Natural habitat cover and fragmentation per se influence orchid-bee species richness in agricultural landscapes in the Brazilian Cerrado

Habitat loss and fragmentation in the human‐modified landscape affect bee assemblages by reducing the available natural resources. The life history features and adaptations of bees to environmental conditions affect how they perceive and interact with landscape structure. Therefore, it is crucial to...

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Published in	Apidologie Vol. 53; no. 2; p. 20
Main Authors	de Sousa, Fernanda Gonçalves, dos Santos, Juliana Silveira, Martello, Felipe, Diniz, Milena Fiuza, Bergamini, Leonardo Lima, Ribeiro, Milton Cezar, Collevatti, Rosane Garcia, Silva, Daniel Paiva
Format	Journal Article
Language	English
Published	Paris Springer Paris 01.05.2022 Springer Nature B.V Springer Verlag
Subjects	Abundance Adaptation Agricultural land Apidae Baits Bees Biomedical and Life Sciences cerrado Composition Entomology Environmental conditions Euglossini forests Fragmentation Generalized linear models habitat destruction Habitat fragmentation Habitat loss Habitats Landscape landscapes Life history Life Sciences males Natural resources Orchidaceae Original Article Savannahs savannas Species richness Statistical models Cerrado Biome habitat loss bee biodiversity landscape diversity pollinators multiscale effects
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Abstract	Habitat loss and fragmentation in the human‐modified landscape affect bee assemblages by reducing the available natural resources. The life history features and adaptations of bees to environmental conditions affect how they perceive and interact with landscape structure. Therefore, it is crucial to quantify the magnitude of the effects of the landscape structure on this group at multiscale. We address the relative contribution of landscape structure in explaining the abundance of orchid bees, richness, and diversity in landscapes of Brazilian Cerrado. We mapped the surrounding landscape around 18 focal patches and sampled male orchid bees attracted by chemical baits. We used VIF and generalized linear models (GLM) to evaluate the effects of landscape structure (composition and configuration) at different spatial scales. We sampled 658 euglossine bees from five genera and 12 species. The savanna cover, forest cover, and fragmentation per se (i.e., the number of patches) were the best predictors of the richness of euglossine bees. The abundance of bees was explained by the savanna cover. The increase in natural habitat area and the reduction in landscape fragmentation favoring the assemblages of orchid bees are supported by our results. Savanna cover also modulates the abundance of euglossine bees, confirming that the habitat amount is essential for maintaining the populations of these bees. Our results reinforce the importance of habitat loss and fragmentation effects on the richness, abundance, and composition of euglossine bees, particularly in the naturally heterogeneous landscapes.
AbstractList	Habitat loss and fragmentation in the human‐modified landscape affect bee assemblages by reducing the available natural resources. The life history features and adaptations of bees to environmental conditions affect how they perceive and interact with landscape structure. Therefore, it is crucial to quantify the magnitude of the effects of the landscape structure on this group at multiscale. We address the relative contribution of landscape structure in explaining the abundance of orchid bees, richness, and diversity in landscapes of Brazilian Cerrado. We mapped the surrounding landscape around 18 focal patches and sampled male orchid bees attracted by chemical baits. We used VIF and generalized linear models (GLM) to evaluate the effects of landscape structure (composition and configuration) at different spatial scales. We sampled 658 euglossine bees from five genera and 12 species. The savanna cover, forest cover, and fragmentation per se (i.e., the number of patches) were the best predictors of the richness of euglossine bees. The abundance of bees was explained by the savanna cover. The increase in natural habitat area and the reduction in landscape fragmentation favoring the assemblages of orchid bees are supported by our results. Savanna cover also modulates the abundance of euglossine bees, confirming that the habitat amount is essential for maintaining the populations of these bees. Our results reinforce the importance of habitat loss and fragmentation effects on the richness, abundance, and composition of euglossine bees, particularly in the naturally heterogeneous landscapes. AbstractHabitat loss and fragmentation in the human‐modified landscape affect bee assemblages by reducing the available natural resources. The life history features and adaptations of bees to environmental conditions affect how they perceive and interact with landscape structure. Therefore, it is crucial to quantify the magnitude of the effects of the landscape structure on this group at multiscale. We address the relative contribution of landscape structure in explaining the abundance of orchid bees, richness, and diversity in landscapes of Brazilian Cerrado. We mapped the surrounding landscape around 18 focal patches and sampled male orchid bees attracted by chemical baits. We used VIF and generalized linear models (GLM) to evaluate the effects of landscape structure (composition and configuration) at different spatial scales. We sampled 658 euglossine bees from five genera and 12 species. The savanna cover, forest cover, and fragmentation per se (i.e., the number of patches) were the best predictors of the richness of euglossine bees. The abundance of bees was explained by the savanna cover. The increase in natural habitat area and the reduction in landscape fragmentation favoring the assemblages of orchid bees are supported by our results. Savanna cover also modulates the abundance of euglossine bees, confirming that the habitat amount is essential for maintaining the populations of these bees. Our results reinforce the importance of habitat loss and fragmentation effects on the richness, abundance, and composition of euglossine bees, particularly in the naturally heterogeneous landscapes. Habitat loss and fragmentation in the human‐modified landscape affect bee assemblages by reducing the available natural resources. The life history features and adaptations of bees to environmental conditions affect how they perceive and interact with landscape structure. Therefore, it is crucial to quantify the magnitude of the effects of the landscape structure on this group at multiscale. We address the relative contribution of landscape structure in explaining the abundance of orchid bees, richness, and diversity in landscapes of Brazilian Cerrado. We mapped the surrounding landscape around 18 focal patches and sampled male orchid bees attracted by chemical baits. We used VIF and generalized linear models (GLM) to evaluate the effects of landscape structure (composition and configuration) at different spatial scales. We sampled 658 euglossine bees from five genera and 12 species. The savanna cover, forest cover, and fragmentation per se (i.e., the number of patches) were the best predictors of the richness of euglossine bees. The abundance of bees was explained by the savanna cover. The increase in natural habitat area and the reduction in landscape fragmentation favoring the assemblages of orchid bees are supported by our results. Savanna cover also modulates the abundance of euglossine bees, confirming that the habitat amount is essential for maintaining the populations of these bees. Our results reinforce the importance of habitat loss and fragmentation effects on the richness, abundance, and composition of euglossine bees, particularly in the naturally heterogeneous landscapes.
ArticleNumber	20
Author	Collevatti, Rosane Garcia Ribeiro, Milton Cezar Bergamini, Leonardo Lima de Sousa, Fernanda Gonçalves dos Santos, Juliana Silveira Martello, Felipe Diniz, Milena Fiuza Silva, Daniel Paiva
Author_xml	– sequence: 1 givenname: Fernanda Gonçalves orcidid: 0000-0003-2524-408X surname: de Sousa fullname: de Sousa, Fernanda Gonçalves email: fernandags.bio@gmail.com organization: Animal Biodiversity Program, Federal University of Goiás – sequence: 2 givenname: Juliana Silveira surname: dos Santos fullname: dos Santos, Juliana Silveira organization: Spatial Ecology and Conservation Lab (LEEC), Department of Biodiversity, São Paulo University (UNESP) – sequence: 3 givenname: Felipe surname: Martello fullname: Martello, Felipe organization: Programa de Pós-Graduação em Ecologia e Manejo de Recurso Natural, Universidade Federal do Acre, Instituto Tecnológico Vale – sequence: 4 givenname: Milena Fiuza surname: Diniz fullname: Diniz, Milena Fiuza organization: Ecology Departament, Federal University of Goiás – sequence: 5 givenname: Leonardo Lima surname: Bergamini fullname: Bergamini, Leonardo Lima organization: Fundação Instituto Brasileiro de Geografia e Estatística, UE/DF, Gerência do Centro de Estudos do Cerrado (GEC), Reserva Ecológica do IBGE (RECOR) – sequence: 6 givenname: Milton Cezar surname: Ribeiro fullname: Ribeiro, Milton Cezar organization: Spatial Ecology and Conservation Lab (LEEC), Department of Biodiversity, São Paulo University (UNESP) – sequence: 7 givenname: Rosane Garcia surname: Collevatti fullname: Collevatti, Rosane Garcia organization: Laboratório de Genética & Biodiversidade, Universidade Federal de Goiás – sequence: 8 givenname: Daniel Paiva surname: Silva fullname: Silva, Daniel Paiva organization: Conservation Biogeography and Macroecology Lab, Instituto Federal Goiano
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Snippet	Habitat loss and fragmentation in the human‐modified landscape affect bee assemblages by reducing the available natural resources. The life history features... AbstractHabitat loss and fragmentation in the human‐modified landscape affect bee assemblages by reducing the available natural resources. The life history...
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SubjectTerms	Abundance Adaptation Agricultural land Apidae Baits Bees Biomedical and Life Sciences cerrado Composition Entomology Environmental conditions Euglossini forests Fragmentation Generalized linear models habitat destruction Habitat fragmentation Habitat loss Habitats Landscape landscapes Life history Life Sciences males Natural resources Orchidaceae Original Article Savannahs savannas Species richness Statistical models
Title	Natural habitat cover and fragmentation per se influence orchid-bee species richness in agricultural landscapes in the Brazilian Cerrado
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