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1、 This is one of the magazine。Submission requiremento Water, Air, & Soil Pollution needs manuscripts (手写原稿)on methods used in the study of environmental pollutants, environmental toxicology(毒物学), biology and engineering related to pollution, bioremediation(生物降解), environmental modeling(造型) and biores
2、toration(生物恢复)of polluted environments.o Submitted articles must have up-to-date references and employ the correct experimental replication(反响) and statistical analysis, where neededcontinuedo The journal will not consider submissions of limited international interest or lacking a substantial(实在的) i
3、mpact on environmental pollution research. In addition, papers that merely comprise data collections, based on the use of routine analytical or bioanalytical methods, are not acceptable. Repetition of already published knowledge, simply applied to the local level, will not be considered, nor will pa
4、pers that do not highlight and explain clearly the new science versus the current knowledge.Exzampleo I chose a paper from the magazine. The paper studies the plateau lakes (高原湖泊)of Yunnan in order to improve the water qualityo Though I just copy the structure of the paper,I also hope that we may le
5、arn more through the standard articleAbstract The plateau lakes (高原湖泊)of Yunnan are important both ecologically and economically in China. Nevertheless, the human impact on water quality in these lakes has become increasingly highlighted. The water quality of 10 plateau lakes was monitored regularly
6、 over the period of 2000 through 2004 for 24 parameters(因素,特征). Multivariate statistical techniques, including cluster analysis (CA), factor analysis (FA), and principal component analysis (PCA), were employed to better interpret information about the water quality and its pollution sources. continu
7、ed However, three latent factors accounted for pollution mainly from the following sources: agricultural activities, residential activities and anthropogenic-toxic pollution from industrial effluents, or other special activities. Three types of water quality (low-, medium-, and high-polluted lakes)
8、were determined through CA based on the similarity of water quality variables. Our results may provide helpful information for the authorities to effectively manage the water quality and make sound policieskeywordslplateau lakesl Yunnanl variables(可变因素)lwater qualitylinformation.Parts of the body IN
9、TRODUCTION MATERIALS AND METHODS RESULTS AND DISCUSSION CONCLUSIONS INTRODUCTION Yunnan lakes, described as the pearls on the plateau, play a crucial role in water supply, fishing, waste disposal, lake reclamation, agriculture, and industry However, the catchment area of these lakes has been subject
10、 to deforestation, agricultural intensification, soil erosion, urbanization, and industrialization. continued As a result, water pollution and water shortages have now become a severe problem which has received more and more attention from the public and the government . For example, several water-q
11、uality monitoring programs have been initiated to track lake water quality in Yunnan Province. These programs raise a novel issue, that is, how people should make good use of a huge and complex data set containing a large number of physicochemical parameters. MATERIALS AND METHODS Study Sites Data S
12、ource and Statistical AnalysesRESULTS AND DISCUSSION Principal Component Analysis and Pollution Source Identification Spatiotemporal Variations in Water Quality and Pollution Sources Water Quality Regime(社会制度) Controls of Pollution SourcesCONCLUSIONS Water quality data from 10 plateau lakes of Yunna
13、n Province have been examined by unsupervised pattern recognition (hierarchical cluster analysis) and display methods (PCA) to obtain correlations between variables and water quality similarity in groups of lakes. Cluster analysis confirmed the existence of three types of water quality (i.e., low-,
14、medium-, and high-polluted lakes). Although three PCs needed 14 variables to explain 85.01% of the original data set, which indicated that no obvious data reduction was obtained, three latent factors can identify different pollution sources: agricultural and industrial activities, residential activi
15、ties, and anthropogenic-toxic pollution from industrial effluents or other special activities. Box-whiskers plots of water quality variables showed visually the spatiotemporal variations of water quality variables, which may help further analyze the pollution sources loading into these lakes. All th
16、ese results can provide better opportunities for more effective management of lake water quality and analyses of lake status. ACKNOWLEDGMENTS Many thanks to the Environmental Monitoring Center of Yunnan Province and Yunnan University for providing the field measured data. Special thanks should go to
17、 Lu Ying and Li Jingruo at Yunnan University for their assistance with data collection and to Dr. Pam Arlund at the University of Texas at Arlington, and Dr. Zhao Shujie at Shanghai International Studies University for polishing the manuscript. We are grateful to valuable comments from the editor an
18、d three anonymous reviewers who helped to greatly improve the manuscript. This research was funded by National Basic Research Program of China referenceoBeatriz, H., P. Rafael, V. Marisol, B. Enrique, M.F. Jose, and F. Luis. 2000. Temporal evolution of ground water composition in an alluvial aquifer
19、 (Pisuerga River, Spain) by principal component analysis. Water Res. 34:807816. oBernard, P., L. Antonie, and L. Bernard. 2004. Principal component analysis: An appropriate tool for water quality evaluation and management-application to a tropical lake system. Ecol. Modell. 178:295311oChu, J.Y., J.N
20、. Chen, C. Wang, and P. Fu. 2004. Waste water reuse potential analysis: Implications for Chinas water resources management. Water Res. 38:27462756oCoimbra, C.N., M.A.S. Graa, and R.M. Cortes. 1996. The effects of a basic effluent on macroinvertebrate community structure in a temporary Mediterranean river. Environ. Pollut. 94(3):301307.Thank you !