Structure of the assemblage of fruit-feeding butterflies in a high Andean anthropogenic landscape

The high Andean mountains are ecosystems subject to high human pressure activities, resulting in disturbed areas increasingly dominating the landscapes. However, there needs to have more knowledge about the contributions of different vegetation coverages and species to global diversity at the local...

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Published in:	Journal of insect conservation Vol. 28; no. 4; pp. 799 - 810
Main Authors:	Álvarez, Carlos Federico, Freitas, André Victor Lucci, Iserhard, Cristiano Agra, Giraldo, Carlos Eduardo, Uribe, Sandra Inés, Marín, Mario Alejandro
Format:	Journal Article
Language:	English
Published:	Cham Springer International Publishing 01-08-2024 Springer Nature B.V
Subjects:	Alpine environments Animal Ecology Anthropogenic factors Biodiversity Biomedical and Life Sciences Butterflies & moths Cattle Cloud forests Community structure Complementarity Conservation Conservation Biology/Ecology Ecosystems Endemic species Entomology Entropy (Information theory) Extreme values Forest ecosystems Forest management Forests Fruits Habitats Heterogeneity Indigenous species Insects Landscape Landscape preservation Life Sciences Mountains Original Paper Pasture Pastures Regional analysis Regional planning Species diversity Species richness Terrestrial ecosystems Wildlife conservation Colombia Beta diversity Andes Indicator species Cloud forest Paramo
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Abstract	The high Andean mountains are ecosystems subject to high human pressure activities, resulting in disturbed areas increasingly dominating the landscapes. However, there needs to have more knowledge about the contributions of different vegetation coverages and species to global diversity at the local level. For three consecutive years, we studied a guild of fruit-feeding butterflies in four different land covers (cloud forests, paramo, mixed anthropogenic habitats, and cattle pastures) in the northern Andes in Colombia, analyzing the diversity and structure of the butterfly assemblage in the region. The assembly showed significant differences between land covers. The mixed habitat was the most diverse in order q1 (exponential of Shannon entropy) and q2 (inverse of Gini-Simpson dominance index) diversity, and the cloud forest contained the higher abundance and species richness. Abundance decreased from forest to pasture, significantly reducing diversity in pastures, with cloud forest and paramo containing the key endemic species. These results indicate the value of landscape diversity in providing resources and conditions required for the diversity conservation of high Andean butterflies. Implications for insect conservation This study highlights the significance of the heterogeneity of natural landscape components in maintaining and preserving the diversity of butterfly assemblages in high Andean environments. Current conservation plans often tend to focus on paramo habitats, our findings highlight the crucial role of including the surrounding cloud forest and associated secondary forest in the design of effective conservation strategies. The analysis revealed a high complementarity between paramo and cloud forest assemblages, with each habitat type contributing significantly to the regional species pool. This underscores the interconnectedness and interdependence of these habitats, indicating that a comprehensive approach that considers both paramo and cloud forest ecosystems is essential for conserving the full diversity of butterfly species in the region. Moreover, our results demonstrate that cattle pastures exhibit extremely low butterfly species richness and possess a community structure that is distinctly different from native habitats.
AbstractList	The high Andean mountains are ecosystems subject to high human pressure activities, resulting in disturbed areas increasingly dominating the landscapes. However, there needs to have more knowledge about the contributions of different vegetation coverages and species to global diversity at the local level. For three consecutive years, we studied a guild of fruit-feeding butterflies in four different land covers (cloud forests, paramo, mixed anthropogenic habitats, and cattle pastures) in the northern Andes in Colombia, analyzing the diversity and structure of the butterfly assemblage in the region. The assembly showed significant differences between land covers. The mixed habitat was the most diverse in order q1 (exponential of Shannon entropy) and q2 (inverse of Gini-Simpson dominance index) diversity, and the cloud forest contained the higher abundance and species richness. Abundance decreased from forest to pasture, significantly reducing diversity in pastures, with cloud forest and paramo containing the key endemic species. These results indicate the value of landscape diversity in providing resources and conditions required for the diversity conservation of high Andean butterflies. The high Andean mountains are ecosystems subject to high human pressure activities, resulting in disturbed areas increasingly dominating the landscapes. However, there needs to have more knowledge about the contributions of different vegetation coverages and species to global diversity at the local level. For three consecutive years, we studied a guild of fruit-feeding butterflies in four different land covers (cloud forests, paramo, mixed anthropogenic habitats, and cattle pastures) in the northern Andes in Colombia, analyzing the diversity and structure of the butterfly assemblage in the region. The assembly showed significant differences between land covers. The mixed habitat was the most diverse in order q1 (exponential of Shannon entropy) and q2 (inverse of Gini-Simpson dominance index) diversity, and the cloud forest contained the higher abundance and species richness. Abundance decreased from forest to pasture, significantly reducing diversity in pastures, with cloud forest and paramo containing the key endemic species. These results indicate the value of landscape diversity in providing resources and conditions required for the diversity conservation of high Andean butterflies.Implications for insect conservationThis study highlights the significance of the heterogeneity of natural landscape components in maintaining and preserving the diversity of butterfly assemblages in high Andean environments. Current conservation plans often tend to focus on paramo habitats, our findings highlight the crucial role of including the surrounding cloud forest and associated secondary forest in the design of effective conservation strategies. The analysis revealed a high complementarity between paramo and cloud forest assemblages, with each habitat type contributing significantly to the regional species pool. This underscores the interconnectedness and interdependence of these habitats, indicating that a comprehensive approach that considers both paramo and cloud forest ecosystems is essential for conserving the full diversity of butterfly species in the region. Moreover, our results demonstrate that cattle pastures exhibit extremely low butterfly species richness and possess a community structure that is distinctly different from native habitats. The high Andean mountains are ecosystems subject to high human pressure activities, resulting in disturbed areas increasingly dominating the landscapes. However, there needs to have more knowledge about the contributions of different vegetation coverages and species to global diversity at the local level. For three consecutive years, we studied a guild of fruit-feeding butterflies in four different land covers (cloud forests, paramo, mixed anthropogenic habitats, and cattle pastures) in the northern Andes in Colombia, analyzing the diversity and structure of the butterfly assemblage in the region. The assembly showed significant differences between land covers. The mixed habitat was the most diverse in order q1 (exponential of Shannon entropy) and q2 (inverse of Gini-Simpson dominance index) diversity, and the cloud forest contained the higher abundance and species richness. Abundance decreased from forest to pasture, significantly reducing diversity in pastures, with cloud forest and paramo containing the key endemic species. These results indicate the value of landscape diversity in providing resources and conditions required for the diversity conservation of high Andean butterflies. Implications for insect conservation This study highlights the significance of the heterogeneity of natural landscape components in maintaining and preserving the diversity of butterfly assemblages in high Andean environments. Current conservation plans often tend to focus on paramo habitats, our findings highlight the crucial role of including the surrounding cloud forest and associated secondary forest in the design of effective conservation strategies. The analysis revealed a high complementarity between paramo and cloud forest assemblages, with each habitat type contributing significantly to the regional species pool. This underscores the interconnectedness and interdependence of these habitats, indicating that a comprehensive approach that considers both paramo and cloud forest ecosystems is essential for conserving the full diversity of butterfly species in the region. Moreover, our results demonstrate that cattle pastures exhibit extremely low butterfly species richness and possess a community structure that is distinctly different from native habitats.
Author	Uribe, Sandra Inés Marín, Mario Alejandro Giraldo, Carlos Eduardo Álvarez, Carlos Federico Freitas, André Victor Lucci Iserhard, Cristiano Agra
Author_xml	– sequence: 1 givenname: Carlos Federico orcidid: 0000-0001-8311-2726 surname: Álvarez fullname: Álvarez, Carlos Federico organization: Grupo de Investigación en Sistemática Molecular, Universidad Nacional de Colombia, Sede Medellín – sequence: 2 givenname: André Victor Lucci orcidid: 0000-0002-5763-4990 surname: Freitas fullname: Freitas, André Victor Lucci organization: Laboratório de Borboletas, Instituto de Biologia, Universidade Estadual de Campinas, Museu de Diversidade Biológica, Instituto de Biologia, Universidade Estadual de Campinas – sequence: 3 givenname: Cristiano Agra orcidid: 0000-0001-6414-9216 surname: Iserhard fullname: Iserhard, Cristiano Agra organization: Programa de Pós-Graduação em Biodiversidade Animal, Departamento de Ecologia, Zoologia e Genética, Universidade Federal de Pelotas – sequence: 4 givenname: Carlos Eduardo orcidid: 0000-0001-6651-3819 surname: Giraldo fullname: Giraldo, Carlos Eduardo organization: Grupo de Investigación de Sanidad Vegetal, Universidad Católica de Oriente – sequence: 5 givenname: Sandra Inés orcidid: 0000-0002-4762-0552 surname: Uribe fullname: Uribe, Sandra Inés organization: Grupo de Investigación en Sistemática Molecular, Universidad Nacional de Colombia, Sede Medellín – sequence: 6 givenname: Mario Alejandro orcidid: 0000-0001-6276-7029 surname: Marín fullname: Marín, Mario Alejandro email: mamarin0@unal.edu.co organization: Grupo de Investigación en Sistemática Molecular, Universidad Nacional de Colombia, Sede Medellín
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Snippet	The high Andean mountains are ecosystems subject to high human pressure activities, resulting in disturbed areas increasingly dominating the landscapes....
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SubjectTerms	Alpine environments Animal Ecology Anthropogenic factors Biodiversity Biomedical and Life Sciences Butterflies & moths Cattle Cloud forests Community structure Complementarity Conservation Conservation Biology/Ecology Ecosystems Endemic species Entomology Entropy (Information theory) Extreme values Forest ecosystems Forest management Forests Fruits Habitats Heterogeneity Indigenous species Insects Landscape Landscape preservation Life Sciences Mountains Original Paper Pasture Pastures Regional analysis Regional planning Species diversity Species richness Terrestrial ecosystems Wildlife conservation
Title	Structure of the assemblage of fruit-feeding butterflies in a high Andean anthropogenic landscape
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