落基山杂交区的生态位移为北美貂的管理提供了信息

IF 4 2区 环境科学与生态学 Q1 ECOLOGY
Jocelyn P. Colella, Nicholas A. Freymueller, Danielle M. Land, Ben J. Wiens, Karen D. Stone, Joseph A. Cook
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引用次数: 0

摘要

背景同域姊妹物种是检验生态相互作用的理想方法。太平洋松貂(Martes caurina)和美洲松貂(M. americana)是落基山脉中北部杂交的具有经济和文化价值的毛皮动物。尽管有初步证据表明存在有偏向的引种,但杂交区在地理上已经稳定了70年,但种间生态相互作用尚未得到详细研究。为此,我们估算了每个物种的基本生态位,并测量了当两个物种接触时,适宜性景观是如何变化的。方法我们对来自落基山杂交区的> 400只貂进行了基因分型,对个体进行了物种水平的诊断,并确定了可能的杂交种。然后,我们为每个物种(不包括杂交区的个体)建立了整个分布区的生态位模型,以接近它们各自的基本生态位。这些模型被投射到杂交区,并与杂交区内个体的生态位模型进行比较,以评估物种共栖时生态位动态如何变化。根据在杂交区建立的模型得出的每个物种的生态位显示,太平洋马汀鼠利用的适宜栖息地明显少于根据其整个分布区的基本生态位预期的适宜栖息地,这表明物种间的相互作用影响了局部杂交。我们检测到的掺杂个体很少(12%),没有证据表明存在方向性(性别或物种)偏差。90号州际公路进一步成为主要的扩散障碍。结论目前,一些州政府机构将北美貂作为单一物种进行管理,但显著的生态和遗传差异表明它们应该分开管理。所观察到的美国松貂对太平洋貂的生态迁移可能部分解释了历史上混合物种野生动物迁移的成功与否,并提醒未来此类迁移的注意事项。除了分子兼容性之外,在景观范围内考虑生态动态对未来迁移的成功至关重要。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Ecological displacement in a Rocky Mountain hybrid zone informs management of North American martens (Martes)

Ecological displacement in a Rocky Mountain hybrid zone informs management of North American martens (Martes)

Context

Parapatric sister species are ideal for tests of ecological interactions. Pacific (Martes caurina) and American pine (M. americana) martens are economically and culturally valuable furbearers that hybridize in the north-central Rocky Mountains. Despite preliminary evidence of biased introgression, the hybrid zone has been geographically stable for 70 years, but interspecific ecological interactions have yet to be examined in detail.

Objectives

We test whether ecological interactions may influence the outcome of hybridization in this system. To that end, we estimate the fundamental niche of each species and gauge how suitability landscapes change when the two species are in contact.

Methods

We genotyped > 400 martens from the Rocky Mountain hybrid zone to diagnose individuals to species-level and identify putative hybrids. We then built range-wide ecological niche models for each species, excluding individuals in the hybrid zone, to approximate their respective fundamental niches. Those models were projected into the hybrid zone and compared with niche models trained on individuals within the hybrid zone to assess how niche dynamics change when the species are in sympatry.

Results

The fundamental niche of each species differed significantly, while the hybrid zone was equally suitable for both. Niches of each species based on models built within the hybrid zone showed that Pacific martens utilized significantly less suitable habitat than expected based on their range-wide fundamental niche, suggesting that species interactions shape local hybridization. We detected few admixed individuals (12%), with no evidence of directional (sex or species) biases. Interstate-90 further acts as a major dispersal barrier.

Conclusions

North American martens are currently managed as a single species by some state agencies, yet significant ecological and genetic differences indicate they should be managed separately. The observed ecological displacement of Pacific martens by American pine martens may partially explain the mixed success of historical, mixed-species wildlife translocations and cautions such translocations in the future. Landscape-scale consideration of ecological dynamics, in addition to molecular compatibility, will be essential to the success of future translocations.

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来源期刊
Landscape Ecology
Landscape Ecology 环境科学-地球科学综合
CiteScore
8.30
自引率
7.70%
发文量
164
审稿时长
8-16 weeks
期刊介绍: Landscape Ecology is the flagship journal of a well-established and rapidly developing interdisciplinary science that focuses explicitly on the ecological understanding of spatial heterogeneity. Landscape Ecology draws together expertise from both biophysical and socioeconomic sciences to explore basic and applied research questions concerning the ecology, conservation, management, design/planning, and sustainability of landscapes as coupled human-environment systems. Landscape ecology studies are characterized by spatially explicit methods in which spatial attributes and arrangements of landscape elements are directly analyzed and related to ecological processes.
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