His primary scientific interests are in Agronomy, Soil water, Biomass, Soil carbon and Soil organic matter. His Human fertilization, Straw, Fertilizer and Paddy field study in the realm of Agronomy interacts with subjects such as Terminal restriction fragment length polymorphism. Soil water is a subfield of Ecology that Jinshui Wu investigates.
His work carried out in the field of Biomass brings together such families of science as Nutrient cycle and Extraction. His biological study spans a wide range of topics, including Photosynthesis, Atmospheric sciences, Hydrology, Crop rotation and Oryza sativa. His Soil organic matter study integrates concerns from other disciplines, such as Total organic carbon, Plough, Soil test, Dissolved organic carbon and Soil chemistry.
His primary areas of investigation include Agronomy, Soil water, Environmental chemistry, Soil carbon and Soil organic matter. His Agronomy study often links to related topics such as Biomass. His Soil water study is focused on Ecology in general.
Wetland and Denitrification is closely connected to Wastewater in his research, which is encompassed under the umbrella topic of Environmental chemistry. The study incorporates disciplines such as Total organic carbon, Mineralization, Incubation, Hydrology and Dissolved organic carbon in addition to Soil carbon. His Soil organic matter study combines topics in areas such as Soil biology and Soil fertility.
His scientific interests lie mostly in Environmental chemistry, Soil water, Agronomy, Soil carbon and Biomass. The various areas that Jinshui Wu examines in his Environmental chemistry study include Organic matter, Microbial population biology, Soil organic matter, Nitrate and Nutrient. His Soil water research includes themes of Carbon sequestration, Total organic carbon, Ecosystem and Food processing.
His study in the fields of Paddy field and Cropping system under the domain of Agronomy overlaps with other disciplines such as Precipitation and Term. His research on Soil carbon also deals with topics like
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Measurement of soil microbial biomass C by fumigation-extraction—an automated procedure
J. Wu;R.G. Joergensen;Birgit Pommerening;R. Chaussod.
Soil Biology & Biochemistry (1990)
Formation and destruction of microbial biomass during the decomposition of glucose and ryegrass in soil
J. Wu;P.C. Brookes;D.S. Jenkinson.
Soil Biology & Biochemistry (1993)
The proportional mineralisation of microbial biomass and organic matter caused by air-drying and rewetting of a grassland soil
J. Wu;P.C. Brookes.
Soil Biology & Biochemistry (2005)
Seasonal responses in microbial biomass carbon, phosphorus and sulphur in soils under pasture.
Z. L. He;J. Wu;A. G. O'donnell;J. K. Syers.
Biology and Fertility of Soils (1997)
Impact of Long-Term Fertilization on the Composition of Denitrifier Communities Based on Nitrite Reductase Analyses in a Paddy Soil
Zhe Chen;Xiqian Luo;Xiqian Luo;Ronggui Hu;Minna Wu.
Microbial Ecology (2010)
Contrasting effects of straw and straw-derived biochar amendments on greenhouse gas emissions within double rice cropping systems
Jianlin Shen;Hong Tang;Hong Tang;Jieyun Liu;Cong Wang.
Agriculture, Ecosystems & Environment (2014)
Effect of long-term application of inorganic fertilizer and organic amendments on soil organic matter and microbial biomass in three subtropical paddy soils
X. H. Hao;S. L. Liu;J. S. Wu;R. G. Hu.
Nutrient Cycling in Agroecosystems (2008)
GIS based land suitability assessment for tobacco production using AHP and fuzzy set in Shandong province of China
Jiuquan Zhang;Yirong Su;Jinshui Wu;Hongbo Liang.
Computers and Electronics in Agriculture (2015)
Long-term balanced fertilization increases the soil microbial functional diversity in a phosphorus-limited paddy soil.
Jian Qiang Su;Long Jun Ding;Kai Xue;Huai Ying Yao.
Molecular Ecology (2015)
Long-term fertilizer effects on organic carbon and total nitrogen and coupling relationships of C and N in paddy soils in subtropical China
Chengli Tong;Heai Xiao;Guoyong Tang;Hongqing Wang.
Soil & Tillage Research (2009)
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