Ecosystem Properties of Urban Land Covers at the Aboveground-Belowground Interface

Understanding of ecological differences among urban land covers can guide the sustainable management of urbanized landscapes for conservation of ecosystem services. The objective of our study was to compare ecosystem properties at the aboveground-belowground interface of three land-cover types commo...

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Veröffentlicht in:	Ecosystems (New York) 2008-11, Vol.11 (7), p.1065-1077
Hauptverfasser:	Byrne, Loren B, Bruns, Mary Ann, Kim, Ke Chung
Format:	Artikel
Sprache:	eng
Schlagworte:	Animal and plant ecology Animal, plant and microbial ecology Bark mulches Biological and medical sciences Biomedical and Life Sciences Carbon dioxide Drought Earthworms Ecology Ecosystem conservation Ecosystem services Ecosystems Environmental Management Forest soils Fundamental and applied biological sciences. Psychology General aspects Geoecology/Natural Processes Gravel Habitats Hydrology/Water Resources Land cover Land use Landscape Lawns Life Sciences Organic matter Plant Sciences Soil density Soil ecology Soil organic matter Soil surfaces Soil water Soils Surface temperature Sustainability management Synecology Urban areas Urban soils Urban studies Worms Zoology
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creator	Byrne, Loren B Bruns, Mary Ann Kim, Ke Chung
description	Understanding of ecological differences among urban land covers can guide the sustainable management of urbanized landscapes for conservation of ecosystem services. The objective of our study was to compare ecosystem properties at the aboveground-belowground interface of three land-cover types commonly found in residential landscapes: lawns, bark mulch, and gravel mulch. Using unmowed vegetation as a reference land cover, we measured surface soil variables (to 5 cm depth), CO₂ fluxes, and ground temperatures in experimental field plots within 3 years after their creation. Each land cover had a distinctive set of ecosystem properties. Mulched plots had significantly warmer soil and surface temperatures, wetter soils and faster surface litter decomposition than vegetated plots. Variables associated with soil C and earthworm numbers were consistently lowest in gravel-covered soils, whereas bark mulch plots had highest earthworm abundances, lowest soil bulk density, and temporally variable soil organic matter dynamics. Compared to unmowed plots, lawns had higher soil carbon, CO₂ fluxes, and temperatures but lower earthworm abundances especially during 2005 drought conditions. We conclude that ecosystem properties of the land covers were influenced by the composition, density, and arrangement of materials comprising their aboveground habitat structures. We discuss our results within an ecosystem services framework and suggest that interpretations of our findings depend on in situ urban environmental contexts and landscape management objectives. Future studies of urban land covers, their ecosystem properties and associated ecosystem services are needed to help provide a scientific basis for sustainable urban landscape management.
doi_str_mv	10.1007/S10021-008-9179-3
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Compared to unmowed plots, lawns had higher soil carbon, CO₂ fluxes, and temperatures but lower earthworm abundances especially during 2005 drought conditions. We conclude that ecosystem properties of the land covers were influenced by the composition, density, and arrangement of materials comprising their aboveground habitat structures. We discuss our results within an ecosystem services framework and suggest that interpretations of our findings depend on in situ urban environmental contexts and landscape management objectives. 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The objective of our study was to compare ecosystem properties at the aboveground-belowground interface of three land-cover types commonly found in residential landscapes: lawns, bark mulch, and gravel mulch. Using unmowed vegetation as a reference land cover, we measured surface soil variables (to 5 cm depth), CO₂ fluxes, and ground temperatures in experimental field plots within 3 years after their creation. Each land cover had a distinctive set of ecosystem properties. Mulched plots had significantly warmer soil and surface temperatures, wetter soils and faster surface litter decomposition than vegetated plots. Variables associated with soil C and earthworm numbers were consistently lowest in gravel-covered soils, whereas bark mulch plots had highest earthworm abundances, lowest soil bulk density, and temporally variable soil organic matter dynamics. Compared to unmowed plots, lawns had higher soil carbon, CO₂ fluxes, and temperatures but lower earthworm abundances especially during 2005 drought conditions. We conclude that ecosystem properties of the land covers were influenced by the composition, density, and arrangement of materials comprising their aboveground habitat structures. We discuss our results within an ecosystem services framework and suggest that interpretations of our findings depend on in situ urban environmental contexts and landscape management objectives. Future studies of urban land covers, their ecosystem properties and associated ecosystem services are needed to help provide a scientific basis for sustainable urban landscape management.</abstract><cop>New York</cop><pub>New York : Springer-Verlag</pub><doi>10.1007/S10021-008-9179-3</doi><tpages>13</tpages><oa>free_for_read</oa></addata></record>
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subjects	Animal and plant ecology Animal, plant and microbial ecology Bark mulches Biological and medical sciences Biomedical and Life Sciences Carbon dioxide Drought Earthworms Ecology Ecosystem conservation Ecosystem services Ecosystems Environmental Management Forest soils Fundamental and applied biological sciences. Psychology General aspects Geoecology/Natural Processes Gravel Habitats Hydrology/Water Resources Land cover Land use Landscape Lawns Life Sciences Organic matter Plant Sciences Soil density Soil ecology Soil organic matter Soil surfaces Soil water Soils Surface temperature Sustainability management Synecology Urban areas Urban soils Urban studies Worms Zoology
title	Ecosystem Properties of Urban Land Covers at the Aboveground-Belowground Interface
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