

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