Climate, food and humans predict communities of mammals in the United States

IF 4.6 2区 环境科学与生态学 Q1 BIODIVERSITY CONSERVATION Diversity and Distributions Pub Date : 2024-06-27 DOI:10.1111/ddi.13900
Roland Kays, Matthew H. Snider, George Hess, Michael V. Cove, Alex Jensen, Hila Shamon, William J. McShea, Brigit Rooney, Maximilian L. Allen, Charles E. Pekins, Christopher C. Wilmers, Mary E. Pendergast, Austin M. Green, Justin Suraci, Matthew S. Leslie, Sophie Nasrallah, Dan Farkas, Mark Jordan, Melissa Grigione, Michael C. LaScaleia, Miranda L. Davis, Chris Hansen, Josh Millspaugh, Jesse S. Lewis, Michael Havrda, Robert Long, Kathryn R. Remine, Kodi J. Jaspers, Diana J. R. Lafferty, Tru Hubbard, Colin E. Studds, Erika L. Barthelmess, Katherine Andy, Andrea Romero, Brian J. O'Neill, Melissa T. R. Hawkins, Jason V. Lombardi, Maksim Sergeyev, M. Caitlin Fisher-Reid, Michael S. Rentz, Christopher Nagy, Jon M. Davenport, Christine C. Rega-Brodsky, Cara L. Appel, Damon B. Lesmeister, Sean T. Giery, Christopher A. Whittier, Jesse M. Alston, Chris Sutherland, Christopher Rota, Thomas Murphy, Thomas E. Lee Jr., Alessio Mortelliti, Dylan L. Bergman, Justin A. Compton, Brian D. Gerber, Jess Burr, Kylie Rezendes, Brett A. DeGregorio, Nathaniel H. Wehr, John F. Benson, M. Teague O'Mara, David S. Jachowski, Morgan Gray, Dean E. Beyer Jr., Jerrold L. Belant, Robert V. Horan III, Robert C. Lonsinger, Kellie M. Kuhn, Steven C. M. Hasstedt, Marketa Zimova, Sophie M. Moore, Daniel J. Herrera, Sarah Fritts, Andrew J. Edelman, Elizabeth A. Flaherty, Tyler R. Petroelje, Sean A. Neiswenter, Derek R. Risch, Fabiola Iannarilli, Marius van der Merwe, Sean P. Maher, Zach J. Farris, Stephen L. Webb, David S. Mason, Marcus A. Lashley, Andrew M. Wilson, John P. Vanek, Samuel R. Wehr, L. Mike Conner, James C. Beasley, Helen L. Bontrager, Carolina Baruzzi, Susan N. Ellis-Felege, Mike D. Proctor, Jan Schipper, Katherine C. B. Weiss, Andrea K. Darracq, Evan G. Barr, Peter D. Alexander, Çağan H. Şekercioğlu, Daniel A. Bogan, Christopher M. Schalk, Jean E. Fantle-Lepczyk, Christopher A. Lepczyk, Scott LaPoint, Laura S. Whipple, Helen Ivy Rowe, Kayleigh Mullen, Tori Bird, Adam Zorn, LaRoy Brandt, Richard G. Lathrop, Craig McCain, Anthony P. Crupi, James Clark, Arielle Parsons
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Rentz,&nbsp;Christopher Nagy,&nbsp;Jon M. Davenport,&nbsp;Christine C. Rega-Brodsky,&nbsp;Cara L. Appel,&nbsp;Damon B. Lesmeister,&nbsp;Sean T. Giery,&nbsp;Christopher A. Whittier,&nbsp;Jesse M. Alston,&nbsp;Chris Sutherland,&nbsp;Christopher Rota,&nbsp;Thomas Murphy,&nbsp;Thomas E. Lee Jr.,&nbsp;Alessio Mortelliti,&nbsp;Dylan L. Bergman,&nbsp;Justin A. Compton,&nbsp;Brian D. Gerber,&nbsp;Jess Burr,&nbsp;Kylie Rezendes,&nbsp;Brett A. DeGregorio,&nbsp;Nathaniel H. Wehr,&nbsp;John F. Benson,&nbsp;M. Teague O'Mara,&nbsp;David S. Jachowski,&nbsp;Morgan Gray,&nbsp;Dean E. Beyer Jr.,&nbsp;Jerrold L. Belant,&nbsp;Robert V. Horan III,&nbsp;Robert C. Lonsinger,&nbsp;Kellie M. Kuhn,&nbsp;Steven C. M. Hasstedt,&nbsp;Marketa Zimova,&nbsp;Sophie M. Moore,&nbsp;Daniel J. Herrera,&nbsp;Sarah Fritts,&nbsp;Andrew J. Edelman,&nbsp;Elizabeth A. Flaherty,&nbsp;Tyler R. Petroelje,&nbsp;Sean A. Neiswenter,&nbsp;Derek R. Risch,&nbsp;Fabiola Iannarilli,&nbsp;Marius van der Merwe,&nbsp;Sean P. Maher,&nbsp;Zach J. Farris,&nbsp;Stephen L. Webb,&nbsp;David S. Mason,&nbsp;Marcus A. Lashley,&nbsp;Andrew M. Wilson,&nbsp;John P. Vanek,&nbsp;Samuel R. Wehr,&nbsp;L. Mike Conner,&nbsp;James C. Beasley,&nbsp;Helen L. Bontrager,&nbsp;Carolina Baruzzi,&nbsp;Susan N. Ellis-Felege,&nbsp;Mike D. Proctor,&nbsp;Jan Schipper,&nbsp;Katherine C. B. Weiss,&nbsp;Andrea K. Darracq,&nbsp;Evan G. Barr,&nbsp;Peter D. Alexander,&nbsp;Çağan H. Şekercioğlu,&nbsp;Daniel A. Bogan,&nbsp;Christopher M. Schalk,&nbsp;Jean E. Fantle-Lepczyk,&nbsp;Christopher A. Lepczyk,&nbsp;Scott LaPoint,&nbsp;Laura S. Whipple,&nbsp;Helen Ivy Rowe,&nbsp;Kayleigh Mullen,&nbsp;Tori Bird,&nbsp;Adam Zorn,&nbsp;LaRoy Brandt,&nbsp;Richard G. Lathrop,&nbsp;Craig McCain,&nbsp;Anthony P. Crupi,&nbsp;James Clark,&nbsp;Arielle Parsons","doi":"10.1111/ddi.13900","DOIUrl":null,"url":null,"abstract":"<div>\n \n \n <section>\n \n <h3> Aim</h3>\n \n <p>The assembly of species into communities and ecoregions is the result of interacting factors that affect plant and animal distribution and abundance at biogeographic scales. Here, we empirically derive ecoregions for mammals to test whether human disturbance has become more important than climate and habitat resources in structuring communities.</p>\n </section>\n \n <section>\n \n <h3> Location</h3>\n \n <p>Conterminous United States.</p>\n </section>\n \n <section>\n \n <h3> Time Period</h3>\n \n <p>2010–2021.</p>\n </section>\n \n <section>\n \n <h3> Major Taxa Studied</h3>\n \n <p>Twenty-five species of mammals.</p>\n </section>\n \n <section>\n \n <h3> Methods</h3>\n \n <p>We analysed data from 25 mammal species recorded by camera traps at 6645 locations across the conterminous United States in a joint modelling framework to estimate relative abundance of each species. We then used a clustering analysis to describe 8 broad and 16 narrow mammal communities.</p>\n </section>\n \n <section>\n \n <h3> Results</h3>\n \n <p>Climate was the most important predictor of mammal abundance overall, while human population density and agriculture were less important, with mixed effects across species. Seed production by forests also predicted mammal abundance, especially hard-mast tree species. The mammal community maps are similar to those of plants, with an east–west split driven by different dominant species of deer and squirrels. Communities vary along gradients of temperature in the east and precipitation in the west. Most fine-scale mammal community boundaries aligned with established plant ecoregions and were distinguished by the presence of regional specialists or shifts in relative abundance of widespread species. Maps of potential ecosystem services provided by these communities suggest high herbivory in the Rocky Mountains and eastern forests, high invertebrate predation in the subtropical south and greater predation pressure on large vertebrates in the west.</p>\n </section>\n \n <section>\n \n <h3> Main Conclusions</h3>\n \n <p>Our results highlight the importance of climate to modern mammals and suggest that climate change will have strong impacts on these communities. Our new empirical approach to recognizing ecoregions has potential to be applied to expanded communities of mammals or other taxa.</p>\n </section>\n </div>","PeriodicalId":51018,"journal":{"name":"Diversity and Distributions","volume":"30 9","pages":""},"PeriodicalIF":4.6000,"publicationDate":"2024-06-27","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"https://onlinelibrary.wiley.com/doi/epdf/10.1111/ddi.13900","citationCount":"0","resultStr":null,"platform":"Semanticscholar","paperid":null,"PeriodicalName":"Diversity and Distributions","FirstCategoryId":"93","ListUrlMain":"https://onlinelibrary.wiley.com/doi/10.1111/ddi.13900","RegionNum":2,"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}
引用次数: 0

Abstract

Aim

The assembly of species into communities and ecoregions is the result of interacting factors that affect plant and animal distribution and abundance at biogeographic scales. Here, we empirically derive ecoregions for mammals to test whether human disturbance has become more important than climate and habitat resources in structuring communities.

Location

Conterminous United States.

Time Period

2010–2021.

Major Taxa Studied

Twenty-five species of mammals.

Methods

We analysed data from 25 mammal species recorded by camera traps at 6645 locations across the conterminous United States in a joint modelling framework to estimate relative abundance of each species. We then used a clustering analysis to describe 8 broad and 16 narrow mammal communities.

Results

Climate was the most important predictor of mammal abundance overall, while human population density and agriculture were less important, with mixed effects across species. Seed production by forests also predicted mammal abundance, especially hard-mast tree species. The mammal community maps are similar to those of plants, with an east–west split driven by different dominant species of deer and squirrels. Communities vary along gradients of temperature in the east and precipitation in the west. Most fine-scale mammal community boundaries aligned with established plant ecoregions and were distinguished by the presence of regional specialists or shifts in relative abundance of widespread species. Maps of potential ecosystem services provided by these communities suggest high herbivory in the Rocky Mountains and eastern forests, high invertebrate predation in the subtropical south and greater predation pressure on large vertebrates in the west.

Main Conclusions

Our results highlight the importance of climate to modern mammals and suggest that climate change will have strong impacts on these communities. Our new empirical approach to recognizing ecoregions has potential to be applied to expanded communities of mammals or other taxa.

Abstract Image

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气候、食物和人类对美国哺乳动物群落的预测
目的物种组合成群落和生态区域是生物地理尺度上影响动植物分布和丰度的相互作用因素的结果。在此,我们根据经验推导出哺乳动物的生态区,以检验在群落结构中,人类干扰是否已变得比气候和栖息地资源更重要。方法我们在联合建模框架中分析了在美国大陆 6645 个地点用相机陷阱记录的 25 种哺乳动物的数据,以估计每个物种的相对丰度。结果气候是预测哺乳动物丰度的最重要因素,而人口密度和农业对哺乳动物丰度的影响较小,对不同物种的影响不一。森林的种子生产也能预测哺乳动物的数量,尤其是硬桅树种。哺乳动物群落分布图与植物群落分布图相似,鹿和松鼠的优势物种不同,造成了东西向的分化。群落沿着东部的温度梯度和西部的降水梯度而变化。大多数精细尺度的哺乳动物群落边界与已建立的植物生态区域一致,并通过区域性专有物种的存在或广泛分布物种相对丰度的变化加以区分。这些群落提供的潜在生态系统服务图表明,落基山脉和东部森林的食草量大、亚热带南部的无脊椎动物捕食量大、西部的大型脊椎动物捕食压力大。我们采用新的经验方法来识别生态区,这种方法有可能应用于哺乳动物或其他类群的扩大群落。
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来源期刊
Diversity and Distributions
Diversity and Distributions 环境科学-生态学
CiteScore
8.90
自引率
4.30%
发文量
195
审稿时长
8-16 weeks
期刊介绍: Diversity and Distributions is a journal of conservation biogeography. We publish papers that deal with the application of biogeographical principles, theories, and analyses (being those concerned with the distributional dynamics of taxa and assemblages) to problems concerning the conservation of biodiversity. We no longer consider papers the sole aim of which is to describe or analyze patterns of biodiversity or to elucidate processes that generate biodiversity.
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