Miguel Briones-Salas, Gabriela E. Medina-Cruz, Cintia Natalia Martin-Regalado
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To assess the degree of total differentiation and components of bat turnover and nestedness between sites, we calculated the β taxonomic, functional, and phylogenetic diversities. A total of 33 bat species were recorded. The highest taxonomic and functional diversity was observed in the Center of Oaxaca (the site with the highest level of urbanization). In contrast, the highest phylogenetic diversity was found in the West (the site with the lowest level of urbanization). The total β taxonomic diversity was higher than the functional and phylogenetic diversity. Regarding the contributions of turnover and nestedness, turnover made a more significant contribution than nestedness to the taxonomic and phylogenetic β diversity. In contrast, functional nestedness contributed more to the functional β diversity than turnover. Tadarida brasiliensis, Desmodus rotundus, Sturnira hondurensis, and S. parvidens were recorded in all three urbanization conditions. In the most urbanized site, four Myotis species were recorded: M. fortidens, M. keaysi, M. thysanodes, and M. velifer. We suggest that the analysis of different dimensions of diversity is essential and should be considered to strengthen conservation strategies; moreover, we suggest the preservation of native vegetation mosaics and water bodies within the city to maintain bat diversity.","PeriodicalId":501149,"journal":{"name":"Diversity","volume":"13 1","pages":""},"PeriodicalIF":0.0000,"publicationDate":"2024-09-01","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"0","resultStr":"{\"title\":\"Taxonomic, Functional, and Phylogenetic Diversity of Bats in Urban and Suburban Environments in Southern México\",\"authors\":\"Miguel Briones-Salas, Gabriela E. 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To assess the degree of total differentiation and components of bat turnover and nestedness between sites, we calculated the β taxonomic, functional, and phylogenetic diversities. A total of 33 bat species were recorded. The highest taxonomic and functional diversity was observed in the Center of Oaxaca (the site with the highest level of urbanization). In contrast, the highest phylogenetic diversity was found in the West (the site with the lowest level of urbanization). The total β taxonomic diversity was higher than the functional and phylogenetic diversity. Regarding the contributions of turnover and nestedness, turnover made a more significant contribution than nestedness to the taxonomic and phylogenetic β diversity. In contrast, functional nestedness contributed more to the functional β diversity than turnover. Tadarida brasiliensis, Desmodus rotundus, Sturnira hondurensis, and S. parvidens were recorded in all three urbanization conditions. In the most urbanized site, four Myotis species were recorded: M. fortidens, M. keaysi, M. thysanodes, and M. velifer. 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引用次数: 0
摘要
城市化是栖息地丧失的主要原因之一,近年来热带地区的城市化程度显著增加,导致物种、其生态功能和进化历史的丧失。为了确定城市化对城市和郊区环境中蝙蝠群落多样性的影响,我们分析了墨西哥南部一个快速扩张的城市(瓦哈卡市)周围沿城市化梯度的四个地点的α和β分类、功能和系统发育多样性。我们使用雾网和声学监测等传统技术记录蝙蝠。我们计算了四个不同城市化条件地点的蝙蝠多样性:城市(1)、郊区(1)和农村(2)。为了评估不同地点之间蝙蝠更替和嵌套的总体分化程度和组成部分,我们计算了β分类、功能和系统发育多样性。共记录了 33 种蝙蝠。瓦哈卡中心(城市化程度最高的地点)的分类和功能多样性最高。相比之下,西部(城市化水平最低的地区)的系统发育多样性最高。总的β分类多样性高于功能多样性和系统发育多样性。就更替和嵌套度的贡献而言,更替比嵌套度对分类学和系统发生学 β 多样性的贡献更大。相比之下,功能嵌套性对功能β多样性的贡献大于周转率。在所有三种城市化条件下,都记录到了 Tadarida brasiliensis、Desmodus rotundus、Sturnira hondurensis 和 S. parvidens。在城市化程度最高的地点,记录到四种麝类:M. fortidens、M. keaysi、M. thysanodes 和 M. velifer。我们建议,对多样性的不同维度进行分析至关重要,应考虑加强保护策略;此外,我们还建议保护城市中的原生植被和水体,以保持蝙蝠的多样性。
Taxonomic, Functional, and Phylogenetic Diversity of Bats in Urban and Suburban Environments in Southern México
Urbanization is one of the leading causes of habitat loss, which has increased significantly in tropical regions in recent years, leading to the loss of species, their ecological functions, and evolutionary history. To determine the effect of urbanization on the diversity of bat communities in urban and suburban environments, we analyzed the α and β taxonomic, functional, and phylogenetic diversities at four sites along urbanization gradients surrounding a rapidly expanding city (Oaxaca City) in southern Mexico. We recorded bats using conventional techniques such as mist nets and acoustic monitoring. We calculated the diversity of bats in four sites with different urbanization conditions: urban (1), suburban (1), and rural (2). To assess the degree of total differentiation and components of bat turnover and nestedness between sites, we calculated the β taxonomic, functional, and phylogenetic diversities. A total of 33 bat species were recorded. The highest taxonomic and functional diversity was observed in the Center of Oaxaca (the site with the highest level of urbanization). In contrast, the highest phylogenetic diversity was found in the West (the site with the lowest level of urbanization). The total β taxonomic diversity was higher than the functional and phylogenetic diversity. Regarding the contributions of turnover and nestedness, turnover made a more significant contribution than nestedness to the taxonomic and phylogenetic β diversity. In contrast, functional nestedness contributed more to the functional β diversity than turnover. Tadarida brasiliensis, Desmodus rotundus, Sturnira hondurensis, and S. parvidens were recorded in all three urbanization conditions. In the most urbanized site, four Myotis species were recorded: M. fortidens, M. keaysi, M. thysanodes, and M. velifer. We suggest that the analysis of different dimensions of diversity is essential and should be considered to strengthen conservation strategies; moreover, we suggest the preservation of native vegetation mosaics and water bodies within the city to maintain bat diversity.