Ecosystem services from converted land: the importance of tree cover in Amazonian pastures.

Ecosystem services from converted land: the importance of tree cover in Amazonian pastures.

Deforestation is responsible for a substantial fraction of global carbon emissions and changes in surface energy budgets that affect climate. Deforestation losses include wildlife and human habitat, and myriad forest products on which rural and urban societies depend for food, fiber, fuel, fresh water, medicine, and recreation. Ecosystem services gained in the transition from forests to pasture and croplands, however, are often ignored in assessments of the impact of land cover change. The role of converted lands in tropical areas in terms of carbon uptake and storage is largely unknown. Pastures represent the fastest-growing form of converted land use in the tropics, even in some areas of rapid urban expansion. Tree biomass stored in these areas spans a broad range, depending on tree cover. Trees in pasture increase carbon storage, provide shade for cattle, and increase productivity of forage material. As a result, increasing fractional tree cover can provide benefits land managers as well as important ecosystem services such as reducing conversion pressure on forests adjacent to pastures. This study presents an estimation of fractional tree cover in pasture in a dynamic region on the verge of large-scale land use change. An appropriate sampling interval is established for similar studies, one that balances the need for independent samples of sufficient number to characterize a pasture in terms of fractional tree cover. This information represents a useful policy tool for government organizations and NGOs interested in encouraging ecosystem services on converted lands. Using high spatial resolution Rio Branco, Brazil. A semivariogram and devolving spatial resolution are employed to determine the coarsest sampling interval that may be used, minimizing effects of spatial autocorrelation. The coarsest sampling interval that minimizes spatial dependence was about 22 m. The area-weighted fractional tree cover for the study area was 1.85 %, corrected for a slight bias associated with the coarser sampling resolution. The pastures sampled for fractional tree cover were divided between ?high? and ?low? tree cover, which may be the result of intentional incorporation of arboreal species in pasture. Further research involving those ranchers that have a higher fractional tree cover may indicate ways to promote the practice on a broader scale in the region.

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Bibliographic Details
Main Authors: BARRETT, K., VALENTIM, J. F., TURNER II, B. L.
Other Authors: KIRSTEN BARRETT, Graduate School of Geography, Clark University, Worcester, MA, USA; JUDSON FERREIRA VALENTIM, CPAF-AC; B. L. TURNER II, School of Geographical Sciences and Urban Planning, and School of Sustainability, Arizona State University, Tempe, AZ, USA.
Format: Artigo de periódico biblioteca
Language:Ingles
English
Published: 2021-05-24
Subjects:Serviços ecossistêmicos, Deforestación, Cambio climático, Cubierta (plantas), Pastizales, Servicios ecosistémicos, Desmatamento, Impacto Ambiental, Mudança Climática, Planta de Cobertura, Pastagem, Deforestation, Environmental impact, Climate change, Canopy, Pastures, Ecosystem services, Amazonia,
Online Access:http://www.alice.cnptia.embrapa.br/alice/handle/doc/1131969
https://doi.org/10.1007/s11252-012-0280-1
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spelling dig-alice-doc-11319692021-05-24T15:26:19Z Ecosystem services from converted land: the importance of tree cover in Amazonian pastures. BARRETT, K. VALENTIM, J. F. TURNER II, B. L. KIRSTEN BARRETT, Graduate School of Geography, Clark University, Worcester, MA, USA; JUDSON FERREIRA VALENTIM, CPAF-AC; B. L. TURNER II, School of Geographical Sciences and Urban Planning, and School of Sustainability, Arizona State University, Tempe, AZ, USA. Serviços ecossistêmicos Deforestación Cambio climático Cubierta (plantas) Pastizales Servicios ecosistémicos Desmatamento Impacto Ambiental Mudança Climática Planta de Cobertura Pastagem Deforestation Environmental impact Climate change Canopy Pastures Ecosystem services Amazonia Deforestation is responsible for a substantial fraction of global carbon emissions and changes in surface energy budgets that affect climate. Deforestation losses include wildlife and human habitat, and myriad forest products on which rural and urban societies depend for food, fiber, fuel, fresh water, medicine, and recreation. Ecosystem services gained in the transition from forests to pasture and croplands, however, are often ignored in assessments of the impact of land cover change. The role of converted lands in tropical areas in terms of carbon uptake and storage is largely unknown. Pastures represent the fastest-growing form of converted land use in the tropics, even in some areas of rapid urban expansion. Tree biomass stored in these areas spans a broad range, depending on tree cover. Trees in pasture increase carbon storage, provide shade for cattle, and increase productivity of forage material. As a result, increasing fractional tree cover can provide benefits land managers as well as important ecosystem services such as reducing conversion pressure on forests adjacent to pastures. This study presents an estimation of fractional tree cover in pasture in a dynamic region on the verge of large-scale land use change. An appropriate sampling interval is established for similar studies, one that balances the need for independent samples of sufficient number to characterize a pasture in terms of fractional tree cover. This information represents a useful policy tool for government organizations and NGOs interested in encouraging ecosystem services on converted lands. Using high spatial resolution Rio Branco, Brazil. A semivariogram and devolving spatial resolution are employed to determine the coarsest sampling interval that may be used, minimizing effects of spatial autocorrelation. The coarsest sampling interval that minimizes spatial dependence was about 22 m. The area-weighted fractional tree cover for the study area was 1.85 %, corrected for a slight bias associated with the coarser sampling resolution. The pastures sampled for fractional tree cover were divided between ?high? and ?low? tree cover, which may be the result of intentional incorporation of arboreal species in pasture. Further research involving those ranchers that have a higher fractional tree cover may indicate ways to promote the practice on a broader scale in the region. 2021-05-24T15:26:11Z 2021-05-24T15:26:11Z 2021-05-24 2013 Artigo de periódico Urban Ecosystems, v. 16, p. 573-591, 2013. 1083-8155 http://www.alice.cnptia.embrapa.br/alice/handle/doc/1131969 https://doi.org/10.1007/s11252-012-0280-1 Ingles en openAccess
institution EMBRAPA
collection DSpace
country Brasil
countrycode BR
component Bibliográfico
access En linea
databasecode dig-alice
tag biblioteca
region America del Sur
libraryname Sistema de bibliotecas de EMBRAPA
language Ingles
English
topic Serviços ecossistêmicos
Deforestación
Cambio climático
Cubierta (plantas)
Pastizales
Servicios ecosistémicos
Desmatamento
Impacto Ambiental
Mudança Climática
Planta de Cobertura
Pastagem
Deforestation
Environmental impact
Climate change
Canopy
Pastures
Ecosystem services
Amazonia
Serviços ecossistêmicos
Deforestación
Cambio climático
Cubierta (plantas)
Pastizales
Servicios ecosistémicos
Desmatamento
Impacto Ambiental
Mudança Climática
Planta de Cobertura
Pastagem
Deforestation
Environmental impact
Climate change
Canopy
Pastures
Ecosystem services
Amazonia
spellingShingle Serviços ecossistêmicos
Deforestación
Cambio climático
Cubierta (plantas)
Pastizales
Servicios ecosistémicos
Desmatamento
Impacto Ambiental
Mudança Climática
Planta de Cobertura
Pastagem
Deforestation
Environmental impact
Climate change
Canopy
Pastures
Ecosystem services
Amazonia
Serviços ecossistêmicos
Deforestación
Cambio climático
Cubierta (plantas)
Pastizales
Servicios ecosistémicos
Desmatamento
Impacto Ambiental
Mudança Climática
Planta de Cobertura
Pastagem
Deforestation
Environmental impact
Climate change
Canopy
Pastures
Ecosystem services
Amazonia
BARRETT, K.
VALENTIM, J. F.
TURNER II, B. L.
Ecosystem services from converted land: the importance of tree cover in Amazonian pastures.
description Deforestation is responsible for a substantial fraction of global carbon emissions and changes in surface energy budgets that affect climate. Deforestation losses include wildlife and human habitat, and myriad forest products on which rural and urban societies depend for food, fiber, fuel, fresh water, medicine, and recreation. Ecosystem services gained in the transition from forests to pasture and croplands, however, are often ignored in assessments of the impact of land cover change. The role of converted lands in tropical areas in terms of carbon uptake and storage is largely unknown. Pastures represent the fastest-growing form of converted land use in the tropics, even in some areas of rapid urban expansion. Tree biomass stored in these areas spans a broad range, depending on tree cover. Trees in pasture increase carbon storage, provide shade for cattle, and increase productivity of forage material. As a result, increasing fractional tree cover can provide benefits land managers as well as important ecosystem services such as reducing conversion pressure on forests adjacent to pastures. This study presents an estimation of fractional tree cover in pasture in a dynamic region on the verge of large-scale land use change. An appropriate sampling interval is established for similar studies, one that balances the need for independent samples of sufficient number to characterize a pasture in terms of fractional tree cover. This information represents a useful policy tool for government organizations and NGOs interested in encouraging ecosystem services on converted lands. Using high spatial resolution Rio Branco, Brazil. A semivariogram and devolving spatial resolution are employed to determine the coarsest sampling interval that may be used, minimizing effects of spatial autocorrelation. The coarsest sampling interval that minimizes spatial dependence was about 22 m. The area-weighted fractional tree cover for the study area was 1.85 %, corrected for a slight bias associated with the coarser sampling resolution. The pastures sampled for fractional tree cover were divided between ?high? and ?low? tree cover, which may be the result of intentional incorporation of arboreal species in pasture. Further research involving those ranchers that have a higher fractional tree cover may indicate ways to promote the practice on a broader scale in the region.
author2 KIRSTEN BARRETT, Graduate School of Geography, Clark University, Worcester, MA, USA; JUDSON FERREIRA VALENTIM, CPAF-AC; B. L. TURNER II, School of Geographical Sciences and Urban Planning, and School of Sustainability, Arizona State University, Tempe, AZ, USA.
author_facet KIRSTEN BARRETT, Graduate School of Geography, Clark University, Worcester, MA, USA; JUDSON FERREIRA VALENTIM, CPAF-AC; B. L. TURNER II, School of Geographical Sciences and Urban Planning, and School of Sustainability, Arizona State University, Tempe, AZ, USA.
BARRETT, K.
VALENTIM, J. F.
TURNER II, B. L.
format Artigo de periódico
topic_facet Serviços ecossistêmicos
Deforestación
Cambio climático
Cubierta (plantas)
Pastizales
Servicios ecosistémicos
Desmatamento
Impacto Ambiental
Mudança Climática
Planta de Cobertura
Pastagem
Deforestation
Environmental impact
Climate change
Canopy
Pastures
Ecosystem services
Amazonia
author BARRETT, K.
VALENTIM, J. F.
TURNER II, B. L.
author_sort BARRETT, K.
title Ecosystem services from converted land: the importance of tree cover in Amazonian pastures.
title_short Ecosystem services from converted land: the importance of tree cover in Amazonian pastures.
title_full Ecosystem services from converted land: the importance of tree cover in Amazonian pastures.
title_fullStr Ecosystem services from converted land: the importance of tree cover in Amazonian pastures.
title_full_unstemmed Ecosystem services from converted land: the importance of tree cover in Amazonian pastures.
title_sort ecosystem services from converted land: the importance of tree cover in amazonian pastures.
publishDate 2021-05-24
url http://www.alice.cnptia.embrapa.br/alice/handle/doc/1131969
https://doi.org/10.1007/s11252-012-0280-1
work_keys_str_mv AT barrettk ecosystemservicesfromconvertedlandtheimportanceoftreecoverinamazonianpastures
AT valentimjf ecosystemservicesfromconvertedlandtheimportanceoftreecoverinamazonianpastures
AT turneriibl ecosystemservicesfromconvertedlandtheimportanceoftreecoverinamazonianpastures
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