Xiaozhi Wang
Yangzhou University
11 Papers
163 Citations
Xiaozhi Wang is an academic researcher from Yangzhou University. The author has contributed to research in topics: ATPase & Manure. The author has an hindex of 7, co-authored 11 publications. Previous affiliations of Xiaozhi Wang include University of Giessen & Chinese Academy of Sciences.
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Papers
Nitrogen Cycling and Losses under Rice-Wheat Rotations with Coated Urea and Urea in the Taihu Lake Region
TL;DR: In this article, a lysimeter experiment with undisturbed soil profiles was carried out to study nitrogen cycling and losses in a paddy soil with applications of coated urea and urea under a rice-wheat rotation system in the Taihu Lake region from 2001 to 2003.
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•Journal Article
[Dynamics and ecological significance of nitrogen wet-deposition in Taihu Lake region--taking Changshu Agroecological Experiment Station as an example].
TL;DR: The amount of nitrogen wet deposition had a strong seasonal pattern, with higher levels in summer and spring, and low values in autumn and winter, and had an ecological significance on both nitrogen balance in agroecosystem and eutrophication.
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Nitrous oxide emission as affected by changes in soil water content and nitrogen fertilization
TL;DR: In this article, the authors measured N2O emission rates in laboratory incubations of an alluvial soil (58% clay, pH 7.4) during an 8-day incubation period and determined inorganic nitrogen concentrations in soil (NH4+, NO2−, NO3−) at regular intervals.
24
Patent
Vegetable seedling substrate compounded by earthworm casts and preparation method thereof
Yuhua Shan,Haitao Zhao,Ke Feng,Xiaozhi Wang,Linbao Xue,Bo Wang,Yiqun Xu,Aili Wang,Ping Liu,Juan Luo,Xiaolei Zhang +10 more
- 20 Jan 2010
TL;DR: In this article, a vegetable seedling substrate is prepared by mixing the earthworm casts and vermiculite together in proportion firstly and than adding N, P and K as the prescription amount.
22
Modulatory ATP binding to the E2 state of maize plasma membrane H+-ATPase indicated by the kinetics of vanadate inhibition.
Xiaozhi Wang,Xiaozhi Wang,Xiaoqing Qian,Xiaoqing Qian,Beate Stumpf,Ammara Fatima,Ke Feng,Ke Feng,Sven Schubert,Stefan Hanstein +9 more
TL;DR: Kinetic models based on steady‐state kinetics indicate that binding of ATP species before transition to the E1 state plays an important role in the catalytic cycle of plant plasma membrane H+‐ATPase.
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