Synergizing climate dynamics, species distribution, and structural parameters for sustainable management of Pseudrocedrela kotschyi in Benin (West Africa)

IF 3.5 2区 环境科学与生态学 Q1 BIODIVERSITY CONSERVATION Global Ecology and Conservation Pub Date : 2024-11-20 DOI:10.1016/j.gecco.2024.e03322
Tonankpon Aymar Guy Deguenonvo , Dowo Michée Adjacou , Rodrigue Idohou , Reine Sodedja , Florent Eudes Dagbédji Sobakin , Thierry Dehouegnon Houehanou , Gérard Nounagnon Gouwakinnou , Armand Kuyema Natta
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Abstract

Climate change poses significant threats to biodiversity, profoundly impacting plant species. Pseudocedrela kotschyi, a vital component of tropical ecosystems is experiencing severe population decline due to habitat degradation and regeneration issues. Understanding how climate change exacerbates these problems combined with assessment of its structural parameters is essential for developing conservation strategies and ensuring the survival of this species. Occurrence records and bioclimatic data were utilized for niche modeling. Additionally, forest inventories were conducted across various habitats of the species in Benin, to characterize the structural parameters of its populations. An ecological niche modeling approaches was used to depict niche differentiation among subpopulations of Pseudocedrela kotschyi and assess the climate change impacts on the sepecies in Benin. The Maximum Entropy Algorithm (MaxEnt) was used to simulate the species’ current and future distributions under different shared socio-economic pathway (SSP) climate scenarios. Three distinct populations of the species were identified. The populations exhibited no niche overlap among subpopulations indicating local adaptation. In non-protected areas, P. kotschyi individuals tend to be smaller in size. This trend is particularly pronounced in the Sudano-Guinean zone, where protected habitats benefit from a higher monthly thermal amplitude. In contrast, in the Guineo-Congolian zone, both protected and unprotected habitats are influenced by the minimum temperature of the coldest month and the mean annual temperature, leading to higher densities of regeneration and adults of P. kotschyi. In the Sudanian zone, regardless of the protection status, higher annual rainfall supports larger mean diameters for P. kotschyi and its population. This study underscores the importance of preserving the species' habitats, regulating potentially harmful human activities, and incorporating future climate forecasts into management plans to ensure the sustainable conservation of P. kotschyi.
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协同气候动态、物种分布和结构参数,促进贝宁(西非)Pseudrocedrela kotschyi 的可持续管理
气候变化对生物多样性构成重大威胁,对植物物种产生深远影响。Pseudocedrela kotschyi 是热带生态系统的重要组成部分,由于栖息地退化和再生问题,其数量正在严重下降。了解气候变化如何加剧这些问题,并结合对其结构参数的评估,对于制定保护战略和确保该物种的生存至关重要。我们利用出现记录和生物气候数据建立了生态位模型。此外,还对该物种在贝宁的不同栖息地进行了森林调查,以确定其种群的结构参数。生态位建模方法用于描述 Pseudocedrela kotschyi 亚种群之间的生态位分化,并评估气候变化对贝宁该物种的影响。最大熵算法(MaxEnt)被用来模拟该物种在不同的共享社会经济路径(SSP)气候情景下的当前和未来分布。确定了该物种的三个不同种群。这些种群的亚种群之间没有生态位重叠,表明它们具有局部适应性。在非保护区,P. kotschyi 的个体往往较小。这一趋势在苏丹-几内亚地区尤为明显,该地区受保护的栖息地受益于较高的月热振幅。相反,在几内亚-刚果地区,受保护和未受保护的栖息地都会受到最冷月最低气温和年平均气温的影响,导致 P. kotschyi 的再生和成虫密度较高。在苏丹地区,无论保护状况如何,年降雨量越高,P. kotschyi 及其种群的平均直径越大。这项研究强调了保护该物种栖息地、控制潜在有害人类活动以及将未来气候预测纳入管理计划以确保可持续保护 P. kotschyi 的重要性。
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来源期刊
Global Ecology and Conservation
Global Ecology and Conservation Agricultural and Biological Sciences-Ecology, Evolution, Behavior and Systematics
CiteScore
8.10
自引率
5.00%
发文量
346
审稿时长
83 days
期刊介绍: Global Ecology and Conservation is a peer-reviewed, open-access journal covering all sub-disciplines of ecological and conservation science: from theory to practice, from molecules to ecosystems, from regional to global. The fields covered include: organismal, population, community, and ecosystem ecology; physiological, evolutionary, and behavioral ecology; and conservation science.
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