Risa Ogushi, Edward Sun, Leah Campbell, Fritzi Chandrakumar, Ray Fort, Nicole Graham, Julien Grebert, Orissa Grewal, Idris Habib, Sierra Hamamoto, Karen Ho, Yanlin Huang, Ari Kim, Naveen Manocha, Komal Pandher, Emiko Radakovich, Savitri Raghuraman, Tahlia Read, Sara Roh, Lauren Rutherford, Danica Shannon, Julia Thain, Markus Thormeyer, Athena Varghese, Kelly Wang, Rogier Weel, Jamie You, Jessie Yuen, Hanyi Zhang, Michelle Tseng
{"title":"城市行道树中鳞翅目昆虫的物种丰富度和群落组成","authors":"Risa Ogushi, Edward Sun, Leah Campbell, Fritzi Chandrakumar, Ray Fort, Nicole Graham, Julien Grebert, Orissa Grewal, Idris Habib, Sierra Hamamoto, Karen Ho, Yanlin Huang, Ari Kim, Naveen Manocha, Komal Pandher, Emiko Radakovich, Savitri Raghuraman, Tahlia Read, Sara Roh, Lauren Rutherford, Danica Shannon, Julia Thain, Markus Thormeyer, Athena Varghese, Kelly Wang, Rogier Weel, Jamie You, Jessie Yuen, Hanyi Zhang, Michelle Tseng","doi":"10.1139/cjz-2023-0150","DOIUrl":null,"url":null,"abstract":"The triple threats of climate change, habitat loss, and environmental pollution have stimulated discussion on how urban areas can be modified to both mitigate heat increases and provide habitat for wildlife such as insects. The strategy of using trees to reduce temperatures has been adopted by numerous cities. However, the majority of street trees planted around the world are non-native. Studies conducted in non-urban areas have demonstrated in comparison to native plants, non-native plants are less likely to support native insect diversity. Here we use a database approach to quantify the number of native Lepidoptera species associated with 76 of the most common street tree species planted in Vancouver, Canada. We tested the prediction that compared to non-native trees, native street trees will support a higher diversity and unique community of native Lepidoptera. As predicted, native street trees were associated with five times as many native Lepidoptera species, and the Lepidoptera communities supported by native vs. non-native street trees were distinct. There was no difference in native Lepidoptera associations between broadleaf vs. coniferous street trees. These results are consistent with studies that have used active sampling techniques to investigate insect richness on a smaller subset of native and non-native tree species. Collectively, these data provide good evidence that the planting native instead of non-native trees will help stem the loss of insect diversity in urban areas","PeriodicalId":9484,"journal":{"name":"Canadian Journal of Zoology","volume":null,"pages":null},"PeriodicalIF":1.0000,"publicationDate":"2024-02-13","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"0","resultStr":"{\"title\":\"Lepidoptera species richness and community composition in urban street trees\",\"authors\":\"Risa Ogushi, Edward Sun, Leah Campbell, Fritzi Chandrakumar, Ray Fort, Nicole Graham, Julien Grebert, Orissa Grewal, Idris Habib, Sierra Hamamoto, Karen Ho, Yanlin Huang, Ari Kim, Naveen Manocha, Komal Pandher, Emiko Radakovich, Savitri Raghuraman, Tahlia Read, Sara Roh, Lauren Rutherford, Danica Shannon, Julia Thain, Markus Thormeyer, Athena Varghese, Kelly Wang, Rogier Weel, Jamie You, Jessie Yuen, Hanyi Zhang, Michelle Tseng\",\"doi\":\"10.1139/cjz-2023-0150\",\"DOIUrl\":null,\"url\":null,\"abstract\":\"The triple threats of climate change, habitat loss, and environmental pollution have stimulated discussion on how urban areas can be modified to both mitigate heat increases and provide habitat for wildlife such as insects. The strategy of using trees to reduce temperatures has been adopted by numerous cities. However, the majority of street trees planted around the world are non-native. Studies conducted in non-urban areas have demonstrated in comparison to native plants, non-native plants are less likely to support native insect diversity. Here we use a database approach to quantify the number of native Lepidoptera species associated with 76 of the most common street tree species planted in Vancouver, Canada. We tested the prediction that compared to non-native trees, native street trees will support a higher diversity and unique community of native Lepidoptera. As predicted, native street trees were associated with five times as many native Lepidoptera species, and the Lepidoptera communities supported by native vs. non-native street trees were distinct. There was no difference in native Lepidoptera associations between broadleaf vs. coniferous street trees. These results are consistent with studies that have used active sampling techniques to investigate insect richness on a smaller subset of native and non-native tree species. 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Lepidoptera species richness and community composition in urban street trees
The triple threats of climate change, habitat loss, and environmental pollution have stimulated discussion on how urban areas can be modified to both mitigate heat increases and provide habitat for wildlife such as insects. The strategy of using trees to reduce temperatures has been adopted by numerous cities. However, the majority of street trees planted around the world are non-native. Studies conducted in non-urban areas have demonstrated in comparison to native plants, non-native plants are less likely to support native insect diversity. Here we use a database approach to quantify the number of native Lepidoptera species associated with 76 of the most common street tree species planted in Vancouver, Canada. We tested the prediction that compared to non-native trees, native street trees will support a higher diversity and unique community of native Lepidoptera. As predicted, native street trees were associated with five times as many native Lepidoptera species, and the Lepidoptera communities supported by native vs. non-native street trees were distinct. There was no difference in native Lepidoptera associations between broadleaf vs. coniferous street trees. These results are consistent with studies that have used active sampling techniques to investigate insect richness on a smaller subset of native and non-native tree species. Collectively, these data provide good evidence that the planting native instead of non-native trees will help stem the loss of insect diversity in urban areas
期刊介绍:
Published since 1929, the Canadian Journal of Zoology is a monthly journal that reports on primary research contributed by respected international scientists in the broad field of zoology, including behaviour, biochemistry and physiology, developmental biology, ecology, genetics, morphology and ultrastructure, parasitology and pathology, and systematics and evolution. It also invites experts to submit review articles on topics of current interest.