Abstract
Drylands in China can be divided into five natural or semi-natural regions based on physical and socioeconomic features, e.g., the mountain-basin system in arid desert regions, the Loess Plateau region, the Inner Mongolia Steppe region, the Inner Mongolia agropastoral transitional region and the Ordos Plateau region (Fig. 10.1). The first three regions are biogeological regions that are relatively independent. The Ordos Plateau region is a special biogeological region that is separate from the Loess Plateau region, and the agropastoral transitional region is a land-use based, semi-natural region rather than a biogeological region.
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References
Chang M, Zhao G, Tian A. 1996. Rural economic development and comprehensive control of small watershed on the Loess Plateau. Research of Soil and Water Conservation, 3(4): 88–92.
Chen Y Z, Jing K, Cai Q G. 1988. Soil erosion and its control on the Loess Plateau. Beijing: Science Press.
Ci L J, Wu B. 1997. Climatic type division and the potential extent determination of desertification in China. Journal of Desert Research, 17(2): 107–112.
Ci L J, Yang X H, Zhang X S. 2007. The mechanism and function of “3 Circles”: an eco-productive paradigm for desertification combating. Acta Ecologica Sinica, 27(4): 1450–1460.
Ci L J. 1980. Shelterbelt system in Xinjiang. Urumqi: Xinjiang People’s Press.
Ci L J. 1994. The impact of global change on desertification in China. Natural Resources, 9(4): 289–303.
Ci L J. 1997. Land evaluation and expert system for combating desertification. Beijing: China Forestry Publishing House.
Fu B J. 1989. Soil erosion and its control in the Loess Plateau of China. Soil Use and Management, 5(2): 76–82.
INCD (Intergovernmental Negotiating Committee for A Convention to Combat Desertification). 1994. International Convention to Combat Desertification. New York: United Nations General Assembly.
Kang Z, Zhang X, Zhu G. 2003. Eco-economic background of hilly-gullied loess region and optimized eco-productive paradigm of small watersheds. Acta Botanica Sinica, 45(10): 1174–1185.
Li W, Han N. 2001. Ecotourism management in China’s nature reserves. Ambio, 30(1): 62–63.
Li X Y, Liu L Y, Gao S Y, et al. 2005. Microcatchment water harvesting for growing Tamarix ramosissima in the semiarid loess region of China. Forest Ecology and Management, 214: 111–117.
Lu Y, Stocking M. 2000a. Integrating biophysical and socio-economic aspects of soil conservation on the loess plateau, China. Part II. Productivity impact and economic costs of erosion. Land Degradation and Development, 11(2): 141–152.
Lu Y, Stocking M. 2000b. Integrating biophysical and socio-economic aspects of soil conservation on the loess plateau, China. Part III. The benefits of conservation. Land Degradation and Development, 11: 153–165.
Reynolds J F, Smith D M S, Lambin E F, et al. 2007. Global desertification: Building a science for dryland development. Science, 316: 847–851.
Shen Y C, Wang J W, Wu G H. 2001. Oasis of China. Kaifeng: Henan University Publishing House.
Shi P. 1991. Theory and practice in geographical environment change—case study on late quaternary of Ordos region. Beijing: Science Press.
Sun J M, Ding Z L. 1998. Deposits and soils of the past 130 000 years at the desert loess transition in northern China. Quaternary Research, 50: 148–156.
Tang H, Zhang X. 2003. Establishment of optimized eco-productive paradigm in the farming-pastoral zone of northern China. Acta Botanica Sinica, 45(10): 1166–1173.
Tang K L, Chen Y Z. 1990. Regional characteristics of soil erosion and its control measures on the Loess Plateau. Beijing: China Science and Technology Press.
Thornthwaite C W, Mather J R. 1957. Instructions and tables for computing potential evapotranspiration and the water balance. Publication in Climatology, 10(8): 182–311.
Xu P. 1995. Grassland condition and development principals in the Oasis-Desert transitional belt, Chinese Grassland, 5: 18–22, 28.
Yang X H, Ci L J, Zhang X S. 2008. Dryland characteristics and its optimized ecoproductive paradigms for sustainable development in China. Natural Resources Forum, 32: 215–227.
Yang X H, Wang K Q, Wang B R, Yu C T. 2005a. Microcatchment water harvesting system with microphytic crust treatment for afforestation on semiarid Loess Plateau: a preliminary result. Journal of Forestry Research, 16(1): 9–14.
Yang X H, Zhang K B, Jia B Q, Ci L J. 2005b. Desertification assessment in China: An overview. Journal of Arid Environments, 63: 517–531.
Zhang X S, Shi P J. 2003. Theory and practice of marginal ecosystem management: establishment of optimized eco-productive paradigm of grassland and farmingpastoral zone of north China. Acta Botanica Sinica, 45(10): 1135–1138.
Zhang X S. 1989. The potential evapotranspiration (PE) index for vegetation and vegetation-climatic classification (I)-an introduction of main methods and PEP program. Journal of Plant Ecology, 13(7): 197–207.
Zhang X S. 1992. Boundary effects of eco-geology on the Qinghai-Xizang Plateau. In: Research Society of Qinghai-Xizang Plateau, eds. Proceedings of the first symposium on the Qinghai-Xizang Plateau, Beijing: Science Press.
Zhang X S. 1994. Ecological background, principles of management and optimized models of the Mu Us sandy grasslands. Acta Phytoecologica Sinica, 18(1): 1–16.
Zhang X S. 2000. Eco-economic functions of the grassland and its patterns. Science and Technology Review, 8: 3–7.
Zhang X S. 2001. Ecological restoration and sustainable agricultural paradigm of mountain-oasis-ecotone-desert system in the north of the Tianshan Mountains. Acta Botanica Sinica, 43(12): 1294–1299.
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Ci, L., Yang, X., Zhang, X. (2010). Optimized Sustainable Eco-production Paradigms in Drylands. In: Desertification and Its Control in China. Springer, Berlin, Heidelberg. https://doi.org/10.1007/978-3-642-01869-5_10
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DOI: https://doi.org/10.1007/978-3-642-01869-5_10
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