College of Horticulture, Jinling Institute of Technology, Nanjing, 210038, China.
Nanjing Extension Center for Agricultural Equipment, Nanjing, 210036, China.
Environ Pollut. 2021 Apr 1;274:116573. doi: 10.1016/j.envpol.2021.116573. Epub 2021 Jan 22.
Hydrochar (HC), an environment-friendly material, enhances soil carbon sequestration and mitigate greenhouse gases (GHGs) emissions in croplands. In this study, the water-washed HC (WW-HC) was applied to paddy soil to investigate effects on nitrous oxide (NO) and methane (CH) emissions during rice growth period. Four treatments, namely control (without N fertilizer and WW-HC), N fertilizer (WW-HC00), N fertilizer with 0.5 wt% WW-HC (WW-HC05) and N fertilizer with 1.5 wt% WW-HC (WW-HC15), were established. Results showed the WW-HC addition reduced NO and CH emissions, global warming potential (GWP) and greenhouse gas intensity (GHGI) during the growing season. Moreover, the WW-HC application reduced NO cumulative emission (P < 0.05) (by 28.6% and 23.8% for WW-HC05 and WW-HC15, respectively). It was mainly due to the reduced ratio of (nirK + nirS) to nosZ under WW-HC15 (P < 0.05). Compared with WW-HC00, the WW-HC05 reduced CH cumulative emissions by 14.8%, while the WW-HC15 increased by 9.7%. This might be ascribed to the significantly reduced expression of the methanogenic mcrA gene and ratio of mcrA to pmoA by WW-HC (P < 0.05). The WW-HC05 amendment decreased GWP and GHGI by 18.6% and 32.5%, respectively. Furthermore, the WW-HC application greatly improved nitrogen use efficiency by 116-145% compared with the control. Our study indicates the WW-HC application is a promising GHGs mitigation practice in paddy fields.
水葫芦(HC)是一种环保材料,可增强农田土壤的碳固存并减少温室气体(GHG)排放。本研究将水洗水葫芦(WW-HC)应用于稻田,以研究其在水稻生长期间对氧化亚氮(NO)和甲烷(CH)排放的影响。共设置了四个处理,分别为对照(不施氮肥和 WW-HC)、施氮肥(WW-HC00)、施 0.5 wt% WW-HC 的氮肥(WW-HC05)和施 1.5 wt% WW-HC 的氮肥(WW-HC15)。结果表明,WW-HC 的添加减少了生长季的 NO 和 CH 排放、全球增温潜势(GWP)和温室气体强度(GHGI)。此外,WW-HC 的应用减少了 NO 累积排放量(P < 0.05)(WW-HC05 和 WW-HC15 分别减少了 28.6%和 23.8%)。这主要是由于 WW-HC15 下(nirK + nirS)/nosZ 的比例降低(P < 0.05)。与 WW-HC00 相比,WW-HC05 减少了 14.8%的 CH 累积排放量,而 WW-HC15 增加了 9.7%。这可能归因于 WW-HC 显著降低了甲烷生成菌 mcrA 基因和 mcrA/pmoA 的表达(P < 0.05)。WW-HC05 处理使 GWP 和 GHGI 分别降低了 18.6%和 32.5%。此外,与对照相比,WW-HC 的应用使氮素利用效率提高了 116-145%。本研究表明,WW-HC 的应用是稻田中减少 GHGs 的一种很有前景的实践。
