昆虫多代迁徙的时空生态位模拟

M. Menchetti, M. Guéguen, Gerard Talavera
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引用次数: 28

摘要

对迁徙动物的生态位进行建模除了需要考虑空间之外,还需要考虑时间维度。在这里,我们介绍了一种方法来模拟多代迁徙昆虫使用时间划分的环境变量(按月和年)和时间和行为划分的记录(繁殖记录来模拟生殖栖息地)。基于36年的数据(来自30个国家的646个繁殖地),我们将这种方法应用于绘制彩蝶(Vanessa cardui)的古北-非洲迁徙周期模型。每个繁殖记录都与特定的时间(月份和年份)相关联,生物气候变量的相关值用于集合建模策略,最终获得月度预测。结果显示,在整个范围内,物种的后代有义务迁移,主要是纬度迁移,只有分散的地方显示出全年繁殖的高概率。据估计,古北非洲候鸟的最南端繁殖区从12月到次年2月到达赤道纬度。因此,我们提出了冬季“失踪世代”的潜在分布,这将扩大V. cardui的迁徙周期,从欧洲最北端到赤道非洲,覆盖纬度约15,000公里。在夏季,欧洲是卡杜氏弧菌的主要临时资源,而1月和2月的总体适宜性值最低,可能是该物种遭受年度瓶颈的最脆弱时期。总之,我们证明了所提出的生态位建模策略在研究昆虫迁徙运动方面的潜力。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Spatio-temporal ecological niche modelling of multigenerational insect migrations
Modelling ecological niches of migratory animals requires incorporating a temporal dimension, in addition to space. Here, we introduce an approach to model multigenerational migratory insects using time-partitioned environmental variables (by months and years) and time- and behaviour-partitioned records (breeding records to model reproductive habitat). We apply this methodology to modelling the Palearctic-African migratory cycle of the Painted Lady butterfly (Vanessa cardui), based on data encompassing 36 years (646 breeding sites from 30 countries). Each breeding record is linked to a particular time (month and year), and the associated values of the bioclimatic variables are used for an ensemble modelling strategy, to finally obtain monthly projections. The results show obligated movements, mostly latitudinal, for the species' successive generations across the overall range, and only scattered locations show high probabilities of reproduction year-round. The southernmost reproductive areas estimated for the Palearctic-African migratory pool reach equatorial latitudes from December to February. We thus propose a potential distribution for the winter ‘missing generations' that would expand the V. cardui migration cycle to encompass about 15 000 km in latitude, from northernmost Europe to equatorial Africa. In summer, Europe represents the major temporary resource for V. cardui, while January and February show the lowest overall suitability values, and they are potentially the most vulnerable period for the species to suffer yearly bottlenecks. In summary, we demonstrate the potential of the proposed niche modelling strategy to investigate migratory movements of insects.
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