Anna L. Hargreaves, John Ensing, Olivia Rahn, Fernanda M. P. Oliveira, Jérôme Burkiewicz, Joëlle Lafond, Sybille Haeussler, M. Brooke Byerley-Best, Kira Lazda, Heather L. Slinn, Ella Martin, Matthew L. Carlson, Todd L. Sformo, Emma Dawson-Glass, Mariana C. Chiuffo, Yalma L. Vargas-Rodriguez, Carlos I. García-Jiménez, Inácio J. M. T. Gomes, Sandra Klemet-N’Guessan, Lucas Paolucci, Simon Joly, Klaus Mehltreter, Jenny Muñoz, Carmela Buono, Jedediah F. Brodie, Antonio Rodriguez-Campbell, Thor Veen, Benjamin G. Freeman, Julie A. Lee-Yaw, Juan Camilo Muñoz, Alexandra Paquette, Jennifer Butler, Esteban Suaréz
{"title":"城市化环境中种子捕食的纬度梯度持续存在","authors":"Anna L. Hargreaves, John Ensing, Olivia Rahn, Fernanda M. P. Oliveira, Jérôme Burkiewicz, Joëlle Lafond, Sybille Haeussler, M. Brooke Byerley-Best, Kira Lazda, Heather L. Slinn, Ella Martin, Matthew L. Carlson, Todd L. Sformo, Emma Dawson-Glass, Mariana C. Chiuffo, Yalma L. Vargas-Rodriguez, Carlos I. García-Jiménez, Inácio J. M. T. Gomes, Sandra Klemet-N’Guessan, Lucas Paolucci, Simon Joly, Klaus Mehltreter, Jenny Muñoz, Carmela Buono, Jedediah F. Brodie, Antonio Rodriguez-Campbell, Thor Veen, Benjamin G. Freeman, Julie A. Lee-Yaw, Juan Camilo Muñoz, Alexandra Paquette, Jennifer Butler, Esteban Suaréz","doi":"10.1038/s41559-024-02504-7","DOIUrl":null,"url":null,"abstract":"Urbanization is creating a new global biome, in which cities and suburbs around the world often resemble each other more than the local natural areas they replaced. But while urbanization can profoundly affect ecology at local scales, we know little about whether it disrupts large-scale ecological patterns. Here we test whether urbanization disrupts a macroecological pattern central to ecological and evolutionary theory: the increase in seed predation intensity from high to low latitudes. Across 14,000 km of latitude spanning the Americas, we compared predation intensity on two species of standardized experimental seeds in urbanized and natural areas. In natural areas, predation on both seed species increased fivefold from high latitudes to the tropics, one of the strongest latitudinal gradients in species interactions documented so far. Surprisingly, latitudinal gradients in predation were equally strong in urbanized areas despite significant habitat modification. Nevertheless, urbanization did affect seed predation. Compared with natural areas, urbanization reduced overall predation and vertebrate predation, did not affect predation by invertebrates in general, and increased predation by ants. Our results show that macroecological patterns in predation intensity can persist in urbanized environments, even as urbanization alters the relative importance of predators and potentially the evolutionary trajectory of urban populations. Seed predation increases from the Arctic to the tropics, but it is unknown whether urbanization disrupts this latitudinal pattern. An experimental study conducted across the Americas shows that the latitudinal gradient in predation holds in urban areas, even though total seed predation is reduced.","PeriodicalId":18835,"journal":{"name":"Nature ecology & evolution","volume":"8 10","pages":"1897-1906"},"PeriodicalIF":13.9000,"publicationDate":"2024-09-05","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"0","resultStr":"{\"title\":\"Latitudinal gradients in seed predation persist in urbanized environments\",\"authors\":\"Anna L. Hargreaves, John Ensing, Olivia Rahn, Fernanda M. P. Oliveira, Jérôme Burkiewicz, Joëlle Lafond, Sybille Haeussler, M. Brooke Byerley-Best, Kira Lazda, Heather L. Slinn, Ella Martin, Matthew L. Carlson, Todd L. Sformo, Emma Dawson-Glass, Mariana C. Chiuffo, Yalma L. Vargas-Rodriguez, Carlos I. García-Jiménez, Inácio J. M. T. Gomes, Sandra Klemet-N’Guessan, Lucas Paolucci, Simon Joly, Klaus Mehltreter, Jenny Muñoz, Carmela Buono, Jedediah F. Brodie, Antonio Rodriguez-Campbell, Thor Veen, Benjamin G. Freeman, Julie A. Lee-Yaw, Juan Camilo Muñoz, Alexandra Paquette, Jennifer Butler, Esteban Suaréz\",\"doi\":\"10.1038/s41559-024-02504-7\",\"DOIUrl\":null,\"url\":null,\"abstract\":\"Urbanization is creating a new global biome, in which cities and suburbs around the world often resemble each other more than the local natural areas they replaced. But while urbanization can profoundly affect ecology at local scales, we know little about whether it disrupts large-scale ecological patterns. Here we test whether urbanization disrupts a macroecological pattern central to ecological and evolutionary theory: the increase in seed predation intensity from high to low latitudes. Across 14,000 km of latitude spanning the Americas, we compared predation intensity on two species of standardized experimental seeds in urbanized and natural areas. In natural areas, predation on both seed species increased fivefold from high latitudes to the tropics, one of the strongest latitudinal gradients in species interactions documented so far. Surprisingly, latitudinal gradients in predation were equally strong in urbanized areas despite significant habitat modification. Nevertheless, urbanization did affect seed predation. Compared with natural areas, urbanization reduced overall predation and vertebrate predation, did not affect predation by invertebrates in general, and increased predation by ants. Our results show that macroecological patterns in predation intensity can persist in urbanized environments, even as urbanization alters the relative importance of predators and potentially the evolutionary trajectory of urban populations. 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Latitudinal gradients in seed predation persist in urbanized environments
Urbanization is creating a new global biome, in which cities and suburbs around the world often resemble each other more than the local natural areas they replaced. But while urbanization can profoundly affect ecology at local scales, we know little about whether it disrupts large-scale ecological patterns. Here we test whether urbanization disrupts a macroecological pattern central to ecological and evolutionary theory: the increase in seed predation intensity from high to low latitudes. Across 14,000 km of latitude spanning the Americas, we compared predation intensity on two species of standardized experimental seeds in urbanized and natural areas. In natural areas, predation on both seed species increased fivefold from high latitudes to the tropics, one of the strongest latitudinal gradients in species interactions documented so far. Surprisingly, latitudinal gradients in predation were equally strong in urbanized areas despite significant habitat modification. Nevertheless, urbanization did affect seed predation. Compared with natural areas, urbanization reduced overall predation and vertebrate predation, did not affect predation by invertebrates in general, and increased predation by ants. Our results show that macroecological patterns in predation intensity can persist in urbanized environments, even as urbanization alters the relative importance of predators and potentially the evolutionary trajectory of urban populations. Seed predation increases from the Arctic to the tropics, but it is unknown whether urbanization disrupts this latitudinal pattern. An experimental study conducted across the Americas shows that the latitudinal gradient in predation holds in urban areas, even though total seed predation is reduced.
Nature ecology & evolutionAgricultural and Biological Sciences-Ecology, Evolution, Behavior and Systematics
CiteScore
22.20
自引率
2.40%
发文量
282
期刊介绍:
Nature Ecology & Evolution is interested in the full spectrum of ecological and evolutionary biology, encompassing approaches at the molecular, organismal, population, community and ecosystem levels, as well as relevant parts of the social sciences. Nature Ecology & Evolution provides a place where all researchers and policymakers interested in all aspects of life's diversity can come together to learn about the most accomplished and significant advances in the field and to discuss topical issues. An online-only monthly journal, our broad scope ensures that the research published reaches the widest possible audience of scientists.