The effects of prey depletion on dietary niches of sympatric apex predators in Southeast Asia

doi:10.1111/1749-4877.12461

. 2021 Jan;16(1):19-32.

doi: 10.1111/1749-4877.12461. Epub 2020 Aug 11.

The effects of prey depletion on dietary niches of sympatric apex predators in Southeast Asia

Robert Steinmetz¹, Naret Seuaturien¹, Pairoj Intanajitjuy², Pichet Inrueang², Kittipat Prempree²

Affiliations

PMID: 32627329
DOI: 10.1111/1749-4877.12461

The effects of prey depletion on dietary niches of sympatric apex predators in Southeast Asia

Robert Steinmetz et al. Integr Zool. 2021 Jan.

. 2021 Jan;16(1):19-32.

doi: 10.1111/1749-4877.12461. Epub 2020 Aug 11.

Authors

Robert Steinmetz¹, Naret Seuaturien¹, Pairoj Intanajitjuy², Pichet Inrueang², Kittipat Prempree²

Affiliations

¹ World Wide Fund for Nature-Thailand, Bangkok, Thailand.
² Kuiburi National Park, Prachuapkirikhan, Thailand.

PMID: 32627329
DOI: 10.1111/1749-4877.12461

Abstract

Resource depletion exerts opposing pressures on co-occurring consumers to expand diets while limiting overlap with competitors. Using foraging theory as a framework, we tested the effects of prey availability on diet specialization and overlap among competing Asian predators: dhole, leopard, and tiger. We used scat analysis from a prey-poor site, combined with a quantitative synthesis of 40 other diet studies, to determine biomass of different prey types consumed by each predator. We then assessed diet composition in relation to prey density, and compared diet breadth and overlap between prey-poor and prey-rich sites. In prey rich areas, all three predators specialized on energetically profitable medium and large ungulates (>30 kg), resulting in narrow, overlapping niches. Each predator shifted toward less profitable small-bodied prey (≤30 kg) as preferred ungulates declined, whereas consumption of preferred ungulates was unrelated to small prey abundance, as predicted by foraging theory. Diet breadths doubled under prey depletion (except leopard), but overlap declined as diets diverged via species-specific traits that facilitated capture of different types of alternative prey. Asia's apex predators adapt similarly to depletion of mutually preferred ungulates by switching to more numerous but less profitable small prey. Yet they can also partition a depleted prey base through intrinsic niche differences, thereby avoiding competitive exclusion. Our findings illuminate the stabilizing properties of adaptive foraging and niche differences in ecological communities, and provide insights into the behavior and resilience of Asia's endangered apex predators in response to prey depletion in the heavily poached forests of this region.

Keywords: coexistence; dhole; leopard; niche overlap; optimal foraging theory.

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References

REFERENCES

1. Abrams PA (2010). Implications of flexible foraging for interspecific interactions: lessons from simple models. Functional Ecology 24, 7-17.
1. Amerasinghe FP (1983). The structure and identification of the hairs of the mammals of Sri Lanka. Ceylon Journal of Sciences, Biological Sciences 16, 76-125.
1. Andheria AP, Karanth KU, Kumar NS (2007). Diet and prey profiles of three sympatric large carnivores in Bandipur Tiger Reserve, India. Journal of Zoology 273, 169-75.
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[1] Abrams PA (2010). Implications of flexible foraging for interspecific interactions: lessons from simple models. Functional Ecology 24, 7-17.

[2] Abrams PA (2010). Implications of flexible foraging for interspecific interactions: lessons from simple models. Functional Ecology 24, 7-17.

[3] Amerasinghe FP (1983). The structure and identification of the hairs of the mammals of Sri Lanka. Ceylon Journal of Sciences, Biological Sciences 16, 76-125.

[4] Amerasinghe FP (1983). The structure and identification of the hairs of the mammals of Sri Lanka. Ceylon Journal of Sciences, Biological Sciences 16, 76-125.

[5] Andheria AP, Karanth KU, Kumar NS (2007). Diet and prey profiles of three sympatric large carnivores in Bandipur Tiger Reserve, India. Journal of Zoology 273, 169-75.

[6] Andheria AP, Karanth KU, Kumar NS (2007). Diet and prey profiles of three sympatric large carnivores in Bandipur Tiger Reserve, India. Journal of Zoology 273, 169-75.

[7] Beckerman A, Petchey OL, Morin PJ (2010). Adaptive foragers and community ecology: linking individuals to communities and ecosystems. Functional Ecology 24, 1-6.

[8] Beckerman A, Petchey OL, Morin PJ (2010). Adaptive foragers and community ecology: linking individuals to communities and ecosystems. Functional Ecology 24, 1-6.

[9] Begon M, Townsend CR, Harper JL (2006). Ecology: From Individuals to Ecosystems. Blackwell Publishing, Malden, MA.

[10] Begon M, Townsend CR, Harper JL (2006). Ecology: From Individuals to Ecosystems. Blackwell Publishing, Malden, MA.

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The effects of prey depletion on dietary niches of sympatric apex predators in Southeast Asia

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The effects of prey depletion on dietary niches of sympatric apex predators in Southeast Asia

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