Fragmentation, fiber separation, decomposition, and nutrient release of secondary-forest biomass, mechanically chopped-and-mulched, and cassava production in the Amazon.

Fragmentation, fiber separation, decomposition, and nutrient release of secondary-forest biomass, mechanically chopped-and-mulched, and cassava production in the Amazon.

No-tillage planting in mechanically-chopped secondary-forest seeks to replace slash-and-burning agriculture. We evaluated the effect of horizontal (HC) and vertical (VC) chopping-and-mulching mechanisms on vegetation fragmentation and decomposition rate and nutrient release from chopped residue, and on cassava production in eastern Amazon. Chopped-and-mulched residue was classified into four residue-size (Fs1 = 1?7, Fs2 = 7?25, Fs3 = 25?35, and Fs4 = >35 mm) and six residue-type (with husk/bark ? WB, partially chopped ? PC, compact ? C, partially shredded into fibers ? PS, completely shredded into fibers ? CS, and formless residue ? F) classes. In litter-bags, residual dry matter (DM) was determined at five different days after chopping-and-mulching and residue distribution on soil surface (DAD), whereas release of N, P, K, Ca, and Mg was evaluated at four days. Residues-size and -type classes showed similar decomposition behavior, with a reduction of approximately 60% of initial DM at 90 DAD. Nevertheless, reduction in DM was slow, where 52 days are necessary for half of labile residue to be decomposed, with part of labile and recalcitrant residue remaining on soil surface. DM and nutrients in residue reduced over time. DM was 25% for residues-size classes for HC, 20% for VC, and 26% for residue-type classes, on average, at 300 DAD. Nutrients remaining in residues at 300 DAD were 26% and 27% of N, 26% and 22% of P, 29% and 22% of K, 16% and 15% of Ca, and 17% and 23% of Mg, respectively for HC and VC. Release of nutrients was, generally, greater for smaller residue-size classes, similar between chopping-and-mulching mechanisms, and did not affect cassava yield.

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Main Authors: REICHERT, J. M., RODRIGUES, M. F., BERVALD, C. M. P., BRUNETTO, G., KATO, O. R., SCHUMACHER, M. V.
Other Authors: José Miguel Reichert, UFSM; Miriam Fernanda Rodrigues, UFSM; Clóvis Moisés Priebe Bervald, GSI BRAZIL; Gustavo Brunetto, UFSM; OSVALDO RYOHEI KATO, CPATU; Mauro Valdir Schumacher, UFSM.
Format: Artigo de periódico biblioteca
Language:English
eng
Published: 2015-04-27
Subjects:Corte mecanizado, Propriedade química., Biomassa, Floresta, Mandioca, Solo, Vegetação., Amazonia.,
Online Access:http://www.alice.cnptia.embrapa.br/alice/handle/doc/1014295
http://dx.doi.org/10.1016/j.agee.2015.02.005
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spelling dig-alice-doc-10142952017-08-16T02:15:08Z Fragmentation, fiber separation, decomposition, and nutrient release of secondary-forest biomass, mechanically chopped-and-mulched, and cassava production in the Amazon. REICHERT, J. M. RODRIGUES, M. F. BERVALD, C. M. P. BRUNETTO, G. KATO, O. R. SCHUMACHER, M. V. José Miguel Reichert, UFSM; Miriam Fernanda Rodrigues, UFSM; Clóvis Moisés Priebe Bervald, GSI BRAZIL; Gustavo Brunetto, UFSM; OSVALDO RYOHEI KATO, CPATU; Mauro Valdir Schumacher, UFSM. Corte mecanizado Propriedade química. Biomassa Floresta Mandioca Solo Vegetação. Amazonia. No-tillage planting in mechanically-chopped secondary-forest seeks to replace slash-and-burning agriculture. We evaluated the effect of horizontal (HC) and vertical (VC) chopping-and-mulching mechanisms on vegetation fragmentation and decomposition rate and nutrient release from chopped residue, and on cassava production in eastern Amazon. Chopped-and-mulched residue was classified into four residue-size (Fs1 = 1?7, Fs2 = 7?25, Fs3 = 25?35, and Fs4 = >35 mm) and six residue-type (with husk/bark ? WB, partially chopped ? PC, compact ? C, partially shredded into fibers ? PS, completely shredded into fibers ? CS, and formless residue ? F) classes. In litter-bags, residual dry matter (DM) was determined at five different days after chopping-and-mulching and residue distribution on soil surface (DAD), whereas release of N, P, K, Ca, and Mg was evaluated at four days. Residues-size and -type classes showed similar decomposition behavior, with a reduction of approximately 60% of initial DM at 90 DAD. Nevertheless, reduction in DM was slow, where 52 days are necessary for half of labile residue to be decomposed, with part of labile and recalcitrant residue remaining on soil surface. DM and nutrients in residue reduced over time. DM was 25% for residues-size classes for HC, 20% for VC, and 26% for residue-type classes, on average, at 300 DAD. Nutrients remaining in residues at 300 DAD were 26% and 27% of N, 26% and 22% of P, 29% and 22% of K, 16% and 15% of Ca, and 17% and 23% of Mg, respectively for HC and VC. Release of nutrients was, generally, greater for smaller residue-size classes, similar between chopping-and-mulching mechanisms, and did not affect cassava yield. 2015-04-27T11:11:11Z 2015-04-27T11:11:11Z 2015-04-27 2015 2016-03-10T11:11:11Z Artigo de periódico Agriculture, Ecosystems and Environment, v. 204, p. 8-16, June 2015. http://www.alice.cnptia.embrapa.br/alice/handle/doc/1014295 http://dx.doi.org/10.1016/j.agee.2015.02.005 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 Corte mecanizado
Propriedade química.
Biomassa
Floresta
Mandioca
Solo
Vegetação.
Amazonia.
Corte mecanizado
Propriedade química.
Biomassa
Floresta
Mandioca
Solo
Vegetação.
Amazonia.
spellingShingle Corte mecanizado
Propriedade química.
Biomassa
Floresta
Mandioca
Solo
Vegetação.
Amazonia.
Corte mecanizado
Propriedade química.
Biomassa
Floresta
Mandioca
Solo
Vegetação.
Amazonia.
REICHERT, J. M.
RODRIGUES, M. F.
BERVALD, C. M. P.
BRUNETTO, G.
KATO, O. R.
SCHUMACHER, M. V.
Fragmentation, fiber separation, decomposition, and nutrient release of secondary-forest biomass, mechanically chopped-and-mulched, and cassava production in the Amazon.
description No-tillage planting in mechanically-chopped secondary-forest seeks to replace slash-and-burning agriculture. We evaluated the effect of horizontal (HC) and vertical (VC) chopping-and-mulching mechanisms on vegetation fragmentation and decomposition rate and nutrient release from chopped residue, and on cassava production in eastern Amazon. Chopped-and-mulched residue was classified into four residue-size (Fs1 = 1?7, Fs2 = 7?25, Fs3 = 25?35, and Fs4 = >35 mm) and six residue-type (with husk/bark ? WB, partially chopped ? PC, compact ? C, partially shredded into fibers ? PS, completely shredded into fibers ? CS, and formless residue ? F) classes. In litter-bags, residual dry matter (DM) was determined at five different days after chopping-and-mulching and residue distribution on soil surface (DAD), whereas release of N, P, K, Ca, and Mg was evaluated at four days. Residues-size and -type classes showed similar decomposition behavior, with a reduction of approximately 60% of initial DM at 90 DAD. Nevertheless, reduction in DM was slow, where 52 days are necessary for half of labile residue to be decomposed, with part of labile and recalcitrant residue remaining on soil surface. DM and nutrients in residue reduced over time. DM was 25% for residues-size classes for HC, 20% for VC, and 26% for residue-type classes, on average, at 300 DAD. Nutrients remaining in residues at 300 DAD were 26% and 27% of N, 26% and 22% of P, 29% and 22% of K, 16% and 15% of Ca, and 17% and 23% of Mg, respectively for HC and VC. Release of nutrients was, generally, greater for smaller residue-size classes, similar between chopping-and-mulching mechanisms, and did not affect cassava yield.
author2 José Miguel Reichert, UFSM; Miriam Fernanda Rodrigues, UFSM; Clóvis Moisés Priebe Bervald, GSI BRAZIL; Gustavo Brunetto, UFSM; OSVALDO RYOHEI KATO, CPATU; Mauro Valdir Schumacher, UFSM.
author_facet José Miguel Reichert, UFSM; Miriam Fernanda Rodrigues, UFSM; Clóvis Moisés Priebe Bervald, GSI BRAZIL; Gustavo Brunetto, UFSM; OSVALDO RYOHEI KATO, CPATU; Mauro Valdir Schumacher, UFSM.
REICHERT, J. M.
RODRIGUES, M. F.
BERVALD, C. M. P.
BRUNETTO, G.
KATO, O. R.
SCHUMACHER, M. V.
format Artigo de periódico
topic_facet Corte mecanizado
Propriedade química.
Biomassa
Floresta
Mandioca
Solo
Vegetação.
Amazonia.
author REICHERT, J. M.
RODRIGUES, M. F.
BERVALD, C. M. P.
BRUNETTO, G.
KATO, O. R.
SCHUMACHER, M. V.
author_sort REICHERT, J. M.
title Fragmentation, fiber separation, decomposition, and nutrient release of secondary-forest biomass, mechanically chopped-and-mulched, and cassava production in the Amazon.
title_short Fragmentation, fiber separation, decomposition, and nutrient release of secondary-forest biomass, mechanically chopped-and-mulched, and cassava production in the Amazon.
title_full Fragmentation, fiber separation, decomposition, and nutrient release of secondary-forest biomass, mechanically chopped-and-mulched, and cassava production in the Amazon.
title_fullStr Fragmentation, fiber separation, decomposition, and nutrient release of secondary-forest biomass, mechanically chopped-and-mulched, and cassava production in the Amazon.
title_full_unstemmed Fragmentation, fiber separation, decomposition, and nutrient release of secondary-forest biomass, mechanically chopped-and-mulched, and cassava production in the Amazon.
title_sort fragmentation, fiber separation, decomposition, and nutrient release of secondary-forest biomass, mechanically chopped-and-mulched, and cassava production in the amazon.
publishDate 2015-04-27
url http://www.alice.cnptia.embrapa.br/alice/handle/doc/1014295
http://dx.doi.org/10.1016/j.agee.2015.02.005
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