全球气候变化下生物气候变量的降水和温度时间重新安排

IF 10.8 1区 环境科学与生态学 Q1 BIODIVERSITY CONSERVATION Global Change Biology Pub Date : 2024-09-13 DOI:10.1111/gcb.17496
Ákos Bede-Fazekas, Imelda Somodi
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引用次数: 0

摘要

模拟气候变化如何影响物种和群落的潜在分布通常利用生物气候变量。分布预测依赖于生物气候变量的值(如最潮湿季度的降水量)。然而,大多数这些变量的生态意义在很大程度上取决于特定气候期(SCP)的年内位置,例如一年中最潮湿的季度,而这一点往往被忽视。我们的目标是确定在全球范围内,特定气候期的年内位置将如何随着气候变化而变化(特定气候期变化)。我们计算了未来 SCP 年内位置相对于参照期的偏差。我们使用了四个未来时段、四种情景和四个 CMIP6 全球气候模式(GCMs)来提供有关 SCP 移动的预期集合,并定位移动的空间热点。此外,我们还对 SCP 变化的规模和频率进行了线性建模,以评估影响建模者对时间段、情景和 GCM 决定的重要性。我们发现了大量 SCP 移动超过 2 个月的实例,也预测了 6 个月的移动。预计热带的许多地区都会经历与温度和降水相关的变化,但温带和北极地区也会出现大量与降水相关的变化。赤道地区的综合变化增加了那里出现无模拟气候的可能性。随着时间的推移和情景的变化,这些变化会变得更加明显,而在这方面,全球气候模式的排序并不清晰。对大多数 SCP 而言,建模者对 GCM 的决定最不重要,而对时间段的选择通常比对情景的选择更重要。未来的预测分布模型应考虑 SCP 的变化,并将这一现象纳入建模工作中。
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Precipitation and temperature timings underlying bioclimatic variables rearrange under climate change globally

Modeling how climate change may affect the potential distribution of species and communities typically utilizes bioclimatic variables. Distribution predictions rely on the values of the bioclimatic variable (e.g., precipitation of the wettest quarter). However, the ecological meaning of most of these variables depends strongly on the within-year position of a specific climate period (SCP), for example, the wettest quarter of the year, which is often overlooked. Our aim was to determine how the within-year position of the SCPs would shift (SCP shift) in reaction to climate change in a global context. We calculated the deviations of the future within-year position of the SCPs relative to the reference period. We used four future time periods, four scenarios, and four CMIP6 global climate models (GCMs) to provide an ensemble of expectations regarding SCP shifts and locate the spatial hotspots of the shifts. Also, the size and frequency of the SCP shifts were subjected to linear models to evaluate the importance of the impact modeler's decision on time period, scenario, and GCM. We found ample examples of SCP shifts exceeding 2 months, with 6-month shifts being predicted as well. Many areas in the tropics are expected to experience both temperature and precipitation-related shifts, but precipitation-related shifts are abundantly predicted for the temperate and arctic zones as well. The combined shifts at the Equator reinforce the likelihood of the emergence of no-analogue climates there. The shifts become more pronounced as time and scenario progress, while GCMs could not be ranked in a clear order in this respect. For most SCPs, the modeler's decision on the GCM was the least important, while the choice of time period was typically more important than the choice of scenario. Future predictive distribution models should account for SCP shifts and incorporate the phenomenon in the modeling efforts.

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来源期刊
Global Change Biology
Global Change Biology 环境科学-环境科学
CiteScore
21.50
自引率
5.20%
发文量
497
审稿时长
3.3 months
期刊介绍: Global Change Biology is an environmental change journal committed to shaping the future and addressing the world's most pressing challenges, including sustainability, climate change, environmental protection, food and water safety, and global health. Dedicated to fostering a profound understanding of the impacts of global change on biological systems and offering innovative solutions, the journal publishes a diverse range of content, including primary research articles, technical advances, research reviews, reports, opinions, perspectives, commentaries, and letters. Starting with the 2024 volume, Global Change Biology will transition to an online-only format, enhancing accessibility and contributing to the evolution of scholarly communication.
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