Land Use Change Consistently Reduces α- But Not β- and γ-Diversity of Bees

IF 10.8 1区环境科学与生态学 Q1 BIODIVERSITY CONSERVATION Global Change Biology Pub Date : 2025-01-03 DOI:10.1111/gcb.70006

Toby P. N. Tsang, A. A. Amado De Santis, Gabriela Armas-Quiñonez, John S. Ascher, Eva Samanta Ávila-Gómez, András Báldi, Kimberly M. Ballare, Mario V. Balzan, Weronika Banaszak-Cibicka, Svenja Bänsch, Yves Basset, Adam J. Bates, Jessica M. Baumann, Mariana Beal-Neves, Ashley Bennett, Antonio Diego M. Bezerra, Betina Blochtein, Riccardo Bommarco, Berry Brosi, Laura A. Burkle, Luísa G. Carvalheiro, Ignacio Castellanos, Marcela Cely-Santos, Hamutahl Cohen, Drissa Coulibaly, Saul A. Cunningham, Sarah Cusser, Isabelle Dajoz, Deborah A. Delaney, Ek Del-Val, Monika Egerer, Markus P. Eichhorn, Eunice Enríquez, Martin H. Entling, Natalia Escobedo-Kenefic, Pedro Maria Abreu Ferreira, Gordon Fitch, Jessica R. K. Forrest, Valérie Fournier, Robert Fowler, Breno M. Freitas, Hannah R. Gaines-Day, Benoît Geslin, Jaboury Ghazoul, Paul Glaum, Jose L. Gonzalez-Andujar, Adrian González-Chaves, Heather Grab, Claudio Gratton, Solène Guenat, Catalina Gutiérrez-Chacón, Mark A. Hall, Mick E. Hanley, Annika Hass, Ernest Ireneusz Hennig, Martin Hermy, Juliana Hipólito, Andrea Holzschuh, Sebastian Hopfenmüller, Keng-Lou James Hung, Kristoffer Hylander, Jordi Izquierdo, Mary A. Jamieson, Birgit Jauker, Steve Javorek, Shalene Jha, Björn K. Klatt, David Kleijn, Alexandra-Maria Klein, Anikó Kovács-Hostyánszki, Jochen Krauss, Michael Kuhlmann, Patricia Landaverde-González, Tanya Latty, Misha Leong, Susannah B. Lerman, Yunhui Liu, Ana Carolina Pereira Machado, Anson Main, Rachel Mallinger, Yael Mandelik, Bruno Ferreira Marques, Kevin Matteson, Frédéric McCune, Ling-Zeng Meng, Jean Paul Metzger, Paula María Montoya-Pfeiffer, Carolina Morales, Lora Morandin, Jane Morrison, Sonja Mudri-Stojnić, Pakorn Nalinrachatakan, Olivia Norfolk, Mark Otieno, Mia G. Park, Stacy M. Philpott, Gideon Pisanty, Montserrat Plascencia, Simon G. Potts, Eileen F. Power, Kit Prendergast, Robyn D. Quistberg, Davi de Lacerda Ramos, André Rodrigo Rech, Victoria Reynolds, Miriam H. Richards, Stuart P. M. Roberts, Malena Sabatino, Ulrika Samnegård, Hillary Sardiñas, Karina Sánchez-Echeverría, Fernanda Teixeira Saturni, Jeroen Scheper, Amber R. Sciligo, C. Sheena Sidhu, Brian J. Spiesman, Tuanjit Sritongchuay, Ingolf Steffan-Dewenter, Katharina Stein, Alyssa B. Stewart, Jane C. Stout, Hisatomo Taki, Pornpimon Tangtorwongsakul, Caragh G. Threlfall, Carla Faleiro Tinoco, Teja Tscharntke, Katherine J. Turo, Chatura Vaidya, Rémy Vandame, Carlos H. Vergara, Blandina F. Viana, Eric Vides-Borrell, Natapot Warrit, Elisabeth Webb, Catrin Westphal, Jennifer B. Wickens, Neal M. Williams, Nicholas S. G. Williams, Caleb J. Wilson, Panlong Wu, Elsa Youngsteadt, Yi Zou, Lauren C. Ponisio, Timothy C. Bonebrake

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Gonzalez-Andujar, Adrian González-Chaves, Heather Grab, Claudio Gratton, Solène Guenat, Catalina Gutiérrez-Chacón, Mark A. Hall, Mick E. Hanley, Annika Hass, Ernest Ireneusz Hennig, Martin Hermy, Juliana Hipólito, Andrea Holzschuh, Sebastian Hopfenmüller, Keng-Lou James Hung, Kristoffer Hylander, Jordi Izquierdo, Mary A. Jamieson, Birgit Jauker, Steve Javorek, Shalene Jha, Björn K. Klatt, David Kleijn, Alexandra-Maria Klein, Anikó Kovács-Hostyánszki, Jochen Krauss, Michael Kuhlmann, Patricia Landaverde-González, Tanya Latty, Misha Leong, Susannah B. Lerman, Yunhui Liu, Ana Carolina Pereira Machado, Anson Main, Rachel Mallinger, Yael Mandelik, Bruno Ferreira Marques, Kevin Matteson, Frédéric McCune, Ling-Zeng Meng, Jean Paul Metzger, Paula María Montoya-Pfeiffer, Carolina Morales, Lora Morandin, Jane Morrison, Sonja Mudri-Stojnić, Pakorn Nalinrachatakan, Olivia Norfolk, Mark Otieno, Mia G. Park, Stacy M. Philpott, Gideon Pisanty, Montserrat Plascencia, Simon G. Potts, Eileen F. Power, Kit Prendergast, Robyn D. Quistberg, Davi de Lacerda Ramos, André Rodrigo Rech, Victoria Reynolds, Miriam H. Richards, Stuart P. M. Roberts, Malena Sabatino, Ulrika Samnegård, Hillary Sardiñas, Karina Sánchez-Echeverría, Fernanda Teixeira Saturni, Jeroen Scheper, Amber R. Sciligo, C. Sheena Sidhu, Brian J. Spiesman, Tuanjit Sritongchuay, Ingolf Steffan-Dewenter, Katharina Stein, Alyssa B. Stewart, Jane C. Stout, Hisatomo Taki, Pornpimon Tangtorwongsakul, Caragh G. Threlfall, Carla Faleiro Tinoco, Teja Tscharntke, Katherine J. Turo, Chatura Vaidya, Rémy Vandame, Carlos H. Vergara, Blandina F. Viana, Eric Vides-Borrell, Natapot Warrit, Elisabeth Webb, Catrin Westphal, Jennifer B. Wickens, Neal M. Williams, Nicholas S. G. Williams, Caleb J. Wilson, Panlong Wu, Elsa Youngsteadt, Yi Zou, Lauren C. Ponisio, Timothy C. Bonebrake","doi":"10.1111/gcb.70006","DOIUrl":null,"url":null,"abstract":"<div>\n \n <p>Land use change threatens global biodiversity and compromises ecosystem functions, including pollination and food production. Reduced taxonomic α-diversity is often reported under land use change, yet the impacts could be different at larger spatial scales (i.e., γ-diversity), either due to reduced β-diversity amplifying diversity loss or increased β-diversity dampening diversity loss. Additionally, studies often focus on taxonomic diversity, while other important biodiversity components, including phylogenetic diversity, can exhibit differential responses. Here, we evaluated how agricultural and urban land use alters the taxonomic and phylogenetic α-, β-, and γ-diversity of an important pollinator taxon—bees. Using a multicontinental dataset of 3117 bee assemblages from 157 studies, we found that taxonomic α-diversity was reduced by 16%–18% in both agricultural and urban habitats relative to natural habitats. Phylogenetic α-diversity was decreased by 11%–12% in agricultural and urban habitats. Compared with natural habitats, taxonomic and phylogenetic β-diversity increased by 11% and 6% in urban habitats, respectively, but exhibited no systematic change in agricultural habitats. We detected a 22% decline in taxonomic γ-diversity and a 17% decline in phylogenetic γ-diversity in agricultural habitats, but γ-diversity of urban habitats was not significantly different from natural habitats. These findings highlight the threat of agricultural expansions to large-scale bee diversity due to systematic γ-diversity decline. In addition, while both urbanization and agriculture lead to consistent declines in α-diversity, their impacts on β- or γ-diversity vary, highlighting the need to study the effects of land use change at multiple scales.</p>\n </div>","PeriodicalId":175,"journal":{"name":"Global Change Biology","volume":"31 1","pages":""},"PeriodicalIF":10.8000,"publicationDate":"2025-01-03","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"0","resultStr":null,"platform":"Semanticscholar","paperid":null,"PeriodicalName":"Global Change Biology","FirstCategoryId":"93","ListUrlMain":"https://onlinelibrary.wiley.com/doi/10.1111/gcb.70006","RegionNum":1,"RegionCategory":"环境科学与生态学","ArticlePicture":[],"TitleCN":null,"AbstractTextCN":null,"PMCID":null,"EPubDate":"","PubModel":"","JCR":"Q1","JCRName":"BIODIVERSITY CONSERVATION","Score":null,"Total":0}

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Abstract

Land use change threatens global biodiversity and compromises ecosystem functions, including pollination and food production. Reduced taxonomic α-diversity is often reported under land use change, yet the impacts could be different at larger spatial scales (i.e., γ-diversity), either due to reduced β-diversity amplifying diversity loss or increased β-diversity dampening diversity loss. Additionally, studies often focus on taxonomic diversity, while other important biodiversity components, including phylogenetic diversity, can exhibit differential responses. Here, we evaluated how agricultural and urban land use alters the taxonomic and phylogenetic α-, β-, and γ-diversity of an important pollinator taxon—bees. Using a multicontinental dataset of 3117 bee assemblages from 157 studies, we found that taxonomic α-diversity was reduced by 16%–18% in both agricultural and urban habitats relative to natural habitats. Phylogenetic α-diversity was decreased by 11%–12% in agricultural and urban habitats. Compared with natural habitats, taxonomic and phylogenetic β-diversity increased by 11% and 6% in urban habitats, respectively, but exhibited no systematic change in agricultural habitats. We detected a 22% decline in taxonomic γ-diversity and a 17% decline in phylogenetic γ-diversity in agricultural habitats, but γ-diversity of urban habitats was not significantly different from natural habitats. These findings highlight the threat of agricultural expansions to large-scale bee diversity due to systematic γ-diversity decline. In addition, while both urbanization and agriculture lead to consistent declines in α-diversity, their impacts on β- or γ-diversity vary, highlighting the need to study the effects of land use change at multiple scales.

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土地利用变化持续降低蜜蜂α-多样性，但不降低β-和γ-多样性

土地利用变化威胁到全球生物多样性，损害生态系统功能，包括授粉和粮食生产。在土地利用变化条件下，α-多样性的减少是常见的，但在更大的空间尺度（即γ-多样性）上，α-多样性的减少可能是由于β-多样性的减少放大了多样性的丧失，或者是由于β-多样性的增加抑制了多样性的丧失。此外，研究通常集中在分类多样性上，而其他重要的生物多样性组成部分，包括系统发育多样性，可能表现出差异响应。本文研究了农业和城市土地利用对重要传粉昆虫——蜜蜂的α-、β-和γ-多样性的影响。利用来自157个研究项目的3117个蜜蜂组合的多大陆数据，我们发现农业和城市栖息地的分类α-多样性相对于自然栖息地降低了16%-18%。在农业和城市生境中，系统发育α-多样性下降了11% ~ 12%。与自然生境相比，城市生境的分类和系统发育β-多样性分别增加了11%和6%，而农业生境的β-多样性无系统变化。结果表明，农业生境的γ-多样性下降了22%，系统发育的γ-多样性下降了17%，而城市生境的γ-多样性与自然生境的差异不显著。这些发现强调了农业扩张对大规模蜜蜂多样性的威胁，因为系统性的γ-多样性下降。此外，城市化和农业都导致了α-多样性的持续下降，但它们对β-或γ-多样性的影响是不同的，这表明需要在多个尺度上研究土地利用变化的影响。

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来源期刊

Global Change Biology 环境科学-环境科学

CiteScore

21.50

自引率

5.20%

发文量

497

审稿时长

3.3 months

期刊介绍： Global Change Biology is an environmental change journal committed to shaping the future and addressing the world's most pressing challenges, including sustainability, climate change, environmental protection, food and water safety, and global health. Dedicated to fostering a profound understanding of the impacts of global change on biological systems and offering innovative solutions, the journal publishes a diverse range of content, including primary research articles, technical advances, research reviews, reports, opinions, perspectives, commentaries, and letters. Starting with the 2024 volume, Global Change Biology will transition to an online-only format, enhancing accessibility and contributing to the evolution of scholarly communication.