Short-term carbon dioxide emission under contrasting soil disturbance levels and organic amendments.

Short-term carbon dioxide emission under contrasting soil disturbance levels and organic amendments.

Agriculture can be either a source or sink of atmospheric CO2 depending on soil management. The application of swine slurry in conventional tilled soils could enhance soil CO2 emission depleting soil organic C stocks. However, the use of recalcitrant C-rich organic fertilizers in no-till soils can offset soil CO2 emission promoting soil C sequestration. This hypothesis was tested by evaluating short-term CO2-C emissions from a Rhodic Nitisol under contrasting soil disturbance levels (disturbed (DS) and undisturbed soil (US)) top-dressed with mineral or organic fertilizers (urea (UR), raw swine slurry (RS),anaerobically digested swine slurry (ADS), and composted swine slurry (CS)). Soil CO2 emission was evaluated for 64 days using static chambers where gas samples were collected and analysed by photoacoustic infrared spectroscopy. Soil water-filled pore space (WFPS), temperature and meteorologi-cal data were concomitantly registered and a first-order exponential decay model was used to assess the decomposition of organic fertilizers and CO2 emissions induced by soil disturbance. Soil CO2-C emission was correlated with soil temperature, while limiting soil aeration impaired CO2-C efflux when WFPS >0.6 cm3cm3. Disturbance increased soil CO2-C efflux (36.3 2.2 kg CO2-C ha1 day1) in relation to US (33.3 1.6 kg CO2-C ha1 day1). Extra labile C input through RS amendment induced an increased soil CO2-C efflux for a longer period (t1/2 = 16.9 and 9.6 days in DS and US treatments, respectively), resulting in higher CO2-C emissions than soil amended with other fertilizers. The recalcitrant C input by ADS and CS had limited effect on soil CO2-C emissions. CS presented a genuine potential for substantial soil organic C accumulation while offsetting increased CO2-C emissions in comparison to RS amended soils.

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Bibliographic Details
Main Authors: GRAVE, R. A., NICOLOSO, R. da S., CASSOL, P. C., AITA, C., CORREA, J. C., DALLA COSTA, M., FRITZ, D. D.
Other Authors: ROBERTO ANDRÉ GRAVE, IFC/Concórdia; RODRIGO DA SILVEIRA NICOLOSO, CNPSA; PAULO CEZAR CASSOL, UDESC; CELSO AITA, UFSM; JULIANO CORULLI CORREA, CNPSA; MORGANA DALLA COSTA; DIEGO DANIEL FRITZ.
Format: Artigo de periódico biblioteca
Language:English
eng
Published: 2014-12-05
Subjects:Emissão de gases, Plantio direto, Compostagem, Dejeto, Urina, Suíno, Biogás, No-tillage, Pig manure, Greenhouse gas emissions,
Online Access:http://www.alice.cnptia.embrapa.br/alice/handle/doc/1001817
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spelling dig-alice-doc-10018172019-07-19T00:39:47Z Short-term carbon dioxide emission under contrasting soil disturbance levels and organic amendments. GRAVE, R. A. NICOLOSO, R. da S. CASSOL, P. C. AITA, C. CORREA, J. C. DALLA COSTA, M. FRITZ, D. D. ROBERTO ANDRÉ GRAVE, IFC/Concórdia; RODRIGO DA SILVEIRA NICOLOSO, CNPSA; PAULO CEZAR CASSOL, UDESC; CELSO AITA, UFSM; JULIANO CORULLI CORREA, CNPSA; MORGANA DALLA COSTA; DIEGO DANIEL FRITZ. Emissão de gases Plantio direto Compostagem Dejeto Urina Suíno Biogás No-tillage Pig manure Greenhouse gas emissions Agriculture can be either a source or sink of atmospheric CO2 depending on soil management. The application of swine slurry in conventional tilled soils could enhance soil CO2 emission depleting soil organic C stocks. However, the use of recalcitrant C-rich organic fertilizers in no-till soils can offset soil CO2 emission promoting soil C sequestration. This hypothesis was tested by evaluating short-term CO2-C emissions from a Rhodic Nitisol under contrasting soil disturbance levels (disturbed (DS) and undisturbed soil (US)) top-dressed with mineral or organic fertilizers (urea (UR), raw swine slurry (RS),anaerobically digested swine slurry (ADS), and composted swine slurry (CS)). Soil CO2 emission was evaluated for 64 days using static chambers where gas samples were collected and analysed by photoacoustic infrared spectroscopy. Soil water-filled pore space (WFPS), temperature and meteorologi-cal data were concomitantly registered and a first-order exponential decay model was used to assess the decomposition of organic fertilizers and CO2 emissions induced by soil disturbance. Soil CO2-C emission was correlated with soil temperature, while limiting soil aeration impaired CO2-C efflux when WFPS >0.6 cm3cm3. Disturbance increased soil CO2-C efflux (36.3 2.2 kg CO2-C ha1 day1) in relation to US (33.3 1.6 kg CO2-C ha1 day1). Extra labile C input through RS amendment induced an increased soil CO2-C efflux for a longer period (t1/2 = 16.9 and 9.6 days in DS and US treatments, respectively), resulting in higher CO2-C emissions than soil amended with other fertilizers. The recalcitrant C input by ADS and CS had limited effect on soil CO2-C emissions. CS presented a genuine potential for substantial soil organic C accumulation while offsetting increased CO2-C emissions in comparison to RS amended soils. 2019-07-19T00:39:40Z 2019-07-19T00:39:40Z 2014-12-05 2015 2019-07-19T00:39:40Z Artigo de periódico Soil & Tillage Research, v. 146, p. 184-192, 2015. http://www.alice.cnptia.embrapa.br/alice/handle/doc/1001817 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 Emissão de gases
Plantio direto
Compostagem
Dejeto
Urina
Suíno
Biogás
No-tillage
Pig manure
Greenhouse gas emissions
Emissão de gases
Plantio direto
Compostagem
Dejeto
Urina
Suíno
Biogás
No-tillage
Pig manure
Greenhouse gas emissions
spellingShingle Emissão de gases
Plantio direto
Compostagem
Dejeto
Urina
Suíno
Biogás
No-tillage
Pig manure
Greenhouse gas emissions
Emissão de gases
Plantio direto
Compostagem
Dejeto
Urina
Suíno
Biogás
No-tillage
Pig manure
Greenhouse gas emissions
GRAVE, R. A.
NICOLOSO, R. da S.
CASSOL, P. C.
AITA, C.
CORREA, J. C.
DALLA COSTA, M.
FRITZ, D. D.
Short-term carbon dioxide emission under contrasting soil disturbance levels and organic amendments.
description Agriculture can be either a source or sink of atmospheric CO2 depending on soil management. The application of swine slurry in conventional tilled soils could enhance soil CO2 emission depleting soil organic C stocks. However, the use of recalcitrant C-rich organic fertilizers in no-till soils can offset soil CO2 emission promoting soil C sequestration. This hypothesis was tested by evaluating short-term CO2-C emissions from a Rhodic Nitisol under contrasting soil disturbance levels (disturbed (DS) and undisturbed soil (US)) top-dressed with mineral or organic fertilizers (urea (UR), raw swine slurry (RS),anaerobically digested swine slurry (ADS), and composted swine slurry (CS)). Soil CO2 emission was evaluated for 64 days using static chambers where gas samples were collected and analysed by photoacoustic infrared spectroscopy. Soil water-filled pore space (WFPS), temperature and meteorologi-cal data were concomitantly registered and a first-order exponential decay model was used to assess the decomposition of organic fertilizers and CO2 emissions induced by soil disturbance. Soil CO2-C emission was correlated with soil temperature, while limiting soil aeration impaired CO2-C efflux when WFPS >0.6 cm3cm3. Disturbance increased soil CO2-C efflux (36.3 2.2 kg CO2-C ha1 day1) in relation to US (33.3 1.6 kg CO2-C ha1 day1). Extra labile C input through RS amendment induced an increased soil CO2-C efflux for a longer period (t1/2 = 16.9 and 9.6 days in DS and US treatments, respectively), resulting in higher CO2-C emissions than soil amended with other fertilizers. The recalcitrant C input by ADS and CS had limited effect on soil CO2-C emissions. CS presented a genuine potential for substantial soil organic C accumulation while offsetting increased CO2-C emissions in comparison to RS amended soils.
author2 ROBERTO ANDRÉ GRAVE, IFC/Concórdia; RODRIGO DA SILVEIRA NICOLOSO, CNPSA; PAULO CEZAR CASSOL, UDESC; CELSO AITA, UFSM; JULIANO CORULLI CORREA, CNPSA; MORGANA DALLA COSTA; DIEGO DANIEL FRITZ.
author_facet ROBERTO ANDRÉ GRAVE, IFC/Concórdia; RODRIGO DA SILVEIRA NICOLOSO, CNPSA; PAULO CEZAR CASSOL, UDESC; CELSO AITA, UFSM; JULIANO CORULLI CORREA, CNPSA; MORGANA DALLA COSTA; DIEGO DANIEL FRITZ.
GRAVE, R. A.
NICOLOSO, R. da S.
CASSOL, P. C.
AITA, C.
CORREA, J. C.
DALLA COSTA, M.
FRITZ, D. D.
format Artigo de periódico
topic_facet Emissão de gases
Plantio direto
Compostagem
Dejeto
Urina
Suíno
Biogás
No-tillage
Pig manure
Greenhouse gas emissions
author GRAVE, R. A.
NICOLOSO, R. da S.
CASSOL, P. C.
AITA, C.
CORREA, J. C.
DALLA COSTA, M.
FRITZ, D. D.
author_sort GRAVE, R. A.
title Short-term carbon dioxide emission under contrasting soil disturbance levels and organic amendments.
title_short Short-term carbon dioxide emission under contrasting soil disturbance levels and organic amendments.
title_full Short-term carbon dioxide emission under contrasting soil disturbance levels and organic amendments.
title_fullStr Short-term carbon dioxide emission under contrasting soil disturbance levels and organic amendments.
title_full_unstemmed Short-term carbon dioxide emission under contrasting soil disturbance levels and organic amendments.
title_sort short-term carbon dioxide emission under contrasting soil disturbance levels and organic amendments.
publishDate 2014-12-05
url http://www.alice.cnptia.embrapa.br/alice/handle/doc/1001817
work_keys_str_mv AT gravera shorttermcarbondioxideemissionundercontrastingsoildisturbancelevelsandorganicamendments
AT nicolosordas shorttermcarbondioxideemissionundercontrastingsoildisturbancelevelsandorganicamendments
AT cassolpc shorttermcarbondioxideemissionundercontrastingsoildisturbancelevelsandorganicamendments
AT aitac shorttermcarbondioxideemissionundercontrastingsoildisturbancelevelsandorganicamendments
AT correajc shorttermcarbondioxideemissionundercontrastingsoildisturbancelevelsandorganicamendments
AT dallacostam shorttermcarbondioxideemissionundercontrastingsoildisturbancelevelsandorganicamendments
AT fritzdd shorttermcarbondioxideemissionundercontrastingsoildisturbancelevelsandorganicamendments
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