Effects of Urban Development on Ant Communities: Implications for Ecosystem Services and Management
Research that connects the effects of urbanization on biodiversity and ecosystem services is lacking. Ants perform multifarious ecological functions that stabilize ecosystems and contribute to a number of ecosystem services. We studied responses of ant communities to urbanization in the Lake Tahoe b...
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| Published in | Conservation biology Vol. 23; no. 1; pp. 131 - 141 |
|---|---|
| Main Authors | , , |
| Format | Journal Article |
| Language | English |
| Published |
Malden, USA
Blackwell Publishing Inc
01.02.2009
Wiley-Blackwell Blackwell Publishing Ltd |
| Subjects | |
| Online Access | Get full text |
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| Abstract | Research that connects the effects of urbanization on biodiversity and ecosystem services is lacking. Ants perform multifarious ecological functions that stabilize ecosystems and contribute to a number of ecosystem services. We studied responses of ant communities to urbanization in the Lake Tahoe basin by sampling sites along a gradient of urban land development. We sampled ant communities, measured vegetation characteristics, quantified human activities, and evaluated ant-community responses by grouping ants into service-providing units (SPUs), defined as a group of organisms and their populations that perform specific ecosystem services, to provide an understanding of urbanization impacts on biodiversity and their delivery of ecosystem services. Species richness and abundance peaked at intermediate levels of urban development, as did the richness of 3 types of ant SPUs (aerators, decomposers, and compilers). With increasing land development aerator and decomposer ants significantly declined in abundance, whereas compiler ants significantly increased in abundance. Competing models demonstrated that precipitation was frequently among the strongest influences on ant community structure; however, urban development and human activities also had a strong, negative influence on ants, appearing in most models with ΔAICc < 2 for species richness and abundance patterns of SPUs and generalists. Response diversity was observed within SPUs, which suggests that the corresponding ecosystem services were maintained until development reached 30-40%. Our data provide evidence that ecosystem functions, such as water infiltration and soil productivity, may be diminished at sites subject to greater levels of urbanization and that conserving ant communities and the ecosystem services they provide could be an important target in land-use planning and conservation efforts. |
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| AbstractList | Research that connects the effects of urbanization on biodiversity and ecosystem services is lacking. Ants perform multifarious ecological functions that stabilize ecosystems and contribute to a number of ecosystem services. We studied responses of ant communities to urbanization in the Lake Tahoe basin by sampling sites along a gradient of urban land development. We sampled ant communities, measured vegetation characteristics, quantified human activities, and evaluated ant‐community responses by grouping ants into service‐providing units (SPUs), defined as a group of organisms and their populations that perform specific ecosystem services, to provide an understanding of urbanization impacts on biodiversity and their delivery of ecosystem services. Species richness and abundance peaked at intermediate levels of urban development, as did the richness of 3 types of ant SPUs (aerators, decomposers, and compilers). With increasing land development aerator and decomposer ants significantly declined in abundance, whereas compiler ants significantly increased in abundance. Competing models demonstrated that precipitation was frequently among the strongest influences on ant community structure; however, urban development and human activities also had a strong, negative influence on ants, appearing in most models with ΔAIC
c
< 2 for species richness and abundance patterns of SPUs and generalists. Response diversity was observed within SPUs, which suggests that the corresponding ecosystem services were maintained until development reached 30–40%. Our data provide evidence that ecosystem functions, such as water infiltration and soil productivity, may be diminished at sites subject to greater levels of urbanization and that conserving ant communities and the ecosystem services they provide could be an important target in land‐use planning and conservation efforts.
Resumen:
La investigación que relaciona los efectos de la urbanización sobre la biodiversidad con los servicios del ecosistema es escasa. Las hormigas realizan múltiples funciones ecológicas que estabilizan los ecosistemas y contribuyen a un número de servicios del ecosistema. Estudiamos las respuestas de comunidades de hormigas a la urbanización en la cuenca del Lago Tahoe mediante muestreos a lo largo de un gradiente de desarrollo urbano. Muestreamos comunidades de hormigas, medimos características de la vegetación, cuantificamos actividades humanas y evaluamos las respuestas de la comunidad de hormigas agrupándolas en unidades proveedoras de servicio (UPS), definidas como un grupo de organismos y sus poblaciones que realizan servicios específicos, para entender los impactos de la urbanización sobre la biodiversidad y sus servicios al ecosistema. La riqueza y abundancia de especies fue mayor en niveles intermedios de desarrollo urbano, igual que la riqueza de tres tipos de UPS (aereadoras, descomponedoras y compiladoras). Con el incremento del desarrollo urbano la abundancia de las hormigas aereadoras y descomponedoras declinó significativamente, mientras que la abundancia de las compiladoras aumentó significativamente. Los modelos opuestos demostraron que la precipitación frecuentemente estaba entre las influencias más fuertes sobre la estructura de la comunidad de hormigas; sin embargo, el desarrollo urbano y las actividades humanas también tuvieron una fuerte influencia negativa sobre las hormigas, apareciendo en la mayoría de los modelos con Δ AIC
c
< 2 para patrones de riqueza y abundancia de UPS y generalistas. La diversidad de respuestas se observó dentro de las UPS, lo cual sugiere que los servicios del ecosistema correspondientes se mantuvieron hasta que el desarrollo alcanzó 30–40%. Nuestros datos proporcionan evidencia de que los servicios del ecosistema, como la infiltración de agua y la productividad del suelo, pueden disminuir en sitios sujetos a mayores niveles de urbanización y que la conservación de las comunidades de hormigas y los servicios que proporcionan pudiera ser una meta importante de la planificación del uso de suelo y de los esfuerzos de conservación. Research that connects the effects of urbanization on biodiversity and ecosystem services is lacking. Ants perform multifarious ecological functions that stabilize ecosystems and contribute to a number of ecosystem services. We studied responses of ant communities to urbanization in the Lake Tahoe basin by sampling sites along a gradient of urban land development. We sampled ant communities, measured vegetation characteristics, quantified human activities, and evaluated ant-community responses by grouping ants into service-providing units (SPUs), defined as a group of organisms and their populations that perform specific ecosystem services, to provide an understanding of urbanization impacts on biodiversity and their delivery of ecosystem services. Species richness and abundance peaked at intermediate levels of urban development, as did the richness of 3 types of ant SPUs (aerators, decomposers, and compilers). With increasing land development aerator and decomposer ants significantly declined in abundance, whereas compiler ants significantly increased in abundance. Competing models demonstrated that precipitation was frequently among the strongest influences on ant community structure; however, urban development and human activities also had a strong, negative influence on ants, appearing in most models with AICc < 2 for species richness and abundance patterns of SPUs and generalists. Response diversity was observed within SPUs, which suggests that the corresponding ecosystem services were maintained until development reached 30-40%. Our data provide evidence that ecosystem functions, such as water infiltration and soil productivity, may be diminished at sites subject to greater levels of urbanization and that conserving ant communities and the ecosystem services they provide could be an important target in land-use planning and conservation efforts. Efectos del Desarrollo Urbano sobre Comunidades de Hormigas: Implicaciones para los Servicios y Manejo del EcosistemaResumen:La investigacion que relaciona los efectos de la urbanizacion sobre la biodiversidad con los servicios del ecosistema es escasa. Las hormigas realizan multiples funciones ecologicas que estabilizan los ecosistemas y contribuyen a un numero de servicios del ecosistema. Estudiamos las respuestas de comunidades de hormigas a la urbanizacion en la cuenca del Lago Tahoe mediante muestreos a lo largo de un gradiente de desarrollo urbano. Muestreamos comunidades de hormigas, medimos caracteristicas de la vegetacion, cuantificamos actividades humanas y evaluamos las respuestas de la comunidad de hormigas agrupandolas en unidades proveedoras de servicio (UPS), definidas como un grupo de organismos y sus poblaciones que realizan servicios especificos, para entender los impactos de la urbanizacion sobre la biodiversidad y sus servicios al ecosistema. La riqueza y abundancia de especies fue mayor en niveles intermedios de desarrollo urbano, igual que la riqueza de tres tipos de UPS (aereadoras, descomponedoras y compiladoras). Con el incremento del desarrollo urbano la abundancia de las hormigas aereadoras y descomponedoras declino significativamente, mientras que la abundancia de las compiladoras aumento significativamente. Los modelos opuestos demostraron que la precipitacion frecuentemente estaba entre las influencias mas fuertes sobre la estructura de la comunidad de hormigas; sin embargo, el desarrollo urbano y las actividades humanas tambien tuvieron una fuerte influencia negativa sobre las hormigas, apareciendo en la mayoria de los modelos con AICc < 2 para patrones de riqueza y abundancia de UPS y generalistas. La diversidad de respuestas se observo dentro de las UPS, lo cual sugiere que los servicios del ecosistema correspondientes se mantuvieron hasta que el desarrollo alcanzo 30-40%. Nuestros datos proporcionan evidencia de que los servicios del ecosistema, como la infiltracion de agua y la productividad del suelo, pueden disminuir en sitios sujetos a mayores niveles de urbanizacion y que la conservacion de las comunidades de hormigas y los servicios que proporcionan pudiera ser una meta importante de la planificacion del uso de suelo y de los esfuerzos de conservacion. Research that connects the effects of urbanization on biodiversity and ecosystem services is lacking. Ants perform multifarious ecological functions that stabilize ecosystems and contribute to a number of ecosystem services. We studied responses of ant communities to urbanization in the Lake Tahoe basin by sampling sites along a gradient of urban land development. We sampled ant communities, measured vegetation characteristics, quantified human activities, and evaluated ant-community responses by grouping ants into service-providing units (SPUs), defined as a group of organisms and their populations that perform specific ecosystem services, to provide an understanding of urbanization impacts on biodiversity and their delivery of ecosystem services. Species richness and abundance peaked at intermediate levels of urban development, as did the richness of 3 types of ant SPUs (aerators, decomposers, and compilers). With increasing land development aerator and decomposer ants significantly declined in abundance, whereas compiler ants significantly increased in abundance. Competing models demonstrated that precipitation was frequently among the strongest influences on ant community structure; however, urban development and human activities also had a strong, negative influence on ants, appearing in most models with DeltaAIC(c) < 2 for species richness and abundance patterns of SPUs and generalists. Response diversity was observed within SPUs, which suggests that the corresponding ecosystem services were maintained until development reached 30-40%. Our data provide evidence that ecosystem functions, such as water infiltration and soil productivity, may be diminished at sites subject to greater levels of urbanization and that conserving ant communities and the ecosystem services they provide could be an important target in land-use planning and conservation efforts. Research that connects the effects of urbanization on biodiversity and ecosystem services is lacking. Ants perform multifarious ecological functions that stabilize ecosystems and contribute to a number of ecosystem services. We studied responses of ant communities to urbanization in the Lake Tahoe basin by sampling sites along a gradient of urban land development. We sampled ant communities, measured vegetation characteristics, quantified human activities, and evaluated ant-community responses by grouping ants into service-providing units (SPUs), defined as a group of organisms and their populations that perform specific ecosystem services, to provide an understanding of urbanization impacts on biodiversity and their delivery of ecosystem services. Species richness and abundance peaked at intermediate levels of urban development, as did the richness of 3 types of ant SPUs (aerators, decomposers, and compilers). With increasing land development aerator and decomposer ants significantly declined in abundance, whereas compiler ants significantly increased in abundance. Competing models demonstrated that precipitation was frequently among the strongest influences on ant community structure; however, urban development and human activities also had a strong, negative influence on ants, appearing in most models with ΔAICc < 2 for species richness and abundance patterns of SPUs and generalists. Response diversity was observed within SPUs, which suggests that the corresponding ecosystem services were maintained until development reached 30-40%. Our data provide evidence that ecosystem functions, such as water infiltration and soil productivity, may be diminished at sites subject to greater levels of urbanization and that conserving ant communities and the ecosystem services they provide could be an important target in land-use planning and conservation efforts. Research that connects the effects of urbanization on biodiversity and ecosystem services is lacking. Ants perform multifarious ecological functions that stabilize ecosystems and contribute to a number of ecosystem services. We studied responses of ant communities to urbanization in the Lake Tahoe basin by sampling sites along a gradient of urban land development. We sampled ant communities, measured vegetation characteristics, quantified human activities, and evaluated ant-community responses by grouping ants into service-providing units (SPUs), defined as a group of organisms and their populations that perform specific ecosystem services, to provide an understanding of urbanization impacts on biodiversity and their delivery of ecosystem services. Species richness and abundance peaked at intermediate levels of urban development, as did the richness of 3 types of ant SPUs (aerators, decomposers, and compilers). With increasing land development aerator and decomposer ants significantly declined in abundance, whereas compiler ants significantly increased in abundance. Competing models demonstrated that precipitation was frequently among the strongest influences on ant community structure; however, urban development and human activities also had a strong, negative influence on ants, appearing in most models with [Delta]AICc < 2 for species richness and abundance patterns of SPUs and generalists. Response diversity was observed within SPUs, which suggests that the corresponding ecosystem services were maintained until development reached 30-40%. Our data provide evidence that ecosystem functions, such as water infiltration and soil productivity, may be diminished at sites subject to greater levels of urbanization and that conserving ant communities and the ecosystem services they provide could be an important target in land-use planning and conservation efforts. [PUBLICATION ABSTRACT] : Research that connects the effects of urbanization on biodiversity and ecosystem services is lacking. Ants perform multifarious ecological functions that stabilize ecosystems and contribute to a number of ecosystem services. We studied responses of ant communities to urbanization in the Lake Tahoe basin by sampling sites along a gradient of urban land development. We sampled ant communities, measured vegetation characteristics, quantified human activities, and evaluated ant‐community responses by grouping ants into service‐providing units (SPUs), defined as a group of organisms and their populations that perform specific ecosystem services, to provide an understanding of urbanization impacts on biodiversity and their delivery of ecosystem services. Species richness and abundance peaked at intermediate levels of urban development, as did the richness of 3 types of ant SPUs (aerators, decomposers, and compilers). With increasing land development aerator and decomposer ants significantly declined in abundance, whereas compiler ants significantly increased in abundance. Competing models demonstrated that precipitation was frequently among the strongest influences on ant community structure; however, urban development and human activities also had a strong, negative influence on ants, appearing in most models with ΔAICc < 2 for species richness and abundance patterns of SPUs and generalists. Response diversity was observed within SPUs, which suggests that the corresponding ecosystem services were maintained until development reached 30–40%. Our data provide evidence that ecosystem functions, such as water infiltration and soil productivity, may be diminished at sites subject to greater levels of urbanization and that conserving ant communities and the ecosystem services they provide could be an important target in land‐use planning and conservation efforts. Resumen: La investigación que relaciona los efectos de la urbanización sobre la biodiversidad con los servicios del ecosistema es escasa. Las hormigas realizan múltiples funciones ecológicas que estabilizan los ecosistemas y contribuyen a un número de servicios del ecosistema. Estudiamos las respuestas de comunidades de hormigas a la urbanización en la cuenca del Lago Tahoe mediante muestreos a lo largo de un gradiente de desarrollo urbano. Muestreamos comunidades de hormigas, medimos características de la vegetación, cuantificamos actividades humanas y evaluamos las respuestas de la comunidad de hormigas agrupándolas en unidades proveedoras de servicio (UPS), definidas como un grupo de organismos y sus poblaciones que realizan servicios específicos, para entender los impactos de la urbanización sobre la biodiversidad y sus servicios al ecosistema. La riqueza y abundancia de especies fue mayor en niveles intermedios de desarrollo urbano, igual que la riqueza de tres tipos de UPS (aereadoras, descomponedoras y compiladoras). Con el incremento del desarrollo urbano la abundancia de las hormigas aereadoras y descomponedoras declinó significativamente, mientras que la abundancia de las compiladoras aumentó significativamente. Los modelos opuestos demostraron que la precipitación frecuentemente estaba entre las influencias más fuertes sobre la estructura de la comunidad de hormigas; sin embargo, el desarrollo urbano y las actividades humanas también tuvieron una fuerte influencia negativa sobre las hormigas, apareciendo en la mayoría de los modelos con Δ AICc < 2 para patrones de riqueza y abundancia de UPS y generalistas. La diversidad de respuestas se observó dentro de las UPS, lo cual sugiere que los servicios del ecosistema correspondientes se mantuvieron hasta que el desarrollo alcanzó 30–40%. Nuestros datos proporcionan evidencia de que los servicios del ecosistema, como la infiltración de agua y la productividad del suelo, pueden disminuir en sitios sujetos a mayores niveles de urbanización y que la conservación de las comunidades de hormigas y los servicios que proporcionan pudiera ser una meta importante de la planificación del uso de suelo y de los esfuerzos de conservación. Research that connects the effects of urbanization on biodiversity and ecosystem services is lacking. Ants perform multifarious ecological functions that stabilize ecosystems and contribute to a number of ecosystem services. We studied responses of ant communities to urbanization in the Lake Tahoe basin by sampling sites along a gradient of urban land development. We sampled ant communities, measured vegetation characteristics, quantified human activities, and evaluated ant-community responses by grouping ants into service-providing units (SPUs), defined as a group of organisms and their populations that perform specific ecosystem services, to provide an understanding of urbanization impacts on biodiversity and their delivery of ecosystem services. Species richness and abundance peaked at intermediate levels of urban development, as did the richness of 3 types of ant SPUs (aerators, decomposers, and compilers). With increasing land development aerator and decomposer ants significantly declined in abundance, whereas compiler ants significantly increased in abundance. Competing models demonstrated that precipitation was frequently among the strongest influences on ant community structure; however, urban development and human activities also had a strong, negative influence on ants, appearing in most models with ΔAICc < 2 for species richness and abundance patterns of SPUs and generalists. Response diversity was observed within SPUs, which suggests that the corresponding ecosystem services were maintained until development reached 30-40%. Our data provide evidence that ecosystem functions, such as water infiltration and soil productivity, may be diminished at sites subject to greater levels of urbanization and that conserving ant communities and the ecosystem services they provide could be an important target in land-use planning and conservation efforts. /// La investigación que relaciona los efectos de la urbanización sobre la biodiversidad con los servicios del ecosistema es escasa. Las hormigas realizan múltiples funciones ecológicas que estabilizan los ecosistemas y contribuyen a un número de servicios del ecosistema. Estudiamos las respuestas de comunidades de hormigas a la urbanización en la cuenca del Lago Tahoe mediante muestreos a lo largo de un gradiente de desarrollo urbano. Muestreamos comunidades de hormigas, medimos características de la vegetación, cuantificamos actividades humanas y evaluamos las respuestas de la comunidad de hormigas agrupándolas en unidades proveedoras de servicio (UPS), definidas como un grupo de organismos y sus poblaciones que realizan servicios específicos, para entender los impactos de la urbanización sobre la biodiversidad y sus servicios al ecosistema. La riqueza y abundancia de especies fue mayor en niveles intermedios de desarrollo urbano, igual que la riqueza de tres tipos de UPS (aereadoras, descomponedoras y compiladoras). Con el incremento del desarrollo urbano la abundancia de las hormigas aereadoras y descomponedoras declinó significativamente, mientras que la abundancia de las compiladoras aumentó significativamente. Los modelos opuestos demostraron que la precipitación frecuentemente estaba entre las influencias más fuertes sobre la estructura de la comunidad de hormigas; sin embargo, el desarrollo urbano y las actividades humanas también tuvieron una fuerte influencia negativa sobre las hormigas, apareciendo en la mayoría de los modelos con Δ AICc < 2 para patrones de riqueza y abundancia de UPS y generalistas. La diversidad de respuestas se observó dentro de las UPS, lo cual sugiere que los servicios del ecosistema correspondientes se mantuvieron hasta que el desarrollo alcanzó 30-40%. Nuestros datos proporcionan evidencia de que los servicios del ecosistema, como la infiltración de agua y la productividad del suelo, pueden disminuir en sitios sujetos a mayores niveles de urbanización y que la conservación de las comunidades de hormigas y los servicios que proporcionan pudiera ser una meta importante de la planificación del uso de suelo y de los esfuerzos de conservación. Research that connects the effects of urbanization on biodiversity and ecosystem services is lacking. Ants perform multifarious ecological functions that stabilize ecosystems and contribute to a number of ecosystem services. We studied responses of ant communities to urbanization in the Lake Tahoe basin by sampling sites along a gradient of urban land development. We sampled ant communities, measured vegetation characteristics, quantified human activities, and evaluated ant-community responses by grouping ants into service-providing units (SPUs), defined as a group of organisms and their populations that perform specific ecosystem services, to provide an understanding of urbanization impacts on biodiversity and their delivery of ecosystem services. Species richness and abundance peaked at intermediate levels of urban development, as did the richness of 3 types of ant SPUs (aerators, decomposers, and compilers). With increasing land development aerator and decomposer ants significantly declined in abundance, whereas compiler ants significantly increased in abundance. Competing models demonstrated that precipitation was frequently among the strongest influences on ant community structure; however, urban development and human activities also had a strong, negative influence on ants, appearing in most models with DeltaAIC(c) < 2 for species richness and abundance patterns of SPUs and generalists. Response diversity was observed within SPUs, which suggests that the corresponding ecosystem services were maintained until development reached 30-40%. Our data provide evidence that ecosystem functions, such as water infiltration and soil productivity, may be diminished at sites subject to greater levels of urbanization and that conserving ant communities and the ecosystem services they provide could be an important target in land-use planning and conservation efforts. |
| Author | MURPHY, DENNIS D. SANFORD, MONTE P. MANLEY, PATRICIA N. |
| Author_xml | – sequence: 1 fullname: SANFORD, MONTE P – sequence: 2 fullname: MANLEY, PATRICIA N – sequence: 3 fullname: MURPHY, DENNIS D |
| BackLink | http://pascal-francis.inist.fr/vibad/index.php?action=getRecordDetail&idt=21078654$$DView record in Pascal Francis https://www.ncbi.nlm.nih.gov/pubmed/18778268$$D View this record in MEDLINE/PubMed |
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| ContentType | Journal Article |
| Copyright | Copyright 2009 Society for Conservation Biology 2008 Society for Conservation Biology 2009 INIST-CNRS 2009, Society for Conservation Biology |
| Copyright_xml | – notice: Copyright 2009 Society for Conservation Biology – notice: 2008 Society for Conservation Biology – notice: 2009 INIST-CNRS – notice: 2009, Society for Conservation Biology |
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| Keywords | Water infiltration ants Formicidae Insecta Forest management Social insect Formicoidea Environmental management service-providing units Infiltration water Freshwater environment Urban development Arthropoda Ecosystem Lake Tahoe Urbanization Ecosystem services Hymenoptera Invertebrata Community Aculeata Environmental protection |
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| SubjectTerms | Analysis of Variance Animal populations Animal, plant and microbial ecology Animals Ants Ants - physiology Applied ecology Biological and medical sciences California Conservation Conservation biology Conservation, protection and management of environment and wildlife Ecosystem Ecosystem services Ecosystems Forest insects forest management Formicidae Fundamental and applied biological sciences. Psychology General aspects Habitat conservation hormigas infiltración de agua Insect communities Insect development Insects Lago tahoe Lake Tahoe Land development manejo de bosques Nevada Parks, reserves, wildlife conservation. Endangered species: population survey and restocking Population Density Population Dynamics Regression Analysis service-providing units servicios del ecosistema Species Species Specificity Sus unidades proveedoras de servicio Urban development Urban Renewal urbanización Urbanization water infiltration |
| Title | Effects of Urban Development on Ant Communities: Implications for Ecosystem Services and Management |
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