Regulation of subsurface drip fertigation on nitrogen cycling soil microorganisms and N2O and NH3 emissions from aeolian sandy soil in alfalfa field in temperate arid regions

施肥 环境科学 农学 干旱 风积作用 自行车 氮气循环 氮气 温带气候 生态学 生物 化学 地理 灌溉 考古 有机化学 古生物学
作者
Hongxiu Ma,Quan Sun,Xiaojuan Zhang,Jiang Peng
出处
期刊:Field Crops Research [Elsevier BV]
卷期号:326: 109748-109748 被引量:2
标识
DOI:10.1016/j.fcr.2025.109748
摘要

How to reduce the loss of reactive nitrogen (RNL), increase the nitrogen fertilizer use efficiency, and alleviate the negative impacts of nitrogen fertilization on the environment has always been the focus of scientific research. Currently, the responses of RNL and nitrogen cycling microorganisms (NCM) in aeolian sandy soil to different levels of subsurface drip fertigation and the mechanisms in temperate arid regions are still unclear. The aim was to clarify the effects of different levels of subsurface drip fertigation on the soil RNL and NCM in alfalfa fields. A two-year field experiment was conducted in Yinchuan, an arid region of northwest China, with two subsurface drip irrigation levels (525 and 700 mm) and three nitrogen application rates (0, 150, and 300 kg N ha −1 ). The pulse emissions of N 2 O and NH 3 significantly increased after irrigation and nitrogen fertilization. Nitrogen fertilization significantly increased N 2 O and NH 3 emissions under the two soil moisture conditions compared with the control, especially the W2N2 treatment, due to that the increase in soil NH 4 + -N content led to changes in the abundance of nitrogen cycling-related functional genes. The quantities of ammonia-oxidizing archaea (AOA) and ammonia-oxidizing bacteria (AOB) reflected their contributions in the ammonia oxidation , but this contribution varied depending on specific soil environmental conditions. Under low soil NH 4 + -N content conditions, AOA was more active than AOB and contributed more to total ammonia oxidation. Interestingly, at the high irrigation level (700 mm), nitrogen fertilization had a weaker effect on bacterial diversity than irrigation; Irrigation had a more direct and positive effect on the number and diversity of soil bacteria by increasing soil moisture content and changing soil physicochemical properties . At the high nitrogen application rate (300 kg N ha −1 ), AOB contributed more to the ammonia oxidation than AOA, which indirectly increased the relative abundance of Actinobacteriota, and led to greater RNL by reducing the abundance of AOA and Firmicutes . The irrigation and nitrogen fertilization affected the diversity and composition of bacterial communities in aeolian sandy soils, and changed N 2 O and NH 3 emissions by changing the abundance of NCM. This study will deepen our understanding of the regulation of subsurface drip fertigation on soil microorganisms and N 2 O and NH 3 emissions in grassland ecosystems. • Nitrogen fertilization (N) led to significantly increased N 2 O and NH 3 emissions. • N’s impact on bacterial diversity was weaker than irrigation at high irrigation rate. • AOA’s contribution to ammonia oxidation in low NH 4 + -N levels was greater than AOB’s.
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