Jun Xia mostly deals with Water resources, Hydrology, Drainage basin, Surface runoff and Water quality. His study in Water resources is interdisciplinary in nature, drawing from both Surface water, Water resource management, Climate change, Precipitation and Water supply. His Hydrology study frequently links to other fields, such as Climatology.
His work in the fields of Drainage basin, such as Streamflow, intersects with other areas such as Far East. His research investigates the connection between Surface runoff and topics such as Wetland that intersect with issues in Balance of nature and Estuary. His Water quality research incorporates elements of Biodiversity, Restoration ecology and Pollution.
His primary scientific interests are in Hydrology, Drainage basin, Water resources, Surface runoff and Precipitation. His Streamflow, Water quality, Surface water and Hydrology study in the realm of Hydrology connects with subjects such as Water environment. His work on SWAT model as part of general Drainage basin study is frequently linked to Generalized extreme value distribution, bridging the gap between disciplines.
His Water resources study combines topics from a wide range of disciplines, such as Resource, Water resource management, Water use, Climate change and Sustainable development. In his study, Water balance and Water cycle is strongly linked to Evapotranspiration, which falls under the umbrella field of Climate change. As part of the same scientific family, he usually focuses on Precipitation, concentrating on Climatology and intersecting with Return period and Water content.
Jun Xia spends much of his time researching Drainage basin, Climatology, Surface runoff, Precipitation and Climate change. His Climatology research also works with subjects such as
His Surface runoff study is focused on Hydrology in general. As part of one scientific family, Jun Xia deals mainly with the area of Precipitation, narrowing it down to issues related to the Spatial variability, and often Aridity index. His Climate change research integrates issues from Water scarcity, Coal mining, Evapotranspiration, Physical geography and Trend analysis.
Jun Xia mainly investigates Evapotranspiration, Surface runoff, Climate change, Drainage basin and Precipitation. In his work, Streamflow and Water resources is strongly intertwined with Arid, which is a subfield of Evapotranspiration. The various areas that Jun Xia examines in his Surface runoff study include Atmospheric sciences, Water cycle, Impervious surface, Remote sensing and MIKE 11.
His study in Climate change is interdisciplinary in nature, drawing from both Water security, Physical geography and Water resource management. The concepts of his Drainage basin study are interwoven with issues in Ecology, Invertebrate, Aquatic ecosystem, Community structure and Ecological health. In his research on the topic of Precipitation, Dryness is strongly related with Climatology.
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Comparing uncertainty analysis techniques for a SWAT application to the Chaohe Basin in China
Jing Yang;Peter Reichert;K.C. Abbaspour;Jun Xia.
Journal of Hydrology (2008)
High Intensity heavy ion Accelerator Facility (HIAF) in China
J.C. Yang;J.W. Xia;G.Q. Xiao;H.S. Xu.
Nuclear Instruments & Methods in Physics Research Section B-beam Interactions With Materials and Atoms (2013)
Water problems and hydrological research in the Yellow River and the Huai and Hai River basins of China
Changming Liu;Changming Liu;Jun Xia;Jun Xia.
Hydrological Processes (2004)
Barriers to sustainable water-quality management
G.H. Huang;J. Xia.
Opportunities and challenges of the Sponge City construction related to urban water issues in China
Jun Xia;YongYong Zhang;LiHua Xiong;Shan He.
Science China-earth Sciences (2017)
Mass measurements of the neutron-deficient 41Ti, 45Cr, 49Fe, and 53Ni nuclides: first test of the isobaric multiplet mass equation in f p-shell nuclei.
Y. H. Zhang;H. S. Xu;Yu. A. Litvinov;X. L. Tu.
Physical Review Letters (2012)
Evapotranspiration estimation methods in hydrological models
Lingling Zhao;Jun Xia;Chong-yu Xu;Zhonggen Wang.
Journal of Geographical Sciences (2013)
Direct mass measurements of short-lived A=2Z-1 nuclides (63)Ge, (65)As, (67)Se, and (71)Kr and their impact on nucleosynthesis in the rp process
X.L. Tu;H.S. Xu;M. Wang;Y.H. Zhang.
Physical Review Letters (2011)
Impact of Water Projects on River Flow Regimes and Water Quality in Huai River Basin
Yongyong Zhang;Yongyong Zhang;Jun Xia;Jun Xia;Tao Liang;Quanxi Shao.
Water Resources Management (2010)
Evaluation of the subjective factors of the GLUE method and comparison with the formal Bayesian method in uncertainty assessment of hydrological models
Lu Li;Lu Li;Jun Xia;Chong-Yu Xu;V.P. Singh.
Journal of Hydrology (2010)
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