BIOCHAR: REALITY AND POTENCIAL USE IN FORESTRY

Detalhes bibliográficos
Autor(a) principal: Trazzi, Paulo André
Data de Publicação: 2018
Outros Autores: Higa, Antonio Rioyei, Dieckow, Jeferson, Mangrich, Antonio Salvio, Higa, Rosana Clara Vitoria
Tipo de documento: Artigo
Idioma: por
Título da fonte: Ciência Florestal (Online)
Texto Completo: https://periodicos.ufsm.br/cienciaflorestal/article/view/32128
Resumo: The use of carbonized plant biomass has been recovered and evaluated as an alternative of improving soil fertility. The material generated, called biochar, is the product formed by pyrolysis, which is the thermal decomposition of biomass in a closed container under limited supply of oxygen and at relatively low temperatures. The chemical and structural composition of biochar is highly heterogeneous, with the exception of pH, which is usually higher than seven. Some properties are present in all kinds of biochar, including high carbon content and degree of aromaticity, which explains its high level of recalcitrance. However, its exact chemical composition and structure depends on the combination of raw material and pyrolysis conditions. When applied to soil, biochar can increase pH, cation exchange capacity and organic carbon and nutrient availability, raises in the abundance and functioning of mycorrhizal fungi, providing refuge for micro-organisms in the biochar micropores and improving soil structure and water availability. All these features in the soil interaction make its use in the agriculture normally to have positive effects on plant growth. It is believed that the use of biochar can contribute to carbon sequestration, it is considered by many as "carbon negative" due to its ability to promote plant growth and its stability in the soil. Studies with biochar have reached worldwide proportions involving different areas, and have grown a lot in recent years. However, there are still many uncertainties about its use in agriculture, mainly because the published papers have given more focus to biochar ability to maintain and improve soil fertility and increase agricultural productivity than to clarify the possible risks involved in biochar utilization.
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spelling BIOCHAR: REALITY AND POTENCIAL USE IN FORESTRYBIOCARVÃO: REALIDADE E POTENCIAL DE USO NO MEIO FLORESTALplant growthpyrogenic carbonsoil fertility.crescimento vegetalcarbono pirogênicofertilidade do soloThe use of carbonized plant biomass has been recovered and evaluated as an alternative of improving soil fertility. The material generated, called biochar, is the product formed by pyrolysis, which is the thermal decomposition of biomass in a closed container under limited supply of oxygen and at relatively low temperatures. The chemical and structural composition of biochar is highly heterogeneous, with the exception of pH, which is usually higher than seven. Some properties are present in all kinds of biochar, including high carbon content and degree of aromaticity, which explains its high level of recalcitrance. However, its exact chemical composition and structure depends on the combination of raw material and pyrolysis conditions. When applied to soil, biochar can increase pH, cation exchange capacity and organic carbon and nutrient availability, raises in the abundance and functioning of mycorrhizal fungi, providing refuge for micro-organisms in the biochar micropores and improving soil structure and water availability. All these features in the soil interaction make its use in the agriculture normally to have positive effects on plant growth. It is believed that the use of biochar can contribute to carbon sequestration, it is considered by many as "carbon negative" due to its ability to promote plant growth and its stability in the soil. Studies with biochar have reached worldwide proportions involving different areas, and have grown a lot in recent years. However, there are still many uncertainties about its use in agriculture, mainly because the published papers have given more focus to biochar ability to maintain and improve soil fertility and increase agricultural productivity than to clarify the possible risks involved in biochar utilization.O uso de resíduos vegetais carbonizados vem sendo resgatado e avaliado como alternativa para melhorar a qualidade do solo. O material gerado, denominado biocarvão, é o produto formado a partir da pirólise, que é a alteração térmica da biomassa em ambiente fechado, com suprimento limitado de oxigênio e em temperaturas relativamente baixas. A composição química e estrutural do biocarvão é altamente heterogênea, mas o pH é normalmente maior que sete. Algumas propriedades estão presentes em todos os biocarvões, incluindo alto teor de carbono e grau de aromaticidade, o que explica seu alto nível de recalcitrância. Contudo, a exata composição química e estrutural é dependente da combinação da matéria-prima e das condições de pirólise. Quando aplicado ao solo, o biocarvão pode aumentar o pH, a capacidade de troca de cátions, o teor de carbono orgânico e a disponibilidade de nutrientes; alterar a abundância e funcionamento de fungos micorrízicos e prover refúgio para microrganismos nos microporos do biocarvão; e melhorar a estrutura do solo e disponibilidade de água. Todas estas características de interação com o solo fazem com que a sua utilização no meio agrícola apresente normalmente efeitos positivos para o crescimento vegetal. Acredita-se também que a utilização de biocarvão possa contribuir para o sequestro de carbono, sendo considerado por muitos como “carbono negativo”, devido a sua capacidade de promover o crescimento vegetal e pela sua estabilidade no solo. Estudos com o biocarvão já atingiram proporções de escala mundial envolvendo diversas áreas e têm crescido muito nos últimos anos. No entanto, ainda existem muitas incertezas sobre a sua utilização na agricultura, devido principalmente ao fato de que os trabalhos publicados têm dado mais atenção a sua capacidade de manutenção e melhoria da fertilidade do solo e aumento da produtividade agrícola do que esclarecimentos dos possíveis riscos envolvidos na utilização do biocarvão.Universidade Federal de Santa Maria2018-06-29info:eu-repo/semantics/articleinfo:eu-repo/semantics/publishedVersionapplication/pdfhttps://periodicos.ufsm.br/cienciaflorestal/article/view/3212810.5902/1980509832128Ciência Florestal; Vol. 28 No. 2 (2018); 875-887Ciência Florestal; v. 28 n. 2 (2018); 875-8871980-50980103-9954reponame:Ciência Florestal (Online)instname:Universidade Federal de Santa Maria (UFSM)instacron:UFSMporhttps://periodicos.ufsm.br/cienciaflorestal/article/view/32128/pdfCopyright (c) 2018 Ciência Florestalinfo:eu-repo/semantics/openAccessTrazzi, Paulo AndréHiga, Antonio RioyeiDieckow, JefersonMangrich, Antonio SalvioHiga, Rosana Clara Vitoria2018-06-29T11:07:47Zoai:ojs.pkp.sfu.ca:article/32128Revistahttp://www.ufsm.br/cienciaflorestal/ONGhttps://old.scielo.br/oai/scielo-oai.php||cienciaflorestal@ufsm.br|| cienciaflorestal@gmail.com|| cf@smail.ufsm.br1980-50980103-9954opendoar:2018-06-29T11:07:47Ciência Florestal (Online) - Universidade Federal de Santa Maria (UFSM)false
dc.title.none.fl_str_mv BIOCHAR: REALITY AND POTENCIAL USE IN FORESTRY
BIOCARVÃO: REALIDADE E POTENCIAL DE USO NO MEIO FLORESTAL
title BIOCHAR: REALITY AND POTENCIAL USE IN FORESTRY
spellingShingle BIOCHAR: REALITY AND POTENCIAL USE IN FORESTRY
Trazzi, Paulo André
plant growth
pyrogenic carbon
soil fertility.
crescimento vegetal
carbono pirogênico
fertilidade do solo
title_short BIOCHAR: REALITY AND POTENCIAL USE IN FORESTRY
title_full BIOCHAR: REALITY AND POTENCIAL USE IN FORESTRY
title_fullStr BIOCHAR: REALITY AND POTENCIAL USE IN FORESTRY
title_full_unstemmed BIOCHAR: REALITY AND POTENCIAL USE IN FORESTRY
title_sort BIOCHAR: REALITY AND POTENCIAL USE IN FORESTRY
author Trazzi, Paulo André
author_facet Trazzi, Paulo André
Higa, Antonio Rioyei
Dieckow, Jeferson
Mangrich, Antonio Salvio
Higa, Rosana Clara Vitoria
author_role author
author2 Higa, Antonio Rioyei
Dieckow, Jeferson
Mangrich, Antonio Salvio
Higa, Rosana Clara Vitoria
author2_role author
author
author
author
dc.contributor.author.fl_str_mv Trazzi, Paulo André
Higa, Antonio Rioyei
Dieckow, Jeferson
Mangrich, Antonio Salvio
Higa, Rosana Clara Vitoria
dc.subject.por.fl_str_mv plant growth
pyrogenic carbon
soil fertility.
crescimento vegetal
carbono pirogênico
fertilidade do solo
topic plant growth
pyrogenic carbon
soil fertility.
crescimento vegetal
carbono pirogênico
fertilidade do solo
description The use of carbonized plant biomass has been recovered and evaluated as an alternative of improving soil fertility. The material generated, called biochar, is the product formed by pyrolysis, which is the thermal decomposition of biomass in a closed container under limited supply of oxygen and at relatively low temperatures. The chemical and structural composition of biochar is highly heterogeneous, with the exception of pH, which is usually higher than seven. Some properties are present in all kinds of biochar, including high carbon content and degree of aromaticity, which explains its high level of recalcitrance. However, its exact chemical composition and structure depends on the combination of raw material and pyrolysis conditions. When applied to soil, biochar can increase pH, cation exchange capacity and organic carbon and nutrient availability, raises in the abundance and functioning of mycorrhizal fungi, providing refuge for micro-organisms in the biochar micropores and improving soil structure and water availability. All these features in the soil interaction make its use in the agriculture normally to have positive effects on plant growth. It is believed that the use of biochar can contribute to carbon sequestration, it is considered by many as "carbon negative" due to its ability to promote plant growth and its stability in the soil. Studies with biochar have reached worldwide proportions involving different areas, and have grown a lot in recent years. However, there are still many uncertainties about its use in agriculture, mainly because the published papers have given more focus to biochar ability to maintain and improve soil fertility and increase agricultural productivity than to clarify the possible risks involved in biochar utilization.
publishDate 2018
dc.date.none.fl_str_mv 2018-06-29
dc.type.driver.fl_str_mv info:eu-repo/semantics/article
info:eu-repo/semantics/publishedVersion
format article
status_str publishedVersion
dc.identifier.uri.fl_str_mv https://periodicos.ufsm.br/cienciaflorestal/article/view/32128
10.5902/1980509832128
url https://periodicos.ufsm.br/cienciaflorestal/article/view/32128
identifier_str_mv 10.5902/1980509832128
dc.language.iso.fl_str_mv por
language por
dc.relation.none.fl_str_mv https://periodicos.ufsm.br/cienciaflorestal/article/view/32128/pdf
dc.rights.driver.fl_str_mv Copyright (c) 2018 Ciência Florestal
info:eu-repo/semantics/openAccess
rights_invalid_str_mv Copyright (c) 2018 Ciência Florestal
eu_rights_str_mv openAccess
dc.format.none.fl_str_mv application/pdf
dc.publisher.none.fl_str_mv Universidade Federal de Santa Maria
publisher.none.fl_str_mv Universidade Federal de Santa Maria
dc.source.none.fl_str_mv Ciência Florestal; Vol. 28 No. 2 (2018); 875-887
Ciência Florestal; v. 28 n. 2 (2018); 875-887
1980-5098
0103-9954
reponame:Ciência Florestal (Online)
instname:Universidade Federal de Santa Maria (UFSM)
instacron:UFSM
instname_str Universidade Federal de Santa Maria (UFSM)
instacron_str UFSM
institution UFSM
reponame_str Ciência Florestal (Online)
collection Ciência Florestal (Online)
repository.name.fl_str_mv Ciência Florestal (Online) - Universidade Federal de Santa Maria (UFSM)
repository.mail.fl_str_mv ||cienciaflorestal@ufsm.br|| cienciaflorestal@gmail.com|| cf@smail.ufsm.br
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