Characterization and carbon mineralization of biochars produced from different animal manures and plant residues

Renewing carbon and re-establishing it again in the soil is one of the valuable means to cope with climate change. There are many technologies for carbon apprehension and storage, but the most important one gaining attention is biochar technology. So, to carbonize and return different biological mat...

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Published inScientific reports Vol. 10; no. 1; p. 955
Main Authors Sarfaraz, Qamar, Silva, Leandro Souza da, Drescher, Gerson Laerson, Zafar, Mohsin, Severo, Fabiane Figueiredo, Kokkonen, Allan, Dal Molin, Gustavo, Shafi, Muhammad Izhar, Shafique, Qudsia, Solaiman, Zakaria M.
Format Journal Article
LanguageEnglish
Published London Nature Publishing Group UK 22.01.2020
Nature Publishing Group
Subjects
704/172
704/172/4081
Agricultural land
Agricultural wastes
Animals
Carbon
Carbon - chemistry
Carbon dioxide
Carbon dioxide emissions
Cation exchange
Cattle
Cattle manure
Cereal crops
Charcoal
Charcoal - chemistry
Climate change
Corn straw
Crops
Electrical conductivity
Emissions
Humanities and Social Sciences
Manure
Mineralization
multidisciplinary
pH effects
Pig manure
Plants
Poultry
Science
Science (multidisciplinary)
Soil - chemistry
Soil fertility
Soybeans
Swine
Thermal decomposition
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Summary:Renewing carbon and re-establishing it again in the soil is one of the valuable means to cope with climate change. There are many technologies for carbon apprehension and storage, but the most important one gaining attention is biochar technology. So, to carbonize and return different biological materials back to the farmland, a comprehensive study was proposed to characterize and evaluate the carbon (C) mineralization of biochars produced from different animal manures and crop straws. Six types of biochars were prepared from animal manures (poultry litter, swine and cattle manures) and crop straws (rice, soybean, and corn straws). The biochars were analyzed for chemical characteristics (elemental variables, thermal decomposition, cation exchange capacity, pH, electrical conductivity, specific surface area, and surface functional groups) and an incubation experiment was conducted to evaluate C mineralization from soil biochar mixture. Biochars produced from crop straws resulted to have more C as compared to the biochars produced from animal manures. Concentration of nitrogen was low, while P, K, Ca, and Mg were found reasonably higher in all biochars except swine manure biochar. The plant-derived biochars presented lower CO 2 emissions when incorporated to soil at 1 and 2% of C. Varying but all the biochars prepared represented an alkaline pH. Biochars prepared from the crop straws resulted to have more C, alkaline in nature, high CEC, low CO 2 emissions, can sequester C and more suitable to enhance the soil fertility in comparison to biochars produced from other sources.
ISSN:2045-2322
2045-2322
DOI:10.1038/s41598-020-57987-8