Habitat-based density models of pack-ice seal distribution in the southern Weddell Sea, Antarctica

Oosthuizen, W. Chris; Reisinger, R. R.; Bester, M.N.; Steinhage, Daniel; Auel, Holger; Flores, Hauke; Knust, Rainer; Ryan, Svenja; Bornemann, Horst

doi:10.3354/meps13787

Cited by 4 publications

(2 citation statements)

References 89 publications

(109 reference statements)

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“…The Lobodontini tribe (Antarctic ice seals) includes four species: the Ross seal (Ommatophoca rossii), the crabeater seal (Lobodon carcinophagus), the Weddell seal (Leptonychotes weddelli), and the leopard seal (Hydrurga leptonyx). The Weddell seal is one of the best-studied pinniped species [16] and is, therefore, typically included in foundational Antarctic habitat models (e.g., [17]). Conversely, Ross and leopard seals remain among the least studied pinnipeds [18].…”

Section: Introductionmentioning

confidence: 99%

Genetic diversity and demographic history of the leopard seal: a Southern Ocean top predator

Bender

Krause

Goebel

et al. 2023

Preprint

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Leopard seals (Hydrurga leptonyx) are top predators that can exert substantial top-down control of their Antarctic prey species. However, population trends and genetic diversity of leopard seals remain understudied, limiting our understanding of their ecological role. We investigated the genetic diversity, effective population size and demographic history of leopard seals to provide fundamental data that contextualizes their predatory influence on Antarctic ecosystems. Ninety leopard seals were sampled in the northern Antarctic Peninsula, during the austral summers of 2008–2019 and a 405bp region of the mitochondrial control region was sequenced for each individual. We uncovered moderate levels of nucleotide (π = 0.013) and haplotype (Hd = 0.96) diversity, and the effective population size was estimated at around 24,000 individuals (NE = 24,376; range 16,876 – 33,126). Consistent with findings from other ice-breeding pinnipeds, Bayesian skyline analysis also revealed evidence for population expansion during the last glacial maximum, suggesting that historical population growth may have been boosted by an increase in the abundance of sea ice. Although leopard seals can be found in warmer, sub-Antarctic locations, the species' core habitat is centered around the Antarctic, making it inherently vulnerable to the loss of sea ice habitat due to climate change. Therefore, detailed assessments of past and present leopard seal population trends are needed to inform policies for Antarctic ecosystems.

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Section: Introductionmentioning

confidence: 99%

Genetic diversity and demographic history of the leopard seal: a Southern Ocean top predator

Bender

Krause

Goebel

et al. 2023

Preprint

View full text Add to dashboard Cite

show abstract

“…The Weddell seal is one of the best-studied pinniped species [24] and is, therefore, typically included in foundational Antarctic habitat models (e.g., [25]). Conversely, Ross and leopard seals remain among the least studied pinnipeds, meaning that their impacts on Antarctic ecosystems are difficult to quantify [26].…”

Section: Introductionmentioning

confidence: 99%

Genetic diversity and demographic history of the leopard seal: A Southern Ocean top predator

et al. 2023

View full text Add to dashboard Cite

Leopard seals (Hydrurga leptonyx) are top predators that can exert substantial top-down control of their Antarctic prey species. However, population trends and genetic diversity of leopard seals remain understudied, limiting our understanding of their ecological role. We investigated the genetic diversity, effective population size and demographic history of leopard seals to provide fundamental data that contextualizes their predatory influence on Antarctic ecosystems. Ninety leopard seals were sampled from the northern Antarctic Peninsula during the austral summers of 2008–2019 and a 405bp segment of the mitochondrial control region was sequenced for each individual. We uncovered moderate levels of nucleotide (π = 0.013) and haplotype (Hd = 0.96) diversity, and the effective population size was estimated at around 24,000 individuals (NE = 24,376; 95% CI: 16,876–33,126). Consistent with findings from other ice-breeding pinnipeds, Bayesian skyline analysis also revealed evidence for population expansion during the last glacial maximum, suggesting that historical population growth may have been boosted by an increase in the abundance of sea ice. Although leopard seals can be found in warmer, sub-Antarctic locations, the species’ core habitat is centered on the Antarctic, making it inherently vulnerable to the loss of sea ice habitat due to climate change. Therefore, detailed assessments of past and present leopard seal population trends are needed to inform policies for Antarctic ecosystems.

show abstract

Effects of climate change and extreme events on Antarctic sea ice habitats

Bester,

Bornemann

2024

Reference Module in Earth Systems and Environmental Sciences

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Habitat-based density models of pack-ice seal distribution in the southern Weddell Sea, Antarctica

Cited by 4 publications

References 89 publications

Genetic diversity and demographic history of the leopard seal: a Southern Ocean top predator

Genetic diversity and demographic history of the leopard seal: a Southern Ocean top predator

Genetic diversity and demographic history of the leopard seal: A Southern Ocean top predator

Effects of climate change and extreme events on Antarctic sea ice habitats

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