Could bovine livestock intensification in Pantanal be neutral regarding enteric methane emissions?

Could bovine livestock intensification in Pantanal be neutral regarding enteric methane emissions?

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Bovine livestock is a major anthropogenic greenhouse gas source via entericmethane. Brazilian bovine livestock is also responsible for emissions from land-use changes. In contrast, enteric emissions from extensive cattle systems in wetlands might have been overestimated.We provide scientific evidences that the human footprint of bovine products delivered by the Pantanal can be much lower. To assess this, a historical cloud-free imagery of the Landsat-5, spanning 26 years, were processed for mapping spatiotemporal landscapes in a Pantanal farm under cattle intensification studies. Eight landscape categories were identified according to spatiotemporal dynamics of interannual floods. The spatiotemporal map allowed in the field the adoption of stratified randomsamplings of chamber gas fluxes. The combination of stratified sampled landscapes with Monte Carlo simulations of measured methane emissions in wet and dry soils permitted to integrate landscapes emissions at annual basis with biased uncertainties. Assuming enteric emissions obtained for the Pantanal region, our results suggest that the landscapes methane emissions are 10- to 23-fold superior than the enteric emissions of traditional bovine systems. While enteric emissions seem negligible with respect to net farmland emissions, cattle livestock provide important environmental services like carbon recycling through non-competing herbivory. Moreover, cattlemight be making use of a biomass thatwould undergo decomposition during the flooding phase. Our analysis thus indicate that enteric emissions from traditional bovine systems in flooding farmlands could be considered neutral. By contrast, intensification to improve the stocking rate should be accounted as net anthropogenic emissions. A case study of intensification allowed an increase of 48% in the stocking rate,which is associatedwith net anthropogenic emissions from534 bovine animals or about 27 to 63Mg of enteric CH4 per year. In short, the competition between traditional and distinct levels of cattle intensification will result from a trade-off between public policies and strategic market niches (organic, sustainable) for the optimal landscape management of the Pantanal.

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Main Authors: BERGIER, I., SILVA, A. P. S., ABREU, U. G. P. de, OLIVEIRA, L. O. F. de, TOMAZI, M., DIAS, F. R. T., URBANETZ, C., NOGUEIRA, E., SILVA, J. C. B.
Other Authors: IVAN BERGIER TAVARES DE LIMA, CPAP; URBANO GOMES PINTO DE ABREU, CPAP; LUIZ ORCIRIO FIALHO DE OLIVEIRA, CNPGC; MICHELY TOMAZI, CPAO; FERNANDO RODRIGUES TEIXEIRA DIAS, CPAP; CATIA URBANETZ, CPAP; ERIKLIS NOGUEIRA, CPAP; JULIANA CORREA BORGES SILVA, CPAP.
Format: Artigo de periódico biblioteca
Language:English
eng
Published: 2019-09-19
Subjects:Efeito Estufa, Metano, Pecuária, Methane, Beef cattle, Livestock, Greenhouse gases,
Online Access:http://www.alice.cnptia.embrapa.br/alice/handle/doc/1112323
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spelling dig-alice-doc-11123232019-10-29T00:41:53Z Could bovine livestock intensification in Pantanal be neutral regarding enteric methane emissions? BERGIER, I. SILVA, A. P. S. ABREU, U. G. P. de OLIVEIRA, L. O. F. de TOMAZI, M. DIAS, F. R. T. URBANETZ, C. NOGUEIRA, E. SILVA, J. C. B. IVAN BERGIER TAVARES DE LIMA, CPAP; URBANO GOMES PINTO DE ABREU, CPAP; LUIZ ORCIRIO FIALHO DE OLIVEIRA, CNPGC; MICHELY TOMAZI, CPAO; FERNANDO RODRIGUES TEIXEIRA DIAS, CPAP; CATIA URBANETZ, CPAP; ERIKLIS NOGUEIRA, CPAP; JULIANA CORREA BORGES SILVA, CPAP. Efeito Estufa Metano Pecuária Methane Beef cattle Livestock Greenhouse gases Bovine livestock is a major anthropogenic greenhouse gas source via entericmethane. Brazilian bovine livestock is also responsible for emissions from land-use changes. In contrast, enteric emissions from extensive cattle systems in wetlands might have been overestimated.We provide scientific evidences that the human footprint of bovine products delivered by the Pantanal can be much lower. To assess this, a historical cloud-free imagery of the Landsat-5, spanning 26 years, were processed for mapping spatiotemporal landscapes in a Pantanal farm under cattle intensification studies. Eight landscape categories were identified according to spatiotemporal dynamics of interannual floods. The spatiotemporal map allowed in the field the adoption of stratified randomsamplings of chamber gas fluxes. The combination of stratified sampled landscapes with Monte Carlo simulations of measured methane emissions in wet and dry soils permitted to integrate landscapes emissions at annual basis with biased uncertainties. Assuming enteric emissions obtained for the Pantanal region, our results suggest that the landscapes methane emissions are 10- to 23-fold superior than the enteric emissions of traditional bovine systems. While enteric emissions seem negligible with respect to net farmland emissions, cattle livestock provide important environmental services like carbon recycling through non-competing herbivory. Moreover, cattlemight be making use of a biomass thatwould undergo decomposition during the flooding phase. Our analysis thus indicate that enteric emissions from traditional bovine systems in flooding farmlands could be considered neutral. By contrast, intensification to improve the stocking rate should be accounted as net anthropogenic emissions. A case study of intensification allowed an increase of 48% in the stocking rate,which is associatedwith net anthropogenic emissions from534 bovine animals or about 27 to 63Mg of enteric CH4 per year. In short, the competition between traditional and distinct levels of cattle intensification will result from a trade-off between public policies and strategic market niches (organic, sustainable) for the optimal landscape management of the Pantanal. 2019-10-29T00:41:46Z 2019-10-29T00:41:46Z 2019-09-19 2019 2019-11-14T11:11:11Z Artigo de periódico Science of the Total Environment, v. 655, p. 463-472, 2019. http://www.alice.cnptia.embrapa.br/alice/handle/doc/1112323 10.1016/j.scitotenv.2018.11.178 en eng 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 English
eng
topic Efeito Estufa
Metano
Pecuária
Methane
Beef cattle
Livestock
Greenhouse gases
Efeito Estufa
Metano
Pecuária
Methane
Beef cattle
Livestock
Greenhouse gases
spellingShingle Efeito Estufa
Metano
Pecuária
Methane
Beef cattle
Livestock
Greenhouse gases
Efeito Estufa
Metano
Pecuária
Methane
Beef cattle
Livestock
Greenhouse gases
BERGIER, I.
SILVA, A. P. S.
ABREU, U. G. P. de
OLIVEIRA, L. O. F. de
TOMAZI, M.
DIAS, F. R. T.
URBANETZ, C.
NOGUEIRA, E.
SILVA, J. C. B.
Could bovine livestock intensification in Pantanal be neutral regarding enteric methane emissions?
description Bovine livestock is a major anthropogenic greenhouse gas source via entericmethane. Brazilian bovine livestock is also responsible for emissions from land-use changes. In contrast, enteric emissions from extensive cattle systems in wetlands might have been overestimated.We provide scientific evidences that the human footprint of bovine products delivered by the Pantanal can be much lower. To assess this, a historical cloud-free imagery of the Landsat-5, spanning 26 years, were processed for mapping spatiotemporal landscapes in a Pantanal farm under cattle intensification studies. Eight landscape categories were identified according to spatiotemporal dynamics of interannual floods. The spatiotemporal map allowed in the field the adoption of stratified randomsamplings of chamber gas fluxes. The combination of stratified sampled landscapes with Monte Carlo simulations of measured methane emissions in wet and dry soils permitted to integrate landscapes emissions at annual basis with biased uncertainties. Assuming enteric emissions obtained for the Pantanal region, our results suggest that the landscapes methane emissions are 10- to 23-fold superior than the enteric emissions of traditional bovine systems. While enteric emissions seem negligible with respect to net farmland emissions, cattle livestock provide important environmental services like carbon recycling through non-competing herbivory. Moreover, cattlemight be making use of a biomass thatwould undergo decomposition during the flooding phase. Our analysis thus indicate that enteric emissions from traditional bovine systems in flooding farmlands could be considered neutral. By contrast, intensification to improve the stocking rate should be accounted as net anthropogenic emissions. A case study of intensification allowed an increase of 48% in the stocking rate,which is associatedwith net anthropogenic emissions from534 bovine animals or about 27 to 63Mg of enteric CH4 per year. In short, the competition between traditional and distinct levels of cattle intensification will result from a trade-off between public policies and strategic market niches (organic, sustainable) for the optimal landscape management of the Pantanal.
author2 IVAN BERGIER TAVARES DE LIMA, CPAP; URBANO GOMES PINTO DE ABREU, CPAP; LUIZ ORCIRIO FIALHO DE OLIVEIRA, CNPGC; MICHELY TOMAZI, CPAO; FERNANDO RODRIGUES TEIXEIRA DIAS, CPAP; CATIA URBANETZ, CPAP; ERIKLIS NOGUEIRA, CPAP; JULIANA CORREA BORGES SILVA, CPAP.
author_facet IVAN BERGIER TAVARES DE LIMA, CPAP; URBANO GOMES PINTO DE ABREU, CPAP; LUIZ ORCIRIO FIALHO DE OLIVEIRA, CNPGC; MICHELY TOMAZI, CPAO; FERNANDO RODRIGUES TEIXEIRA DIAS, CPAP; CATIA URBANETZ, CPAP; ERIKLIS NOGUEIRA, CPAP; JULIANA CORREA BORGES SILVA, CPAP.
BERGIER, I.
SILVA, A. P. S.
ABREU, U. G. P. de
OLIVEIRA, L. O. F. de
TOMAZI, M.
DIAS, F. R. T.
URBANETZ, C.
NOGUEIRA, E.
SILVA, J. C. B.
format Artigo de periódico
topic_facet Efeito Estufa
Metano
Pecuária
Methane
Beef cattle
Livestock
Greenhouse gases
author BERGIER, I.
SILVA, A. P. S.
ABREU, U. G. P. de
OLIVEIRA, L. O. F. de
TOMAZI, M.
DIAS, F. R. T.
URBANETZ, C.
NOGUEIRA, E.
SILVA, J. C. B.
author_sort BERGIER, I.
title Could bovine livestock intensification in Pantanal be neutral regarding enteric methane emissions?
title_short Could bovine livestock intensification in Pantanal be neutral regarding enteric methane emissions?
title_full Could bovine livestock intensification in Pantanal be neutral regarding enteric methane emissions?
title_fullStr Could bovine livestock intensification in Pantanal be neutral regarding enteric methane emissions?
title_full_unstemmed Could bovine livestock intensification in Pantanal be neutral regarding enteric methane emissions?
title_sort could bovine livestock intensification in pantanal be neutral regarding enteric methane emissions?
publishDate 2019-09-19
url http://www.alice.cnptia.embrapa.br/alice/handle/doc/1112323
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