Dietary niche overlap in an understudied Mustelidae community in the subboreal forests of western North America: does body size differentiate dietary niche?

IF 1.2 4区环境科学与生态学 Q4 ECOLOGY

Community Ecology Pub Date : 2023-11-23 DOI:10.1007/s42974-023-00168-0

David N. Breault, Dexter P. Hodder, Shannon M. Crowley, Chris J. Johnson

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Abstract

Understanding the many ways closely related species are adapted to coexist is fundamental for maintaining biologically diverse ecological communities. We used carbon (C) and nitrogen (N) stable isotopes of hair and nail tissue to quantify overlap in dietary niche among American mink (Neogale vison von Schreber, 1776), American marten (Martes americana Turton, 1806), short-tailed weasel (Mustela erminea Linnaeus, 1758), and North American river otter (Lontra canadensis Schreber, 1777), and to quantify seasonal variation in diet among mink and marten. We collected tissue samples from the four species between 2015 and 2017 across an 18,000 km² area in central British Columbia, Canada. We hypothesised that the dietary niche breadth of the mustelid species would scale with body size. Standard ellipses suggested that mink had the broadest dietary niche and the only one that overlapped with all other species. Among marten, there was evidence of shifts in diet resulting from seasonal changes in the consumption of vertebrate prey. Marten and weasel occupied approximately the same isotopic space and their niches were contained fully within that of mink. Our results suggested that the coexistence of mink, marten, weasel, and river otter was driven in part by dietary niche partitioning. Differences in realized niche along spatial or temporal resource axes may have further contributed to preventing competitive exclusion among these closely related species. Although dietary analyses can provide insights on some components of interspecific competition, future investigations should include measures of spatial and temporal overlap in resource use.

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北美西部亚寒带森林中未被充分研究的鼬科群落的饮食生态位重叠:身体大小是否能区分饮食生态位?

了解密切相关物种适应共存的许多方式是维持生物多样性生态群落的基础。我们利用毛发和指甲组织的碳(C)和氮(N)稳定同位素量化了美洲水貂(Neogale vison von Schreber, 1776年)、美洲貂(Martes americana Turton, 1806年)、短尾鼬(Mustela erminea Linnaeus, 1758年)和北美河獭(Lontra canadensis Schreber, 1777年)饮食生态位的重叠，并量化了水貂和貂之间饮食的季节性变化。我们在2015年至2017年期间在加拿大不列颠哥伦比亚省中部1.8万平方公里的区域内收集了四个物种的组织样本。我们假设鼬鼠的饮食生态位宽度与体型成比例。标准的省略号表明水貂的饮食生态位是最广泛的，也是唯一与所有其他物种重叠的。在貂类中，有证据表明，它们的饮食变化是由于捕食脊椎动物的季节变化造成的。貂和黄鼠狼占据了大致相同的同位素空间，它们的生态位完全包含在水貂的生态位中。我们的研究结果表明，水貂、貂、鼬鼠和水獭的共存在一定程度上是由饮食生态位分配驱动的。在空间或时间资源轴上实现生态位的差异可能进一步有助于防止这些密切相关物种之间的竞争排斥。虽然饮食分析可以提供关于种间竞争的一些组成部分的见解，但未来的研究应包括资源利用的空间和时间重叠的测量。

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来源期刊

Community Ecology 环境科学-生态学

CiteScore

2.90

自引率

5.90%

发文量

审稿时长

>36 weeks

期刊介绍： Community Ecology, established by the merger of two ecological periodicals, Coenoses and Abstracta Botanica was launched in an effort to create a common global forum for community ecologists dealing with plant, animal and/or microbial communities from terrestrial, marine or freshwater systems. Main subject areas: (i) community-based ecological theory; (ii) modelling of ecological communities; (iii) community-based ecophysiology; (iv) temporal dynamics, including succession; (v) trophic interactions, including food webs and competition; (vi) spatial pattern analysis, including scaling issues; (vii) community patterns of species richness and diversity; (viii) sampling ecological communities; (ix) data analysis methods.