# Global Assessment of Marine Reptiles and Mammals Using a Taxonomic Distinctness Tool: Implications for Their Conservation

**Authors:** Laura Fuentes‐Tejada, Davinia Torreblanca, José Carlos Báez

PMC · DOI: 10.1002/ece3.72537 · Ecology and Evolution · 2025-11-23

## TL;DR

This study compares the global distribution of marine reptiles and mammals, showing how their evolutionary histories influence biodiversity patterns and conservation needs.

## Contribution

The study introduces a taxonomic distinctness approach to identify conservation hotspots for marine reptiles and mammals.

## Key findings

- Marine mammals show non-random distributions with high taxonomic distinctness in the Arctic and North Pacific.
- Marine reptiles exhibit phylogenetic clustering in tropical regions, indicating historical lineage loss.
- Integrating taxonomic distinctness and species richness can improve Marine Protected Area planning.

## Abstract

Understanding the spatial distribution of marine biodiversity is essential for assessing evolutionary processes and informing conservation priorities. This study investigates global distribution patterns of marine reptiles and mammals—two clades with contrasting evolutionary histories. Marine reptiles, representing lineages with arrested diversification, have undergone extensive extinction events since the Mesozoic, while marine mammals are characterized by recent and rapid diversification, particularly during the Miocene. Using taxonomic distinctness (Δ+) and species richness across 15 oceanic regions, we evaluated whether observed distribution patterns deviate from null expectations derived from randomized assemblages. Our results reveal that marine mammals exhibit significantly non‐random, patterned distributions, with higher‐than‐expected taxonomic distinctness in the Arctic and North Pacific, indicating evolutionary radiation and lineage diversification in these regions. Conversely, marine reptiles generally conform to random expectations, with lower‐than‐expected Δ+ values in the Tropical Pacific and Indian Oceans—areas dominated by closely related sea snakes—suggesting phylogenetic clustering and historical lineage loss. These results support our initial hypothesis that diversification dynamics shape current species distributions. Specifically, rapidly diversifying groups lead to phylogenetic clustering (i.e., creating local assemblages of closely related species), while lineages with arrested diversification show overdispersed or clustered patterns. Importantly, we identify key conservation hotspots, highlighting the Indo‐Pacific for marine reptiles and the Arctic–North Pacific for marine mammals. These findings underscore the necessity of integrating taxonomic distinctness and species richness to guide the strategic expansion of Marine Protected Areas (MPAs). As ocean warming and anthropogenic pressures continue to reshape the distribution of marine species, understanding macroecological and phylogeographic patterns becomes vital for ensuring the efficient protection of marine biodiversity.

This study examines the global distribution of marine reptiles and mammals, revealing contrasting biogeographic patterns shaped by their distinct evolutionary histories. Marine mammals exhibit non‐random distributions with elevated taxonomic distinctness in the Arctic and North Pacific, whereas marine reptiles show phylogenetic clustering in tropical regions, reflecting historical lineage loss. These findings emphasize the importance of integrating species richness and taxonomic distinctness to inform the strategic expansion of Marine Protected Areas and enhance conservation planning.

## Full-text entities

- **Diseases:** TD (MESH:C565567)
- **Species:** Hydrodamalis gigas (Steller's sea cow, species) [taxon 63631], Cheloniidae (sea turtles, family) [taxon 8465], Ursus maritimus (polar bear, species) [taxon 29073], Hydrophis schistosus (beaked sea snake, species) [taxon 8682], Hydrophis platurus (pelagic sea snake, species) [taxon 8688], Testudines (anapsid reptiles, order) [taxon 8459], Serpentes (snakes, infraorder) [taxon 8570], Mammalia (mammals, class) [taxon 40674], Crocodylia (alligators and others, order) [taxon 1294634], Homo sapiens (human, species) [taxon 9606], Iguana (genus) [taxon 8516]

## Full text

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## Figures

9 figures with captions in the complete paper: https://tomesphere.com/paper/PMC12641106/full.md

## References

72 references — full list in the complete paper: https://tomesphere.com/paper/PMC12641106/full.md

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Source: https://tomesphere.com/paper/PMC12641106