高山两栖动物四十年物候研究:趋势、停滞和气候驱动因素

Omar Lenzi, Kurt Grossenbacher, Silvia Zumbach, Beatrice Lüscher, Sarah Althaus, Daniela Schmocker, Helmut Recher, Marco Thoma, Arpat Ozgul, Benedikt R. Schmidt
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引用次数: 1

摘要

据报道,许多物种(包括两栖动物)都出现了强烈的物候变化,以响应气候条件的变化,预计两栖动物的繁殖时间会提前。在许多两栖动物种群中都观察到繁殖的物候变化,但对生活在高海拔地区的种群知之甚少,据预测,高海拔地区的种群比低地种群对气候变化更敏感。本研究的目的是评估决定高山蟾蜍(Bufo Bufo)繁殖时间的主要因素,并描述观察到的繁殖物候变化。我们利用39年的个体数据模拟了环境变量对繁殖季节开始和高峰日期的影响。此外,我们还研究了月相周期的影响,以及繁殖物候的个体差异。最后,为了评估个体在繁殖时间上的异质性,我们计算了到达繁殖地点时间的可重复性。在研究的头几年,繁殖提前了,但这一趋势一直持续到20世纪90年代中期,之后才稳定下来。总的来说,蟾蜍现在的繁殖期比研究开始时平均提前了30天左右。冬春季气温高、积雪少、春季降水减少均与早熟繁殖有关。此外,我们发现雄性平均比雌性早到达繁殖地,但月球周期没有明显的强烈影响。我们只发现了繁殖物候变化中个体差异的微弱证据,以及到达时间的低重复性。结果表明,繁殖物候的变化与环境条件密切相关。这些结果有助于填补气候变化对高山两栖动物种群影响的知识空白。此外,我们表明物候变化,特别是在山区,很难预测,因为当地的小气候条件不一定反映观测到的全球气候趋势。
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Four decades of phenology in an alpine amphibian: trends, stasis, and climatic drivers
Strong phenological shifts in response to changes in climatic conditions have been reported for many species, including amphibians, which are expected to breed earlier. Phenological shifts in breeding are observed in a wide number of amphibian populations, but less is known about populations living at high elevations, which are predicted to be more sensitive to climate change than lowland populations. The goal of this study is to assess the main factors determining the timing of breeding in an alpine population of the common toad (Bufo bufo) and to describe the observed shifts in its breeding phenology. We modelled the effect of environmental variables on the start and peak dates of the breeding season using 39 years of individual-based data. In addition, we investigated the effect of the lunar cycle, as well as the individual variation in breeding phenology. Finally, to assess the individual heterogeneity in the timing of breeding, we calculated the repeatability of the timing of arrival at the breeding site. Breeding advanced to earlier dates in the first years of the study but the trend continued only until the mid 1990s, and stabilised afterwards. Overall, toads are now breeding on average around 30 days earlier than at the start of the study period. High temperatures and low snow cover in winter and spring, as well as reduced spring precipitation were all associated with earlier breeding. Additionally, we found evidence of males arriving on average before females at the breeding site but no clear and strong effect of the lunar cycle. We only found weak evidence of among-individual variation in shifts in the breeding phenology, as well as a low repeatability of arrival timing. Our findings show that the observed changes in breeding phenology are strongly associated with the environmental conditions. These results contribute to filling a knowledge gap on the effects of climate change on alpine amphibian populations. Moreover, we show that changes in phenology, especially in the mountains, can be hard to predict as local microclimatic conditions do not necessarily reflect the observed global climatic trends.
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