多物种再引入中相互作用对种群长期轨迹的影响。

IF 5.2 1区 环境科学与生态学 Q1 BIODIVERSITY CONSERVATION
Katherine E. Moseby, John L. Read, Katherine Tuft, Leanne K. Van der Weyde
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引用次数: 0

摘要

重新引入的种群通常被认为是在建立、生长和调节阶段取得进展的。然而,大多数重新引入程序没有进行足够密集的监控来测试这个概念模型。我们研究了在干旱的澳大利亚多次重新引入四种世界自然保护联盟(IUCN)名录物种(大白暨豚、穴居贝东、大棒巢鼠和鲨鱼湾斑尾鹬)后23年的追踪活动得出的种群指数。我们比较了物种之间的种群轨迹,并研究了时间和环境变量的影响。所有物种在释放后立即繁殖,生长期持续3至16年,物种之间差异显著,但不在物种内部。生长阶段结束时,种群密度出现明显峰值,随后出现灾难性下降和持续低密度(斗鱼),20年后缓慢下降至灭绝(棒巢鼠),或略有下降,随后密度出现不规则波动(白暨豚和斑尾鼠)。微小的波动与环境变量有关,如12个月的累积降雨量和滞后的夏季最高温度。即使在23年后,四个物种中的三个也没有达到调节阶段,这可能是由于捕食者的移除和多物种重新引入引发的种间竞争和营养级联。Bilbies和bandicoots在重新引入18年后出现了第二个生长阶段,这可能是由于降雨量大和数量过多的Bettong种群崩溃后资源增加所致。我们的研究结果表明,由于相互作用,多物种重新引入中的组合表现出种群轨迹的高度可变性。评估种群生存能力的密集监测可能需要几十年的时间,特别是在多个物种被重新引入、释放地点被限制以及气候不可预测的情况下。密集的监测还允许进行适应性管理,以防止人口急剧下降。从业者不应认为重新引入的物种经过了可预测的放生后种群阶段,也不应认为在一段时间后生存能力得到了保证。这篇文章受版权保护。保留所有权利。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Influence of interactive effects on long-term population trajectories in multispecies reintroductions

Influence of interactive effects on long-term population trajectories in multispecies reintroductions

Reintroduced populations are typically considered to progress through establishment, growth, and regulatory phases. However, most reintroduction programs do not monitor intensively enough to test this conceptual model. We studied population indices derived from track activity of 4 threatened species (greater bilby [Macrotis lagotis], burrowing bettong [Bettongia lesueur], greater stick-nest rat [Leporillus conditor], and Shark Bay bandicoot [Perameles bougainville]) over 23 years after multiple reintroductions of each species in arid Australia. We compared population trajectories among species and investigated the effect of time and environmental variables. All species bred immediately after release, and the growth phase lasted 3–16 years, varying markedly among but not within species. The end of the growth phase was characterized by an obvious peak in population density followed by either a catastrophic decline and sustained low density (bettongs), a slow decline to extirpation after 20 years (stick-nest rat), or a slight decline followed by irregular fluctuations (bilby and bandicoot). Minor fluctuations were related to environmental variables, including 12-month cumulative rainfall and lagged summer maximum temperatures. Three of the 4 species did not reach a regulation phase, even after 23 years, possibly due to interspecific competition and trophic cascades triggered by predator removal and multispecies reintroductions. Bilbies and bandicoots exhibited a second growth phase 18 years after reintroduction, likely caused by high rainfall and increased resources following the population crash of overabundant bettongs. Our results suggest that assemblages within multispecies reintroductions demonstrate high variability in population trajectories due to interactive effects. Intensive monitoring to assess population viability may require decades, particularly where multiple species are reintroduced, release sites are confined, and the climate is unpredictable. Intensive monitoring also allows for adaptive management to prevent precipitous population declines. Practitioners should not assume reintroduced species pass through predictable postrelease population phases or that viability is assured after a certain period.

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来源期刊
Conservation Biology
Conservation Biology 环境科学-环境科学
CiteScore
12.70
自引率
3.20%
发文量
175
审稿时长
2 months
期刊介绍: Conservation Biology welcomes submissions that address the science and practice of conserving Earth's biological diversity. We encourage submissions that emphasize issues germane to any of Earth''s ecosystems or geographic regions and that apply diverse approaches to analyses and problem solving. Nevertheless, manuscripts with relevance to conservation that transcend the particular ecosystem, species, or situation described will be prioritized for publication.
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