Integrated use of biochar and lime as a tool to improve maize yield and mitigate CO2 emission: A review

ABSTRACT Reducing greenhouse gas emissions and increasing agronomic productivity by sustaining soil organic matter and refining soil fertility have become the main concerns for agricultural scientists. There is a new approach to decrease greenhouse gas emissions, soil C sinks, and improve soil quali...

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Autores principales: Mosharrof,Mehnaz, Uddin,Md. Kamal, Jusop,Shamshuddin, Sulaiman,Muhammad F., Shamsuzzaman,Shordar M., Haque,Ahmad N.A.
Lenguaje:English
Publicado: Instituto de Investigaciones Agropecuarias, INIA 2021
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Acceso en línea:http://www.scielo.cl/scielo.php?script=sci_arttext&pid=S0718-58392021000100109
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spelling oai:scielo:S0718-583920210001001092021-02-24Integrated use of biochar and lime as a tool to improve maize yield and mitigate CO2 emission: A reviewMosharrof,MehnazUddin,Md. KamalJusop,ShamshuddinSulaiman,Muhammad F.Shamsuzzaman,Shordar M.Haque,Ahmad N.A. Acid soil biochar greenhouse gas abatement lime soil nutrients Zea mays. ABSTRACT Reducing greenhouse gas emissions and increasing agronomic productivity by sustaining soil organic matter and refining soil fertility have become the main concerns for agricultural scientists. There is a new approach to decrease greenhouse gas emissions, soil C sinks, and improve soil quality using biochar. Soil acidification is improved by applying lime or other acid-neutralizing materials. Additionally, Ca and Mg can increase by applying lime. The availability of Ca, Mg, and K in the soil is significantly affected by the application rate of biochar spread separately or combined with chemical fertilizers. Soil nutrients and maize (Zea mays L.) yield are highly influenced by the use of lime and biochar. Biochar can improve the ecosystem by reducing soil CO2 emissions from agricultural practices. The inconsistent results and clarifications from various studies highlight the importance of relating the impact of different biochar rates on CO2 emissions and maize yield. This review summarizes the properties of biochar, provides the scientific reference for its application to achieve high and good quality maize and reduce CO2 emissions.info:eu-repo/semantics/openAccessInstituto de Investigaciones Agropecuarias, INIAChilean journal of agricultural research v.81 n.1 20212021-03-01text/htmlhttp://www.scielo.cl/scielo.php?script=sci_arttext&pid=S0718-58392021000100109en10.4067/S0718-58392021000100109
institution Scielo Chile
collection Scielo Chile
language English
topic Acid soil
biochar
greenhouse gas abatement
lime
soil nutrients
Zea mays.
spellingShingle Acid soil
biochar
greenhouse gas abatement
lime
soil nutrients
Zea mays.
Mosharrof,Mehnaz
Uddin,Md. Kamal
Jusop,Shamshuddin
Sulaiman,Muhammad F.
Shamsuzzaman,Shordar M.
Haque,Ahmad N.A.
Integrated use of biochar and lime as a tool to improve maize yield and mitigate CO2 emission: A review
description ABSTRACT Reducing greenhouse gas emissions and increasing agronomic productivity by sustaining soil organic matter and refining soil fertility have become the main concerns for agricultural scientists. There is a new approach to decrease greenhouse gas emissions, soil C sinks, and improve soil quality using biochar. Soil acidification is improved by applying lime or other acid-neutralizing materials. Additionally, Ca and Mg can increase by applying lime. The availability of Ca, Mg, and K in the soil is significantly affected by the application rate of biochar spread separately or combined with chemical fertilizers. Soil nutrients and maize (Zea mays L.) yield are highly influenced by the use of lime and biochar. Biochar can improve the ecosystem by reducing soil CO2 emissions from agricultural practices. The inconsistent results and clarifications from various studies highlight the importance of relating the impact of different biochar rates on CO2 emissions and maize yield. This review summarizes the properties of biochar, provides the scientific reference for its application to achieve high and good quality maize and reduce CO2 emissions.
author Mosharrof,Mehnaz
Uddin,Md. Kamal
Jusop,Shamshuddin
Sulaiman,Muhammad F.
Shamsuzzaman,Shordar M.
Haque,Ahmad N.A.
author_facet Mosharrof,Mehnaz
Uddin,Md. Kamal
Jusop,Shamshuddin
Sulaiman,Muhammad F.
Shamsuzzaman,Shordar M.
Haque,Ahmad N.A.
author_sort Mosharrof,Mehnaz
title Integrated use of biochar and lime as a tool to improve maize yield and mitigate CO2 emission: A review
title_short Integrated use of biochar and lime as a tool to improve maize yield and mitigate CO2 emission: A review
title_full Integrated use of biochar and lime as a tool to improve maize yield and mitigate CO2 emission: A review
title_fullStr Integrated use of biochar and lime as a tool to improve maize yield and mitigate CO2 emission: A review
title_full_unstemmed Integrated use of biochar and lime as a tool to improve maize yield and mitigate CO2 emission: A review
title_sort integrated use of biochar and lime as a tool to improve maize yield and mitigate co2 emission: a review
publisher Instituto de Investigaciones Agropecuarias, INIA
publishDate 2021
url http://www.scielo.cl/scielo.php?script=sci_arttext&pid=S0718-58392021000100109
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