Dynamics of land-use and vegetation change using NDVI and transfer matrix: a case study of the Huaihe River Basin

• Autorzy: Liu F. , Qin T. , Girma A. , Wang H. , Weng B. , Weng B. , Yu Z. , Wang Z.
• Języki publikacji: EN

Abstrakty

EN

The Huaihe River Basin is located in-between the north-south climate transitional zone in China and is China’s important congested area and production base. The land-use of the environment was occupied by the land-use for social and economics. This paper aims to have a comprehensive understanding about land-use and vegetation evolution of the basin over the past 30 years. In view of 5 years (1985, 1990, 2000, 2005, and 2014) land-use data and remote sensing data about NDVI, land-use dynamic degree, and land-use transfer matrix were used to analyze the dynamics of land use. Spatial overlay was used to study vegetation change characteristics of the basin. The present study investigates the evolution trend of vegetation coverage based on spatial overlay analysis. We found that water bodies and urban lands of the basin increased during 1985-2014. On the other hand, the area of artificial vegetation, natural vegetation, and wetland were reduced. The impact was gradually increased by human intervention on various land use types. Overall vegetation coverage level shows deteriorative development, and distribution areas were discrete. The excellent vegetation coverage of natural vegetation and wetland didn’t have obvious changes, but the high coverage significantly decreased. Taken as a whole, the natural vegetation coverage was reduced. The vegetation coverage level of artificial water in the land-use for social and economics had greatly increased, but the overall trend of vegetation coverage level of artificial vegetation and resident construction land showed a decreasing trend.

• Wydawca: -
• Czasopismo: Polish Journal of Environmental Studies
• Rocznik: 2019
• Tom: 28
• Numer: 1
• Opis fizyczny: p.213-223,fig.,ref.

Twórcy

autor

Liu F.

• College of Environmental Science and Engineering, Donghua University, Shanghai, China
• State Key Laboratory of Simulation and Regulation of Water Cycle in River Basin, China Institute of Water Resources and Hydropower Research, Beijing, China

autor

Qin T.

• State Key Laboratory of Simulation and Regulation of Water Cycle in River Basin, China Institute of Water Resources and Hydropower Research, Beijing, China

autor

Girma A.

• College of Environmental Science and Engineering, Donghua University, Shanghai, China

autor

Wang H.

• State Key Laboratory of Simulation and Regulation of Water Cycle in River Basin, China Institute of Water Resources and Hydropower Research, Beijing, China

autor

Weng B.

• State Key Laboratory of Simulation and Regulation of Water Cycle in River Basin, China Institute of Water Resources and Hydropower Research, Beijing, China

autor

Weng B.

• State Key Laboratory of Simulation and Regulation of Water Cycle in River Basin, China Institute of Water Resources and Hydropower Research, Beijing, China

autor

Yu Z.

• State Key Laboratory of Simulation and Regulation of Water Cycle in River Basin, China Institute of Water Resources and Hydropower Research, Beijing, China

autor

Wang Z.

• Anhui and Huaihe River Institute of Hydraulic Research, Bengbu, China

Bibliografia

• 1. MOONEY H.A., DURAIAPPAH A., LARIGAUDERIA A. Evolution of natural and social science interactions in global change research programs. PNAS, 110 (1), 3665, 2013.
• 2. STERLING S.M., DUCHARNE A., POLCHER J. The impact of global land-cover change on the terrestrial artificial water cycle. Nature Climate Change, 3 (4), 385, 2012.
• 3. BIČIK I., HIMIYAMA Y., FERANEC J., KUPKOVÁ L. Land use/cover changes in selected regions in the world – IX. IGU Commission on LUCC, Charles University in Prague: Prague, 2014.
• 4. BÜRGI M., STRAUB A., GIMMI U., SALZMANN D. The recent landscape history of Limpach valley, Switzerland: Considering three empirical hypotheses on driving forces of landscape change. Landscape Ecology, 25, 287, 2010.
• 5. DRUGA M., FALTAN V. Influences of environmental drivers on land cover structure and its long-term changes: A case study of the villages of Malachov and Podkonice in Slovakia. Moravian Geographical Reports, 22, 29, 2014.
• 6. SCHALDACH R., ALCAMO J., KOCH J., KOELKING C., LAPOLA D.M., SCHUENGEL J., PRIESS J.A. An integrated approach to modelling land-use change on continental and global scales. Environmental Modelling & Software, 26, 1041, 2011.
• 7. Kiedrzyński M. et al. Analyzing the change in land use about actual vegetation mapping and hemeroby concept adaptation of the Sokołówka River valley during 200 years. Polish Journal of Environmental Studies, 23(1), 109, 2014.
• 8. MERYEM A., TÜRKER A., MUSTAFA A. Land use changes in relation to coastal tourism developments in Turkish Mediterranean. Polish Journal of Environmental Studies, 19 (1), 21, 2010.
• 9. MICHETTI M., ZAMPIERI M. Climate-Human-Land interactions: A review of major modelling approaches. Land, 3 (3), 793, 2014.
• 10. WEI W., XIE Y.W., Shi P.J., Zhou J.J., Li C.H. Spatial temporal analysis of land use change in the Shiyang River Basin in arid China 1986-2015. Polish Journal of Environmental Studies, 26 (4), 1789, 2017.
• 11. ZHANG S.Q., AN F.Z., GUO Y.F. Research on land use change of Shiyang River Basin based on TM image. Environmental Protection of Xinjiang. 34 (1), 40, 2012.
• 12. NAZILA K. Evaluation of land use to decrease soil erosion and increase income. Polish Journal of Environmental Studies, 23 (4), 1329, 2014.
• 13. CHENG S.D., LI Z.B., LU K.X. Spatio-temporal variations in vegetation coverage and correlation with geomorphologic factors in Wenanyi watershed. Jouranl of Xi’an University of Technology, 27 (2), 145, 2011.
• 14. JIANG W.G., YUAN L.H., WANG W.J. Spatio-temporal analysis of vegetation variation in the Yellow River Basin. Ecological Indicators, 51, 117, 2015.
• 15. Ministry of Huaihe river artificial water resources commission of artificial water resources, Brief History of Huaihe River Artificial water Resources. Artificial water Resources and Electric Power Press: Beijing, China, 1996 [In Chinese].
• 16. ZHANG L., YANG G.F., LIU J.P. The dynamic changes and hot spots of land use in fushun city from 1986 to 2012. Scientia Geographica Sinica, 34 (2), 185, 2014.
• 17. ZHOU Z.Y., CHU S.L, WANG Z.W. Analysis of vegetation coverage change based on NDVI-A case study in Ganzhou area, Zhangyecity, Gansu. Grassland science, 25 (12), 23, 2008.
• 18. GUI J., ZHAO H.L., ZHAN W. Impact of land-use induced changes on agricultural productivity in the Huang-Huaihe-Hai River Basin. Physics and Chemistry of the Earth, 79 (82), 86, 2015.
• 19. XING W., HU X.L., ZHANG R.H. Control effects of the national key project of soil and water conservation on the soil erosion in Huaihe River Basin. Science of Soil and Water Conservation, 14 (2), 137, 2016.
• 20. LIU J.Y., KUANG W.H., ZHANG Z.X. Spatiotemporal characteristics, patterns and causes of land use changes in China since the late 1980s. ACTA GEOGRAPHICA SINICA, 1 (1), 3, 2014.
• 21. LIU J.Y., LIU M.L., ZHUANG D.F. Study on spatial pattern of land-use change in China during 1995-2000. Science in China Press. 46 (4), 2003.
• 22. CROK B.F.W., REITT WS, JAKEMAN A.J. A dynamic model for predicting hydrologic response to land cover changes in gauged and ungauged catchments. Journal of Hydrology, 291 (1), 115, 2004.
• 23. WANG G., JIANG H., XU Z. Evaluating the effect of land use changes on soil erosion and sediment yield using a grid-based distributed modelling approach. Hydrological Processes, 26 (23), 3579, 2012.
• 24. CHEN X., ZHANG Y.P. Land use change of China based on NDVI and landscape ecology [J], IITA-GRS, 2, 540, 2010.
• 25. XU L.L. WAN Y., SHENG S. Characteristics, hotspots and influencing factors of wetland change in Huaihehe river basin. Journal of Natural Resources, 28 (8), 1383, 2013.
• 26. LIANG L., ZHAO L.A., GONG Y.F. Probability distribution of summer daily precipitation in the Huaihe Basin of China based on gamma distribution. ACTA METEOROLOGICAL SINICA, 26 (1), 72, 2012.
• 27. YANG M., CHEN X., CHENG C.S. Hydrological impacts of precipitation extremes in the Huaihe River Basin, China. Springerplus, 5 (1), 1731, 2016.
• 28. SHE D.X., XIA J., ZHANG Y.Y., DU H. The trend analysis and statistical distribution of extreme rainfall events in the Huaihe River basin in past 50 years. ACTA GEOGRAPHICA SINICA, 66 (9), 1200, 2011.
• 29. WANG K.Q., ZENG Y., XIE Z.Q. Chang trend of temperature and precipitation in Huaihe river basin from 1961-2008. Journal of the Meteorological Sciences, 32 (6), 671, 2012.
• 30. POŁAWSKI Z. Land use changes in Poland during last two centuries. Teledetekcja środowiska, 42, 69, 2009 [In Polish].
• 31. GASIOROWSKI J., POŁAWSKI Z. Land use structure as the basis for indicators determining spatial development of the environment. Polish Journal of Environmental Studies, 23, 955, 2014.
• 32. MBEREGO S. Temporal patterns of precipitation and vegetation variability over Botswana during extreme dry and wet rainfall seasons. International Journal of Climatology, 53 (12), 2016.
• 33. YAN D., XU T., GIRMA A. Regional Correlation between Precipitation and Vegetation in the Huang-Huai-Hai River Basin, China. Water, 9 (8), 557, 2017.
• 34. ZEPPEL M.J.B., WILKS J.V., LEWIS J.D. Impacts of extreme precipitation and seasonal changes in precipitation on plants. Biogeosciences, 11 (11), 3083, 2014.
• 35. YAO M.T., GAO C., LU M. The intensity and frequency characteristics of extreme runoff over the Huaihe River Basin during 1959-2008. GROGRAPHICAL RESEARCH 34 (08), 1535, 2015.
• 36. YANG M., CHEN X., CHENG C.S. Hydrological impacts of precipitation extremes in the Huaihe River Basin, China. Springerplus, 5 (1), 1731, 2016.
• 37. DU H., XIA J., ZENG S.D. Regional frequency analysis of extreme precipitation and its spatio-temporal characteristics in the Huaihe River Basin, China. Natural Hazards, 70, 195, 2014.
• 38. ZHANG D.D., YAN D.H., WANG Y.C. Changes in extreme precipitation in the Huang-Huaihe-Hai River basin of China during 1960-2010. Theoretical and Applied Climatology, 120, 195, 2015.

Identyfikatory

DOI

10.15244/pjoes/82900