Does restoring apex predators to food webs restore ecosystems? Large carnivores in Yellowstone as a model system

IF 7.1 1区 环境科学与生态学 Q1 ECOLOGY
N. Thompson Hobbs, Danielle B. Johnston, Kristin N. Marshall, Evan C. Wolf, David J. Cooper
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Abstract

Modification of food webs is a frequent cause of shifts in ecosystem states that resist reversal when the food web is restored to its original condition. We used the restoration of the large carnivore guild including gray wolves (Canis lupis), cougars (Felis concolor), and grizzly bears (Ursus arctos horribilis) to the northern range of Yellowstone National Park as a model system to understand how ecosystems might resist reconfiguration after the restoration of apex predators to the food web. The absence of wolves, cougars, and grizzly bears for nearly a century from the northern range was the primary cause of dramatic changes in riparian plant communities. Willows (Salix spp.) were suppressed in height by intense browsing by the dominant herbivore, elk (Cervus canadensis). The loss of activity by beavers (Castor canadensis) coincided with the loss of tall willows. We hypothesized that intense elk browsing interrupted the mutualism between willow and beavers: ecosystem engineering by beavers was a critical component of willow habitat and tall willows were a critical component of habitat for beavers. This interruption made riparian communities resilient to the disturbance caused by the restoration of apex predators. We hypothesized further that reductions in elk browsing attributable to reductions in elk population size were not sufficient to prevent the suppression of willow growth. To test these hypotheses, we conducted a 20-year, factorial experiment that crossed simulated beaver dams with the exclusion of browsing. We found that willows grew to heights expected for restored communities only in the presence of dams and reduced browsing. Willows experiencing ambient conditions remained well below this expectation. We found no difference in heights or growth rates of willows in experimental controls and willows in 21 randomly chosen sites, confirming that the results of the experiment were representative of range-wide conditions. A reorganized community of large herbivores was implicated in the suppression of willow growth. We conclude that the restoration of large carnivores to the food web failed to restore riparian plant communities on Yellowstone's northern range, supporting the hypothesis that this ecosystem is in an alternative stable state caused primarily by the extirpation of apex predators during the early 20th century.

Abstract Image

恢复食物网中的顶级食肉动物能恢复生态系统吗?以黄石公园的大型食肉动物为模型系统
食物网的改变是生态系统状态发生变化的一个常见原因,而当食物网恢复到原来的状态时,生态系统状态的改变却难以逆转。我们以黄石国家公园北部地区灰狼(Canis lupis)、美洲狮(Felis concolor)和灰熊(Ursus arctos horribilis)等大型食肉动物群恢复为模型系统,来了解在食物网中恢复顶级食肉动物后,生态系统会如何抵御重构。狼、美洲狮和灰熊在北部分布区消失了近一个世纪,这是河岸植物群落发生巨大变化的主要原因。由于主要食草动物麋鹿(Cervus canadensis)的猛烈啃食,柳树(Salix spp.)海狸(Castor canadensis)活动的减少与高大柳树的减少同时发生。我们假设,麋鹿的猛烈啃食打断了柳树和海狸之间的互惠关系:海狸的生态系统工程是柳树栖息地的重要组成部分,而高大的柳树则是海狸栖息地的重要组成部分。这种中断使河岸群落能够抵御顶级食肉动物恢复造成的干扰。我们进一步假设,麋鹿种群数量减少导致的麋鹿采食量减少不足以阻止柳树生长受到抑制。为了验证这些假设,我们进行了一项为期 20 年的因子实验,将模拟海狸水坝与排除啃食交叉进行。我们发现,只有在有水坝和浏览减少的情况下,柳树才能长到恢复群落的预期高度。而在环境条件下生长的柳树仍远低于预期高度。我们发现,实验对照组的柳树和随机选择的 21 个地点的柳树在高度或生长速度上没有差异,这证明实验结果代表了整个牧场的情况。大型食草动物群落的重组与柳树生长受抑制有关。我们的结论是,食物网中大型食肉动物的恢复未能恢复黄石公园北部地区的河岸植物群落,这支持了一种假设,即该生态系统处于另一种稳定状态,主要是由于 20 世纪早期顶级食肉动物的灭绝造成的。
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来源期刊
Ecological Monographs
Ecological Monographs 环境科学-生态学
CiteScore
12.20
自引率
0.00%
发文量
61
审稿时长
3 months
期刊介绍: The vision for Ecological Monographs is that it should be the place for publishing integrative, synthetic papers that elaborate new directions for the field of ecology. Original Research Papers published in Ecological Monographs will continue to document complex observational, experimental, or theoretical studies that by their very integrated nature defy dissolution into shorter publications focused on a single topic or message. Reviews will be comprehensive and synthetic papers that establish new benchmarks in the field, define directions for future research, contribute to fundamental understanding of ecological principles, and derive principles for ecological management in its broadest sense (including, but not limited to: conservation, mitigation, restoration, and pro-active protection of the environment). Reviews should reflect the full development of a topic and encompass relevant natural history, observational and experimental data, analyses, models, and theory. Reviews published in Ecological Monographs should further blur the boundaries between “basic” and “applied” ecology. Concepts and Synthesis papers will conceptually advance the field of ecology. These papers are expected to go well beyond works being reviewed and include discussion of new directions, new syntheses, and resolutions of old questions. In this world of rapid scientific advancement and never-ending environmental change, there needs to be room for the thoughtful integration of scientific ideas, data, and concepts that feeds the mind and guides the development of the maturing science of ecology. Ecological Monographs provides that room, with an expansive view to a sustainable future.
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