Hydrology, Agronomy, Water content, Farm water and Agriculture are his primary areas of study. His studies in Hydrology integrate themes in fields like Soil science, Soil water, Climate change and Vegetation. The concepts of his Water content study are interwoven with issues in Drainage basin, Botany and Precipitation.
His Farm water study integrates concerns from other disciplines, such as Irrigation district and Water resource management. Food security, Arable land and Water supply is closely connected to Agricultural engineering in his research, which is encompassed under the umbrella topic of Agriculture. The various areas that Pute Wu examines in his Water use study include Environmental engineering and Crop.
His scientific interests lie mostly in Agronomy, Water use, Soil water, Irrigation and Hydrology. His Agronomy research includes themes of Photosynthesis and Transpiration. His study in Water use is interdisciplinary in nature, drawing from both Farm water, Environmental engineering, Crop, Agriculture and Water resources.
His study with Soil water involves better knowledge in Soil science. His Soil science research is multidisciplinary, incorporating elements of Loess plateau, Erosion and Water content. His Hydrology research includes elements of Arid, Climate change, Vegetation and Precipitation.
His primary areas of study are Water use, Irrigation, Virtual water, Water resources and Crop. His Water use research includes themes of Agriculture, Food security and Farm water. His Irrigation research is within the category of Agronomy.
His Agronomy study which covers Soil horizon that intersects with Tillage. His work carried out in the field of Water resources brings together such families of science as Drainage basin, Water resource management, Sustainability and Groundwater. His Soil water study also includes
Pute Wu spends much of his time researching Water use, Water resources, Virtual water, Water scarcity and Food security. His studies deal with areas such as Agriculture, Mulch, Crop and Water content as well as Water use. In his research on the topic of Water resources, Environmental protection and Renewable energy is strongly related with Sustainability.
His Water scarcity study improves the overall literature in Hydrology. His Evapotranspiration research focuses on Water-use efficiency and how it relates to Soil water. His research investigates the link between Precipitation and topics such as Malus that cross with problems in Agronomy.
This overview was generated by a machine learning system which analysed the scientist’s body of work. If you have any feedback, you can contact us here.
Physico-chemical properties and antioxidant capacity of different jujube (Ziziphus jujuba Mill.) cultivars grown in loess plateau of China
Qing-Han Gao;Pu-Te Wu;Jia-Ren Liu;Chun-Sen Wu.
Scientia Horticulturae (2011)
Effects of rainfall intensity, underlying surface and slope gradient on soil infiltration under simulated rainfall experiments
Jun Huang;Pute Wu;Xining Zhao.
The impacts of interannual climate variability and agricultural inputs on water footprint of crop production in an irrigation district of China.
Shikun Sun;Pute Wu;Pute Wu;Yubao Wang;Xining Zhao;Xining Zhao.
Science of The Total Environment (2013)
Sustainability assessment of regional water resources under the DPSIR framework
Shikun Sun;Yubao Wang;Jing Liu;Huanjie Cai.
Journal of Hydrology (2016)
EFFECTS OF LAND USE ON SOIL MOISTURE VARIATIONS IN A SEMI‐ARID CATCHMENT: IMPLICATIONS FOR LAND AND AGRICULTURAL WATER MANAGEMENT
X. Gao;P. Wu;X. Zhao;J. Wang.
Land Degradation & Development (2014)
Soil moisture variability along transects over a well-developed gully in the Loess Plateau, China
Xiaodong Gao;Pute Wu;Pute Wu;Xining Zhao;Xining Zhao;Yinguang Shi.
A survey on wireless sensor network infrastructure for agriculture
Xiaoqing Yu;Pute Wu;Wenting Han;Zenglin Zhang.
Computer Standards & Interfaces (2013)
Soil Quality Indicators in Relation to Land Use and Topography in a Small Catchment on the Loess Plateau of China
X. Zhao;P. Wu;X. Gao;N. Persaud.
Land Degradation & Development (2015)
Temporal and spatial evolution of the standardized precipitation evapotranspiration index (SPEI) in the Loess Plateau under climate change from 2001 to 2050.
Xuerui Gao;Qi Zhao;Xining Zhao;Pute Wu.
Science of The Total Environment (2017)
The virtual water content of major grain crops and virtual water flows between regions in China.
Shi-Kun Sun;Pu-Te Wu;Pu-Te Wu;Yu-Bao Wang;Xi-Ning Zhao;Xi-Ning Zhao.
Journal of the Science of Food and Agriculture (2013)
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