Villaseñor-Amador Damián, Benites Pilar, Sandoval-Becerra Fatima M, Rosas-Mejía Madai, Zaldívar-Riverón Alejandro, Janda Milan
Deparment of Zoology, Faculty of Science, Palacky University, Olomouc, Czech Republic.
Conservación de Anfibios A.C., Puebla, Mexico.
PLoS One. 2025 Jul 17;20(7):e0327884. doi: 10.1371/journal.pone.0327884. eCollection 2025.
The transition zone between the Nearctic and Neotropical biogeographic regions is one of the most species-rich areas of North America, known as the Mexican Transition Zone. We sampled mobile insects along a 2000 m elevational gradient for 13 months using flight interception traps (Malaise) to evaluate their diversity, community structure and environmental factors linked to their distribution. We identified 3091 Molecular Operational Taxonomical Units (560 ± 199 SD per trap), out of which 513 were identified to genus and 197 to species. Our results show high turnover at both species and genus levels across the elevational gradient. Elevational diversity patterns varied across taxa: Coleoptera and Lepidoptera showed their highest diversity at mid-elevations, while Diptera and Hymenoptera had increased diversity with elevation. Temperature and vegetation composition best explained the spatial fluctuations of insect diversity. Our work represents the most comprehensive survey of insect communities in the region to date. By combining a long-term survey with high-throughput metabarcoding, this study provides an overview of regional diversity and establishes a foundation for detailed follow-up studies.
新北界和新热带界生物地理区域之间的过渡地带是北美物种最丰富的地区之一,被称为墨西哥过渡地带。我们使用飞行拦截陷阱(马氏网)沿着2000米的海拔梯度对活动昆虫进行了为期13个月的采样,以评估它们的多样性、群落结构以及与它们分布相关的环境因素。我们识别出3091个分子操作分类单元(每个陷阱560±199标准差),其中513个被鉴定到属,197个被鉴定到种。我们的结果表明,在整个海拔梯度上,物种和属水平都有很高的更替率。海拔多样性模式因分类群而异:鞘翅目和鳞翅目在中等海拔处表现出最高的多样性,而双翅目和膜翅目则随着海拔升高多样性增加。温度和植被组成最能解释昆虫多样性的空间波动。我们的工作是该地区迄今为止对昆虫群落最全面的调查。通过将长期调查与高通量代谢条形码相结合,本研究提供了区域多样性的概述,并为详细的后续研究奠定了基础。
