气候变化减少和转移了Uapaca kirkiana m的适宜栖息地。参数。到马拉维的高海拔地区

IF 2.9 Q1 FORESTRY

Trees, Forests and People Pub Date : 2025-05-17 DOI:10.1016/j.tfp.2025.100884

Bruno Kokouvi Kokou , Msiska Ulemu , Wouyo Atakpama , Séverin Biaou , Soloum Clément Teteli , Kouagou Raoul Sambieni , Frank Mnthambala , Tembo Mavuto , Paul Munyenyembe , Florent Noulèkoun

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引用次数: 0

摘要

预计气候变化将影响全球物种的分布。了解这些变化如何影响物种分布对于设计保护策略和可持续管理方法至关重要。Uapaca kirkiana m。参数。在马拉维具有重要的生态和社会经济意义，但在其自然栖息地受到高度威胁。我们调查了气候变化对马拉维kirkiana生态位的影响，并确定了适合其保护和种植的栖息地和优先栖息地。利用最大熵（MaxEnt）算法，基于21个环境变量和480个物种的出现，对物种的当前和未来分布进行了建模。利用zoning软件进行生境优先排序。我们的研究结果表明，只有与温度相关的变量，包括等温（15%的贡献），最冷季度的平均温度（12%），最干燥季度的平均温度（10%）和最温暖月份的最高温度（8%）决定了kirkiana的当前分布。总体而言，马拉维9.29%的地区预测为高度适宜kirkiana发生，17.39%为中等适宜，25.20%为不适宜。预计到2055年，在未来的气候情景下，这一适宜栖息地的比例将分别从当前条件下的9.29%下降到SSP3-7.0情景下的8.01%和SSP5-8.5情景下的6.21%。kirkiana的保护和培育重点地区主要位于北部（21%）和中部（13%）地区。我们的研究结果表明，气候变化将导致物种适宜栖息地的减少，并沿着南北梯度向高海拔地区转移。我们的研究进一步强调了将气候变化预测纳入物种保护规划的迫切需要。有效的保护和可持续性工作应优先考虑北部和中部地区的适宜栖息地。

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Climate change reduces and shifts suitable habitats of Uapaca kirkiana Müll. Arg. to higher altitudes in Malawi

Climate change is expected to affect the distribution of species worldwide. Understanding how these changes impact species distribution is essential for designing conservation strategies and sustainable management approaches. Uapaca kirkiana Müll. Arg. holds significant ecological and socio-economic importance in Malawi but is highly threatened in its natural habitat. We investigated the impact of climate change on the ecological niche of U. kirkiana and identify both suitable and priority habitats for its conservation and cultivation in Malawi. The maximum entropy (MaxEnt) algorithm was used to model the current and future distribution of the species based on 21 environmental variables and 480 species occurrences. Habitat prioritization was performed using Zonation software. Our results showed that only temperature-related variables including isothermality (percent contribution of 15 %), mean temperature of the coldest quarter (12 %), mean temperature of the driest quarter (10 %), and maximum temperature of the warmest month (8 %) determined the current distribution of U. kirkiana. Overall, 9.29 % of Malawi was predicted as highly suitable for U. kirkiana occurrence, 17.39 % moderately suitable and 25.20 % poorly suitable. This suitable habitat is projected to decrease in the future climate scenarios, from 9.29 % under the current conditions to 8.01 % under the SSP3-7.0 scenario and to 6.21 % under the SSP5-8.5, respectively, by 2055. Priority areas for the conservation and cultivation of U. kirkiana were mainly located in the northern (21 %) and central (13 %) regions. Our findings suggest that climate change will lead to a reduction in the species' suitable habitat and a shift along the South-North gradient toward higher elevations. Our study further highlights the urgent need to incorporate climate change projections into conservation planning for the species. Effective conservation and sustainability efforts should prioritize suitable habitats in the northern and central regions.

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