The recent history of an insular bat population reveals an environmental disequilibrium and conservation concerns

IF 0.2 Q4 ZOOLOGY NOVITATES CARIBAEA Pub Date : 2024-01-22 DOI:10.33800/nc.vi23.346
C. Bochaton, Rémi Picard, David Cochard, Valentin Conche, Kevin Lidour, A. Lenoble
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Abstract

With the global pandemic of Covid-19, the putative threats related to the increasing contact between wild animals, including bats, and human populations have been highlighted. Bats are indeed known to carry several zoonoses, but at the same time, many species are currently facing the risk of extinction. In this context, being able to monitor the evolution of bat populations in the long term and predict future potential contact with humans has important implications for conservation and public health. In this study, we attempt to demonstrate the usefulness of a small-scale paleobiological approach to track the evolution of an insular population of Antillean fruit-eating bats (Brachyphylla cavernarum), known to carry zoonoses, by documenting the temporal evolution of a cave roosting site and its approximately 250 000 individuals bat colony. To do so, we conducted a stratigraphic analysis of the sedimentary infilling of the cave, as well as a taphonomic and paleobiological analysis of the bone contents of the sediment. Additionally, we performed a neotaphonomic study of an assemblage of scats produced by cats that had consumed bats on-site. Our results reveal the effects of human-induced environmental disturbances, as well as conservation policies, on the bat colony. They also demonstrate that the roosting site is currently filling at a very fast pace, which may lead to the displacement of the bat colony and increased contact between bats and human populations in the near future. Our research outcomes advocate for a better consideration of retrospective paleobiological data to address conservation questions related to bat populations.
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海岛蝙蝠种群的近代史揭示了环境失衡和保护问题
随着 "Covid-19 "在全球的流行,与野生动物(包括蝙蝠)和人类之间日益增加的接触有关的潜在威胁已经凸显出来。蝙蝠确实携带多种人畜共患病,但与此同时,许多物种目前正面临灭绝的危险。在这种情况下,能够长期监测蝙蝠种群的进化并预测未来可能与人类的接触对保护和公共卫生具有重要意义。在这项研究中,我们试图通过记录一个洞穴栖息地及其约 25 万只蝙蝠群落的时间演变,证明小规模古生物学方法在跟踪已知携带人畜共患病的安的列斯食果蝠(Brachyphylla cavernarum)海岛种群演变方面的实用性。为此,我们对洞穴的沉积填充物进行了地层分析,并对沉积物中的骨骼内容进行了岩石学和古生物学分析。此外,我们还对在现场捕食蝙蝠的猫的粪便组合进行了新动物学研究。我们的研究结果揭示了人为环境干扰和保护政策对蝙蝠群落的影响。研究结果还表明,该蝙蝠栖息地目前正以极快的速度被填平,这可能会导致蝙蝠群的迁移,并在不久的将来增加蝙蝠与人类的接触。我们的研究成果主张更好地考虑回顾性古生物学数据,以解决与蝙蝠种群有关的保护问题。
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来源期刊
自引率
25.00%
发文量
27
审稿时长
12 weeks
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