Diet Evolution and Habitat Contraction of Giant Pandas via Stable Isotope Analysis

Diet Evolution and Habitat Contraction of Giant Pandas via Stable Isotope Analysis

The ancestral panda Ailurarctos lufengensis, excavated from the late Miocene, is thought to be carnivorous or omnivorous [1]. Today, giant pandas exclusively consume bamboo and have distinctive tooth, skull, and muscle characteristics adapted to a tough and fibrous bamboo diet during their long evol...

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Veröffentlicht in:Current biology 2019-02, Vol.29 (4), p.664-669.e2
Hauptverfasser: Han, Han, Wei, Wei, Hu, Yibo, Nie, Yonggang, Ji, Xueping, Yan, Li, Zhang, Zejun, Shi, Xiaoxue, Zhu, Lifeng, Luo, Yunbing, Chen, Weicai, Wei, Fuwen
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Animal Distribution
Animals
Biological Evolution
Bone and Bones - chemistry
Carbon Isotopes - analysis
Diet
diet shift
Ecosystem
Feeding Behavior
Fossils
giant panda
habitat contraction
Herbivory
Nitrogen Isotopes - analysis
stable isotopes
Tooth - chemistry
Ursidae - physiology
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container_end_page 669.e2
container_issue 4
container_start_page 664
container_title Current biology
container_volume 29
creator Han, Han
Wei, Wei
Hu, Yibo
Nie, Yonggang
Ji, Xueping
Yan, Li
Zhang, Zejun
Shi, Xiaoxue
Zhu, Lifeng
Luo, Yunbing
Chen, Weicai
Wei, Fuwen
description The ancestral panda Ailurarctos lufengensis, excavated from the late Miocene, is thought to be carnivorous or omnivorous [1]. Today, giant pandas exclusively consume bamboo and have distinctive tooth, skull, and muscle characteristics adapted to a tough and fibrous bamboo diet during their long evolution [1, 2]. A special feature, the pseudo-thumb, has evolved to permit the precise and efficient grasping of bamboo [3, 4]. Unlike those of extant pandas, little is known about the diet and habitat preferences of extinct pandas. Prevailing studies suggest that the panda shifted to specialized bamboo feeding in the Pleistocene [5, 6]; however, this remains questionable. Pandas now survive in a fraction of their historical habitat [7], but no specific information has been reported. Stable isotope analyses can be used to understand diet- and habitat-related changes in animals [8]. Isotopic signals in bone collagen reflect dietary compositions of ancient human diets [9, 10] and dietary changes between historical and modern animal populations [11, 12]. Here, we conduct stable isotope analyses of bone and tooth samples from ancient and modern pandas and from sympatric fauna. We show that pandas have had a diet dominated by C3 resources over time and space and that trophic niches of ancient and modern pandas are distinctly different. The isotopic trophic and ecological niche widths of ancient pandas are approximately three times larger than those of modern pandas, suggesting that ancient pandas possibly had more complex diets and habitats than do their modern counterparts. Our findings provide insight into the dietary evolution and habitat contraction of pandas. •We determine stable isotope values of ancient and modern pandas and sympatric species•The isotopic trophic niches of ancient and modern pandas are distinctly different•The niche widths of ancient pandas are about 3× larger than those of modern pandas•The diet specialization of pandas was probably unfinished at the mid-Holocene Han et al. compare stable isotope ratios from the bones and teeth of extant and extinct pandas and show that their trophic niches are distinctly different, although both species had a C3-dominated diet over time and space. The results indicate that ancient pandas possibly had more complex diets and habitats than do their modern counterparts.
doi_str_mv 10.1016/j.cub.2018.12.051
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Today, giant pandas exclusively consume bamboo and have distinctive tooth, skull, and muscle characteristics adapted to a tough and fibrous bamboo diet during their long evolution [1, 2]. A special feature, the pseudo-thumb, has evolved to permit the precise and efficient grasping of bamboo [3, 4]. Unlike those of extant pandas, little is known about the diet and habitat preferences of extinct pandas. Prevailing studies suggest that the panda shifted to specialized bamboo feeding in the Pleistocene [5, 6]; however, this remains questionable. Pandas now survive in a fraction of their historical habitat [7], but no specific information has been reported. Stable isotope analyses can be used to understand diet- and habitat-related changes in animals [8]. Isotopic signals in bone collagen reflect dietary compositions of ancient human diets [9, 10] and dietary changes between historical and modern animal populations [11, 12]. Here, we conduct stable isotope analyses of bone and tooth samples from ancient and modern pandas and from sympatric fauna. We show that pandas have had a diet dominated by C3 resources over time and space and that trophic niches of ancient and modern pandas are distinctly different. The isotopic trophic and ecological niche widths of ancient pandas are approximately three times larger than those of modern pandas, suggesting that ancient pandas possibly had more complex diets and habitats than do their modern counterparts. Our findings provide insight into the dietary evolution and habitat contraction of pandas. •We determine stable isotope values of ancient and modern pandas and sympatric species•The isotopic trophic niches of ancient and modern pandas are distinctly different•The niche widths of ancient pandas are about 3× larger than those of modern pandas•The diet specialization of pandas was probably unfinished at the mid-Holocene Han et al. compare stable isotope ratios from the bones and teeth of extant and extinct pandas and show that their trophic niches are distinctly different, although both species had a C3-dominated diet over time and space. 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Here, we conduct stable isotope analyses of bone and tooth samples from ancient and modern pandas and from sympatric fauna. We show that pandas have had a diet dominated by C3 resources over time and space and that trophic niches of ancient and modern pandas are distinctly different. The isotopic trophic and ecological niche widths of ancient pandas are approximately three times larger than those of modern pandas, suggesting that ancient pandas possibly had more complex diets and habitats than do their modern counterparts. Our findings provide insight into the dietary evolution and habitat contraction of pandas. •We determine stable isotope values of ancient and modern pandas and sympatric species•The isotopic trophic niches of ancient and modern pandas are distinctly different•The niche widths of ancient pandas are about 3× larger than those of modern pandas•The diet specialization of pandas was probably unfinished at the mid-Holocene Han et al. compare stable isotope ratios from the bones and teeth of extant and extinct pandas and show that their trophic niches are distinctly different, although both species had a C3-dominated diet over time and space. 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Today, giant pandas exclusively consume bamboo and have distinctive tooth, skull, and muscle characteristics adapted to a tough and fibrous bamboo diet during their long evolution [1, 2]. A special feature, the pseudo-thumb, has evolved to permit the precise and efficient grasping of bamboo [3, 4]. Unlike those of extant pandas, little is known about the diet and habitat preferences of extinct pandas. Prevailing studies suggest that the panda shifted to specialized bamboo feeding in the Pleistocene [5, 6]; however, this remains questionable. Pandas now survive in a fraction of their historical habitat [7], but no specific information has been reported. Stable isotope analyses can be used to understand diet- and habitat-related changes in animals [8]. Isotopic signals in bone collagen reflect dietary compositions of ancient human diets [9, 10] and dietary changes between historical and modern animal populations [11, 12]. Here, we conduct stable isotope analyses of bone and tooth samples from ancient and modern pandas and from sympatric fauna. We show that pandas have had a diet dominated by C3 resources over time and space and that trophic niches of ancient and modern pandas are distinctly different. The isotopic trophic and ecological niche widths of ancient pandas are approximately three times larger than those of modern pandas, suggesting that ancient pandas possibly had more complex diets and habitats than do their modern counterparts. Our findings provide insight into the dietary evolution and habitat contraction of pandas. •We determine stable isotope values of ancient and modern pandas and sympatric species•The isotopic trophic niches of ancient and modern pandas are distinctly different•The niche widths of ancient pandas are about 3× larger than those of modern pandas•The diet specialization of pandas was probably unfinished at the mid-Holocene Han et al. compare stable isotope ratios from the bones and teeth of extant and extinct pandas and show that their trophic niches are distinctly different, although both species had a C3-dominated diet over time and space. The results indicate that ancient pandas possibly had more complex diets and habitats than do their modern counterparts.</abstract><cop>England</cop><pub>Elsevier Ltd</pub><pmid>30713107</pmid><doi>10.1016/j.cub.2018.12.051</doi><oa>free_for_read</oa></addata></record>
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source MEDLINE; Cell Press Free Archives; Elsevier ScienceDirect Journals; Elektronische Zeitschriftenbibliothek - Frei zugängliche E-Journals
subjects Animal Distribution
Animals
Biological Evolution
Bone and Bones - chemistry
Carbon Isotopes - analysis
Diet
diet shift
Ecosystem
Feeding Behavior
Fossils
giant panda
habitat contraction
Herbivory
Nitrogen Isotopes - analysis
stable isotopes
Tooth - chemistry
Ursidae - physiology
title Diet Evolution and Habitat Contraction of Giant Pandas via Stable Isotope Analysis
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