Resources and Environment in the Yangtze Basin

Resources and Environment in the Yangtze Basin (issn: 10048227) is a scopus indexed journal since 1996 upto now. This journal is sponsored by Bureau of Science and Technology for Resources and Environment of Chinese Academy of Sciences (CAS) and the Wuhan Documentation and Information Center of CAS and published by Science Press. It is committed to publishing high-quality, original research on the all topics of environmental science and environmental engineering.

Aim and Scope

Resources and Environment in the Yangtze Basin (ISSN: 10048227)

- is a peer-reviewed journal. The journal seeks to publish original research articles that are hypothetical and theoretical in its nature and that provide exploratory insights in the following fields but not limited to:

Environmental Science,

Environmental Engineering,

Nature and Landscape Conservation,

Water Science, resource and Technology,

Ecology, Management, Monitoring, Policy and Law.

Scopus Indexed(2026)

Submission Deadline

Volume - 42 , Issue 01
20 Jan 2026

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Volume - not available , Issue not available
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Upcoming Publication

Latest Journals

Resources and Environment in the Yangtze Basin

Characteristics of Dissolved Organic Carbon Export of A Karst Small Catchment in Guizhou Aha Lake

Journal ID : CLZYH-15-06-2023-10723 Author : Huang Y.-J., Wu Q.-X., An Y.-L., Chen Y.-B., He S.-Y.,

Abstract :

Lake Hulun, the fifth largest lake in China, is a typical eutrophic steppe lake located in the Hulun Buir Prairie. The dissolved organic matter (DOM) in the water of Lake Hulun has a high concentration. However, little is known about the occurrence characteristics and source of the DOM in Lake Hulun. The spatial and temporal distribution characteristics of DOM concentration in Lake Hulun were thoroughly surveyed, and the optical characteristics, fluorescence components and sources of DOM were analyzed by excitation emission matrix (EMM) and parallel factor analysis (PARAFAC) technology. The

Transient Characteristics of the Vacuum Circuit Breaker Cut off the No-Load Distribution Transformer in 10 kV Large Current Grounding System

Journal ID : CLZYH-07-05-2023-10721 Author : Li, C., Zhang, N., Guo, Y.,

Abstract :

The high amplitude and steep overvoltage generated by the breaking of the vacuum circuit breaker in the wind farm damages the inter-turn insulation of the transformer. There is a certain difference between the simulation results of the traditional reignition model and the measured overvoltage. It is necessary to improve the simulation model to simulate the overvoltage condition of the transformer more accurately and then select appropriate overvoltage protection measures. In this paper, based on the physical process of dielectric recovery during the opening process of the vacuum circuit bre