Using organic fertilizer and maize straw as friendly amendment measures is effective for
altering soil nitrogen (N) cycling in farmlands. However, the synthetical effects of organic …

Integrating nitrogen (N) fertilization with crop residue amendments is usually used to
enhance soil nutrient levels and promote crop growth in regions with intensive agriculture …

Straw incorporation (SI) combined with N fertilizer has been shown to affect soil N 2 O
emission and N-related functional microbes in agriculture. However, the responses of N 2 O …

Nitrogen (N) cycling microorganisms mediate soil nitrogen transformation processes,
thereby affecting agricultural production and environment quality. However, it is not fully …

Nitrogen (N) fertilizer is commonly excessive in vegetable production, which greatly
increases the risk of N loss and may eventually lead to the contamination of adjacent surface …

Organic manure can substantially improve soil fertility and influence soil microbes. Despite
the pivotal role of N-cycling microbes in agro-ecosystems, little is known about the …

Soil microbes represent one of the most important members of agricultural systems, and
many achievements about the variation of microbiota in topsoil under diverse fertilization …

Organic fertilizer application could have an impact on the nitrogen cycle mediated by
microorganisms in arable soils. However, the dynamics of soil ammonia oxidizers and …

Excessive nitrogen (N) fertilizer input to agroecosystem fundamentally alters soil microbial
properties and subsequent their ecofunctions such as carbon (C) sequestration and nutrient …

Chronic synthetic nitrogen (N) application can result in a significant accumulation of nitrate
in the subsoil, which could alter subsoil N cycle and subsequently affect subsoil N levels. To …