Rice straw biochar mitigates N2O emissions under alternate wetting and drying conditions in paddy soil

Autor:	Huang Guo-qin, Adnan Rasheed, Zhong Chuan, Muhammad Shaaban, Fahd Rasul, Su Qitao, Ma Qiaoying, Tang Haiying, Muhammad Umair Hassan, Maria Batool, Muhammad Aamer
Rok vydání:	2021
Předmět:	010405 organic chemistry Chemistry chemistry.chemical_element General Chemistry Factorial experiment Nitrous oxide engineering.material 010402 general chemistry 01 natural sciences Nitrogen 0104 chemical sciences chemistry.chemical_compound Agronomy Soil pH Greenhouse gas Biochar engineering Dry matter Fertilizer
Zdroj:	Journal of Saudi Chemical Society. 25:101172
ISSN:	1319-6103
DOI:	10.1016/j.jscs.2020.11.005
Popis:	Alternate wetting and drying (AWD) is an important strategy that saves water and reduces greenhouse gases emission (GHG). Moreover, biochar (BC) has been also emerged as a promising approach to reduce GHG emissions. Hitherto, the mechanism lying behind reduction in nitrous oxide (N2O) emissions following the addition of BC are not clearly understood. Therefore, this field study was performed to assess the effects of different rates of rice straw biochar (RSB), i.e., control (0 RSB), 20 t RSB ha−1, and 40 t RSB ha−1 with no nitrogen (N) fertilizer (-N) and with N fertilizer (180 kg ha−1: +N) on soil pH, soil N dynamics, microbial genes abundance, N2O emissions and performance of paddy. The experiment was conducted in two factors factorial design with three replications. Application of RSB enhanced the soil pH and NH4+ and decreased NO3– therefore led to a significant reduction in the N2O emissions. However, the application of RSB (40 t ha−1) significantly decreased the N2O emissions by +59% and +62% in comparison to control under -N and +N conditions. The increased soil pH augmented the abundance of nosZ and nirK genes, more following addition of 40 t RSB ha−1 and therefore, leads to an appreciable reduction in the N2O compared to 20 t RSB and control under both -N and +N conditions. Additionally, 40 t RSB ha−1 significantly enhanced the tillers production, kernel weight, paddy, and dry matter yield compared to control and 20 t RSB ha−1 under -N and +N conditions. Conclusively, RSB application at the rate of 40 t ha−1 could be a promising approach to reduce N2O emissions and increase the paddy yield.
Databáze:	OpenAIRE
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