College of Engineering, Huazhong Agricultural University, Wuhan, China.
Key Laboratory of Agricultural Equipment in Mid-lower Yangtze River, Ministry of Agriculture and Rural Affairs, Wuhan, China.
J Sci Food Agric. 2021 Aug 30;101(11):4653-4661. doi: 10.1002/jsfa.11108. Epub 2021 Feb 12.
Nitrous oxide (N O) is an important and persistent greenhouse gas making a significant contribution to global climate change. Deep fertilization has been demonstrated to increase crop yield and nutrient use efficiency by decreasing losses of volatilization and surface runoff. However, N O emissions from croplands induced by deep fertilization are variable and mitigation strategies remain uncertain. This study aimed to (i) quantify the response of area-scaled (N O emissions) and yield-scaled N O emissions (N O intensity) from croplands to deep fertilization, and (ii) identify the soil, climate, and management factors that mitigate N O emissions and N O intensity under deep fertilization.
Compared with the control, deep fertilization increased N O emissions by 18.6% (P < 0.001) but decreased N O intensity by 20.1% (P = 0.018). By adopting deep fertilization, N O emissions could be significantly mitigated in rice-paddies soils (-48.8%), with fertilizer depth > 10 cm (-33.0%), and with fertilizer N amount > 200 kg N ha (-8.2%). N O intensity following deep fertilization significantly decreased in soils with pH ≤6 (-22.5%), at sites with precipitation of 500-1000 mm (-25.5%), in rice-paddies soils (-53.0%), with the method of mixed fertilizer in the control (-21.2%), and with fertilizer depth > 10 cm (-33.6%).
This study provides a basis for assessing the effect of deep fertilization on N O emissions and provides potential measures to mitigate N O emissions associated with deep fertilization practices.
一氧化二氮(N2O)是一种重要且持久的温室气体,对全球气候变化的影响巨大。深施肥已被证明可以通过减少挥发和地表径流损失来提高作物产量和养分利用效率。然而,深施肥引起的农田 N2O 排放具有变异性,减排策略仍不确定。本研究旨在:(i)量化深施肥对农田面积尺度(N2O 排放)和产量尺度 N2O 排放(N2O 强度)的响应;(ii)确定土壤、气候和管理因素,以减轻深施肥下的 N2O 排放和 N2O 强度。
与对照相比,深施肥使 N2O 排放增加了 18.6%(P<0.001),但使 N2O 强度降低了 20.1%(P=0.018)。采用深施肥,可使稻田土壤中的 N2O 排放显著减少(-48.8%),施肥深度>10cm(-33.0%),施氮量>200kgN/ha(-8.2%)。深施肥后,土壤 pH 值≤6(-22.5%)、降水 500-1000mm(-25.5%)、稻田土壤(-53.0%)、对照中混合施肥方法(-21.2%)和施肥深度>10cm(-33.6%)的 N2O 强度显著降低。
本研究为评估深施肥对 N2O 排放的影响提供了依据,并为减轻深施肥实践相关的 N2O 排放提供了潜在措施。
