Soil Acidification caused by excessive application of nitrogen fertilizer aggravates soil-borne diseases: Evidence from literature review and field trials
Y Zhang, C Ye, Y Su, W Peng, R Lu, Y Liu… - Agriculture, ecosystems …, 2022 - Elsevier
Modern high input–based intensive crop** systems often lead to the deterioration of the
soil environment, which is one of the main driving factors for the build-up of soil-borne …
soil environment, which is one of the main driving factors for the build-up of soil-borne …
Exploring the multiple land degradation pathways across the planet
R Prăvălie - Earth-Science Reviews, 2021 - Elsevier
Land degradation has become one of the biggest environmental challenges human society
is currently facing, which is why understanding the global pattern of this land crisis is …
is currently facing, which is why understanding the global pattern of this land crisis is …
Meta-analysis of the impacts of global change factors on soil microbial diversity and functionality
Biodiversity on the Earth is changing at an unprecedented rate due to a variety of global
change factors (GCFs). However, the effects of GCFs on microbial diversity is unclear …
change factors (GCFs). However, the effects of GCFs on microbial diversity is unclear …
In situ grown Fe3O4 particle on stainless steel: A highly efficient electrocatalyst for nitrate reduction to ammonia
X Fan, L ** system
Nitrogen (N) fertilizer-induced soil acidification in Chinese croplands is well-known, but
insight in the impacts of different N fertilizer management approaches (fertilizer type and …
insight in the impacts of different N fertilizer management approaches (fertilizer type and …