Stream size-dependent effect of urban land use on occupancy of an apex freshwater carnivore recolonizing past ranges

IF 2.7 3区 环境科学与生态学 Q2 ECOLOGY
Ecosphere Pub Date : 2024-07-15 DOI:10.1002/ecs2.4937
Manlio Marcelli, Giuseppe Luzzi, Romina Fusillo
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引用次数: 0

Abstract

Accurate assessment of population trends and factors that limit distributions of threatened species is key to conserving biodiversity. A reduction in impacts of human land use on species habitats may be one of the factors involved in the recolonization of former ranges by native species. The signature of this process could be detected as a temporal reduction of land use effects on species distributions, or as a spatial reduction, with effects persisting only in habitats more sensitive to anthropogenic stressors. We explored these hypotheses in a recolonizing semiaquatic carnivore. Our species of interest was the Eurasian river otter (Lutra lutra) in Italy, a nationally vulnerable species with a restricted but expanding range. Human land use is likely to strongly affect riparian and stream communities through habitat degradation. We used three independent survey datasets collected in 2003, 2009, and 2019 at the southern range periphery, and unpaired-site occupancy models to account for imperfect detection in otter surveys. To assess how land use affects recolonization by otters, we tested three main model predictions: (1) occupancy increased over years, (2) effects of agricultural and urban land cover on occupancy decreased over years, (3) effects of agricultural and urban land cover were constant across years and changed with stream size and elevation. We found evidence that otter occupancy increased over years, with predicted mean occupancy of 0.27 in 2003 and 0.65 in 2019. An interaction effect of urban land cover with stream size was the strongest predictor of otter occupancy. Interestingly, a higher percentage of urban land cover around streams was predicted to reduce the probability of occupancy at smaller streams, but did not influence occupancy at larger streams. Despite a large increase in occupancy, otters at the southern periphery of the Italian range are still unable to colonize small rivers in urbanized areas. This pattern supports our hypothesis that human land use can affect recolonizing species at sensitive habitats, considering the intrinsic vulnerability of small stream ecosystems to anthropogenic stressors. Restoring small streams impacted by urban areas can be a valuable conservation action to increase habitat connectivity and favor recolonization of otters.

Abstract Image

城市土地使用对一种顶级淡水食肉动物重新定居过去分布区的影响与溪流大小有关
准确评估种群趋势和限制受威胁物种分布的因素是保护生物多样性的关键。减少人类使用土地对物种栖息地的影响,可能是本地物种重新拓殖原生地的因素之一。这一过程的特征可能表现为土地利用对物种分布的影响在时间上的减弱,也可能表现为空间上的减弱,即只有在对人为压力更敏感的栖息地上,影响才会持续存在。我们在一种重新定居的半水生食肉动物身上探索了这些假设。我们关注的物种是意大利的欧亚河獭(Lutra lutra),它是国家级易危物种,分布范围有限但在不断扩大。人类对土地的使用可能会导致栖息地退化,从而对河岸和溪流群落造成严重影响。我们使用了 2003 年、2009 年和 2019 年在南部分布区外围收集的三个独立调查数据集,并使用非配对地点占据模型来考虑水獭调查中的不完全检测。为了评估土地利用如何影响水獭的重新定居,我们检验了三个主要的模型预测:(1)水獭占据率逐年增加;(2)农业和城市土地覆盖对水獭占据率的影响逐年减少;(3)农业和城市土地覆盖的影响在不同年份保持不变,并随溪流大小和海拔高度的变化而变化。我们发现有证据表明,水獭的栖息率逐年增加,2003 年的预测平均栖息率为 0.27,2019 年为 0.65。城市土地覆盖与溪流大小的交互效应是水獭栖息率的最强预测因子。有趣的是,溪流周围城市土地覆盖率越高,预测占用较小溪流的概率越低,但不会影响占用较大溪流的概率。尽管占用率大幅增加,意大利南部边缘地区的水獭仍然无法在城市化地区的小河流中定居。考虑到小溪流生态系统在人为压力下的内在脆弱性,这种模式支持了我们的假设,即人类的土地使用会影响物种在敏感栖息地的重新定居。恢复受城市影响的小溪流是一项有价值的保护措施,可以增加栖息地的连通性,有利于水獭的重新定居。
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来源期刊
Ecosphere
Ecosphere ECOLOGY-
CiteScore
4.70
自引率
3.70%
发文量
378
审稿时长
15 weeks
期刊介绍: The scope of Ecosphere is as broad as the science of ecology itself. The journal welcomes submissions from all sub-disciplines of ecological science, as well as interdisciplinary studies relating to ecology. The journal''s goal is to provide a rapid-publication, online-only, open-access alternative to ESA''s other journals, while maintaining the rigorous standards of peer review for which ESA publications are renowned.
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