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利用稳定同位素分析多种组织揭示了水库中 Pangasianodon 属的营养生态位分化和种内食物资源利用的差异。

Trophic niche partitioning and intraspecific variation in food resource use in the genus Pangasianodon in a reservoir revealed by stable isotope analysis of multiple tissues.

机构信息

Graduate School of Informatics, Kyoto University, Kyoto, Japan.

Center for Ecological Research, Kyoto University, Otsu, Japan.

出版信息

J Fish Biol. 2024 Sep;105(3):814-824. doi: 10.1111/jfb.15842. Epub 2024 Jun 16.

DOI:10.1111/jfb.15842
PMID:38880940
Abstract

Understanding the mechanism by which non-native fish species integrate into native communities is crucial for evaluating the possibility of their establishment success. The genus Pangasianodon, comprising Pangasianodon gigas and Pangasianodon hypophthalmus, has been introduced into reservoirs, which are non-native habitats, for fishery stock enhancement. P. gigas and P. hypophthalmus often successfully establish and co-occur in several Thai reservoirs, but there is little information on differences in food resource use between the two species. To investigate the trophic niche width of P. gigas and P. hypophthalmus in a Thai reservoir, we conducted stable carbon and nitrogen ratio (δC and δN) analyses. We examined the degree of individual specialization in both species using the δC and δN values of muscle and liver tissues, which provides long- and short-term diet information. The isotopic niches did not overlap between P. gigas and P. hypophthalmus. The δN value of P. gigas was significantly higher than that of P. hypophthalmus, whereas the δC value did not significantly differ between the two species. The isotopic niche sizes were larger in P. hypophthalmus than in P. gigas. Individual specialization was observed in P. hypophthalmus but not in P. gigas, indicating that intraspecific variation in food resource use was larger in P. hypophthalmus compared to P. gigas. These findings suggest that trophic niche partitioning was one of the factors facilitating the establishment success of P. gigas and P. hypophthalmus in a reservoir, but the establishment process may differ between the two species.

摘要

了解非本地鱼类物种融入本地群落的机制对于评估其建立成功的可能性至关重要。 Pangasianodon 属包括 Pangasianodon gigas 和 Pangasianodon hypophthalmus,已被引入水库(非本地栖息地)进行渔业种群增强。P. gigas 和 P. hypophthalmus 经常成功建立并在几个泰国水库中共同存在,但关于这两个物种在食物资源利用方面的差异知之甚少。为了研究泰国水库中 P. gigas 和 P. hypophthalmus 的营养生态位宽度,我们进行了稳定的碳氮比值(δC 和 δN)分析。我们通过肌肉和肝脏组织的 δC 和 δN 值来检查这两个物种的个体专业化程度,这提供了长期和短期的饮食信息。P. gigas 和 P. hypophthalmus 的同位素生态位没有重叠。P. gigas 的 δN 值明显高于 P. hypophthalmus,而两个物种的 δC 值没有明显差异。P. hypophthalmus 的同位素生态位大小大于 P. gigas。P. hypophthalmus 存在个体专业化,而 P. gigas 则没有,这表明 P. hypophthalmus 比 P. gigas 更倾向于利用食物资源的种内变异。这些发现表明,营养生态位的分化是 P. gigas 和 P. hypophthalmus 在水库中建立成功的因素之一,但这两个物种的建立过程可能不同。

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