Great ape abundance and per capita carbon storage in their habitats.

IF 2.3 Q2 ECOLOGY
Prince Degny Vale, Ernest Dadis Bush Fotsing, Samedi Jean Pierre Mucyo, Williams Danladi Abwage, Serge Ely Dibakou, Kouame Paul N'Goran, Tenekwetche Sop, Yntze van der Hoek, Stefanie Heinicke, Lars Kulik, Inza Kone, Hjalmar Kuehl
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Abstract

The ecological importance of great apes is widely recognised, yet few studies have highlighted the role of protecting great apes' habitats in mitigating climate change, particularly through carbon sequestration. This study used GIS tools to extract data from various sources, including the International Union for Conservation of Nature database, to examine carbon quantity and great ape abundance in African great ape habitats. Subsequently, we employed a generalised linear model to assess the relationship between locally measured great ape populations abundance and carbon storage across areas with different levels of protection. Our findings showed a positive relationship between the abundance of great apes in their habitats and carbon storage, likely since conservation efforts in great apes habitats may be strengthened with higher great ape populations. The results reveal that gorilla habitats exhibited higher carbon storage than chimpanzee habitats. Specifically, the areas inhabited by gorillas are associated with a mean increase of 27.47 t/ha in carbon storage. Additionally, we observed a positive association between highly protected areas and carbon storage within great ape habitats. Our model indicates that highly protected areas increase the mean carbon stored by 1.13 t/ha compared to medium protected areas, which show a reduction of 15.49 t/ha. This highlights the critical role that protected areas play in both species conservation and carbon sequestration, contributing significantly to climate mitigation efforts. Furthermore, our study underscores the significant contribution of great ape habitats, extending beyond protected areas, to carbon storage, highlighting the potential for synergistic conservation strategies targeting both great apes and carbon sequestration. Protecting great apes is vital for reducing carbon emissions from deforestation and boosting tropical forest carbon sinks. Since nearly 90% of great apes live outside protected areas, targeted conservation in these low-protected areas is also crucial.

巨猿数量及其栖息地的人均碳储量。
类人猿在生态方面的重要性已得到广泛认可,但很少有研究强调保护类人猿栖息地在减缓气候变化方面的作用,特别是通过碳固存。本研究利用地理信息系统工具从包括国际自然保护联盟数据库在内的各种来源提取数据,研究非洲巨猿栖息地的碳数量和巨猿丰度。随后,我们采用广义线性模型评估了不同保护水平地区当地测量的巨猿种群丰度与碳储量之间的关系。我们的研究结果表明,类人猿栖息地的类人猿种群数量与碳储量之间存在正相关关系,这可能是因为类人猿种群数量越多,类人猿栖息地的保护力度就越大。研究结果显示,大猩猩栖息地的碳储量高于黑猩猩栖息地。具体来说,大猩猩栖息地的碳储量平均增加了 27.47 吨/公顷。此外,我们还观察到,在类人猿栖息地中,高度保护区与碳储量之间存在正相关。我们的模型表明,与中度保护区相比,高度保护区的平均碳储存量增加了 1.13 吨/公顷,而中度保护区则减少了 15.49 吨/公顷。这凸显了保护区在物种保护和碳封存方面发挥的关键作用,为减缓气候变化做出了重要贡献。此外,我们的研究还强调了类人猿栖息地对碳封存的重要贡献,其范围超出了保护区,突出了针对类人猿和碳封存的协同保护战略的潜力。保护类人猿对于减少毁林造成的碳排放和增加热带森林碳汇至关重要。由于近 90% 的类人猿生活在保护区之外,因此在这些低保护区进行有针对性的保护也至关重要。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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