Spatial sampling heterogeneity limits the detectability of deep time latitudinal biodiversity gradients

Jones, Lewis A.; Dean, Christopher D.; Mannion, Philip D.; Farnsworth, Alexander; Allison, Peter A.

doi:10.1098/rspb.2020.2762

Cited by 29 publications

(30 citation statements)

References 61 publications

(120 reference statements)

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“…Different spatial biases acting on the freshwater and marine records may also variably impact different diversity estimates, dependent on the attributes of the sampled regions (Lagomarcino & Miller, 2012). For example, the species-area effect (Hallam & Wignall, 1999;Peters, 2005Peters, , 2007Hannisdal & Peters, 2011;Close et al, 2020b) may play a role in levels of marine actinopterygian biodiversity, linked to changes in sea level and associated features (Lagomarcino & Miller, 2012;Jones et al, 2021)), whereas other factors may drive freshwater actinopterygian diversity. Discrepancies in dispersal between freshwater and marine actinopterygians are also likely to have an impact.…”

Section: (B) Geographic and Spatial Biasesmentioning

confidence: 99%

“…(1) Sampling standardisation Analytical methods of sampling standardisation (Chao, 1984, p. 198;Chao & Jost, 2012;Alroy, 2017Alroy, , 2018Alroy, , 2020, which estimate species diversity based on incomplete and uneven data are invaluable when attempting to deduce real patterns of palaeodiversity from the biases acting on the fossil record (Alroy, 2010;Close et al, 2018). Since their introduction, these methods and their application continue to be refined, moving beyond temporal standardisation to spatial standardisation (Close et al, 2020a;Jones et al, 2021) and application at different scales (Close et al, 2019). Application of these methods to the Palaeozoic actinopterygian fossil record could help to tease apart genuine diversity patterns from the trends created by fossil record biases.…”

Section: Prospects For Palaeozoic Actinopterygian Diversity Studiesmentioning

confidence: 99%

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The early diversification of ray-finned fishes (Actinopterygii): hypotheses, challenges and future prospects

Henderson¹,

Dunne²,

Fasey³

et al. 2022

Preprint

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Actinopterygii are the most speciose living vertebrate clade, and study of fossil members during their Palaeozoic rise to dominance has a long history of descriptive work. Although research interest into Palaeozoic actinopterygians has increased in recent years, broader patterns of diversity and diversity dynamics remain critically understudied. Past studies have investigated macroevolutionary trends in Palaeozoic actinopterygians in a piecemeal fashion, variably using existing compendia of vertebrates or literature-based searches, and there is no comprehensive occurrence-based dataset of actinopterygians spanning the whole of the Palaeozoic. Past studies typically show low levels of diversity in the Devonian with a substantial rise in the early Carboniferous in the aftermath of the end-Devonian mass extinction. However there are unresolved patterns reported for the later Carboniferous and Permian. In large part, these conflicts span from a lack of publicly-available occurrence data: actinopterygians are majorly underrepresented in the Paleobiology Database (PBDB), for example, obscuring patterns of diversity through time. This is exacerbated by major taxonomic problems pervading the Palaeozoic actinopterygian record. Innumerable taxa are lumped into wide-ranging families and poorly-formulated genera, with a vast number of described species concentrated in several particularly problematic ‘waste-basket’ genera. This taxonomic confusion feeds into a limited understanding of phylogenetic relationships. There is also a heavy sampling bias towards Europe and North America, with other regions underrepresented despite yielding important occurrences. Scrutiny of the extent to which spatial biases influence the record is lacking, as is research on other forms of bias. Low richness in some time periods may be linked to geological biases, while the effect of taphonomic biases on Palaeozoic actinopterygians have not yet been investigated. Efforts are already underway to both redescribe poorly defined taxa and describe taxa from underrepresented regions, helping address taxonomic issues and accuracy of occurrence data. New methods of sampling standardisation utilising up-to-date occurrence databases will be critical in teasing apart biological changes in diversity from those resulting from bias. Lastly, continued phylogenetic work will enable the use of phylogenetic comparative methods to elucidate the origins of actinopterygian biogeography and subsequent patterns of radiation throughout their rise to dominate aquatic faunas.

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Section: (B) Geographic and Spatial Biasesmentioning

confidence: 99%

Section: Prospects For Palaeozoic Actinopterygian Diversity Studiesmentioning

confidence: 99%

The early diversification of ray-finned fishes (Actinopterygii): hypotheses, challenges and future prospects

Henderson¹,

Dunne²,

Fasey³

et al. 2022

Preprint

View full text Add to dashboard Cite

show abstract

“…However, this previous work did not examine dinosaur distributions in the context of palaeoclimate and therefore could not address underlying questions of dinosaur physiological diversity. In addition, although Mannion et al 42 accounted for sampling bias in their reconstructions of dinosaur diversity, it is possible that these problems are more pervasive when assessing spatial patterns (e.g., Fraser, 45 Chiarenza et al, 46 Close et al, 47 and Jones et al 48 ), and some authors have suggested that the high-latitude peak is an artifact. 49,50 Here, we re-evaluate the distribution of Mesozoic dinosaur diversity, as well as its underlying drivers, combining a nearcomprehensive global dataset of dinosaur occurrences with past climate data from the HadCM3L Earth System Model.…”

Section: Introductionmentioning

confidence: 99%

Climatic constraints on the biogeographic history of Mesozoic dinosaurs

et al. 2022

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“…S9). This mechanism has also been shown to influence perceived trends in global and paleolatitudinal biodiversity (Allison and Briggs, 1993;Jones et al, 2021). While the influence of sampling bias is well documented in the fossil record (e.g., Vilhena and Smith, 2013;Close et al, 2020), it has been largely overlooked in the oxygen isotope record.…”

Section: Discussionmentioning

confidence: 99%

Uneven spatial sampling distorts reconstructions of Phanerozoic seawater temperature

Jones

Eichenseer

2021

Geology

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Paleotemperature proxy records are widely used to reconstruct the global climate throughout the Phanerozoic and to test macroevolutionary hypotheses. However, the spatial distribution of these records varies through time. This is problematic because heat is unevenly distributed across Earth’s surface. Consequently, heterogeneous spatial sampling of proxy data has the potential to bias reconstructed temperature curves. We evaluated the spatiotemporal evolution of sampling using a compilation of Phanerozoic δ18O data. We tested the influence of variable spatial coverage on global estimates of paleotemperature by sampling a steep “modern-type” latitudinal temperature gradient and a flattened “Eocene-type” gradient, based on the spatial distribution of δ18O samples. We show that global paleotemperature is overestimated in ~70% of Phanerozoic stages. Perceived climatic trends for some intervals might be artifactually induced by shifts in paleolatitudinal sampling, with equatorward shifts in sampling concurring with warming trends, and poleward shifts concurring with cooling trends. Yet, the magnitude of some climatic perturbations might also be underestimated. For example, the observed Ordovician cooling trend may be underestimated due to an equatorward shift in sampling. Our findings suggest that while proxy records are vital for reconstructing Earth’s paleotemperature in deep time, consideration of the spatial nature of these data is crucial to improving these reconstructions.

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Spatial sampling heterogeneity limits the detectability of deep time latitudinal biodiversity gradients

Cited by 29 publications

References 61 publications

The early diversification of ray-finned fishes (Actinopterygii): hypotheses, challenges and future prospects

The early diversification of ray-finned fishes (Actinopterygii): hypotheses, challenges and future prospects

Climatic constraints on the biogeographic history of Mesozoic dinosaurs

Uneven spatial sampling distorts reconstructions of Phanerozoic seawater temperature

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