Configuration partition of land use optimization in arid inland river basin based on ecological security pattern

To solve the increasingly serious ecological problem and shortage of water and soil resource during the development of social and economy and urbanization process, the reasonable determination of the land use structure and layout in future is the key. In this paper, the GIS (geographic information system) technology and the MCR (minimum cumulative resistance) model as well as the CLUE-S (conversion of land use and its effects at small regional extent) model were applied to optimize the land use structure and its allocation in Shiyang river basin. First, the correct driving factors were selected to make prediction map. In this paper, 18 driving factors of land use were selected for logistic regression. Besides, ecological security patterns were constructed to maintain the basic ecosystem services of Shiyang river basin based on the theory of landscape security pattern. Second, we set the corresponding land use change and spatial optimizing allocation of the basin in 2030 under 3 development modes by MCR model and CLUE-S model, and then predicted the land use distribution under an ecological security pattern scenario, a farmland protection scenario, and a free development scenario. Third, taking the optimization of land use resources as an objective, the spatial distributions of energy exchange and transfer resistance and cost resistance of the land use resources in Shiyang river basin were analyzed according to the minimum accumulative resistance surface, the accumulative cost resistance model and the surface dissipative technology. The result showed that Shiyang river basin could be divided into 6 types which were core area of ecological protection, key area to be optimized, potential optimal allocation area, key area of ecological protection, ecological restoration-concern area and ecological comprehensive management area according to the configuration methods. Besides, The results showed that the farmland area decreased by 314.41 km2 (about 5.32%), but the woodland and grassland increased evidently by the area of 1424.17 km2 (about 33.85%) and 1485.13 km2 (about 12.05%) respectively and unused land also had a great reduction under an ecological security pattern scenario. In contrast, the farmland area increased by 5.85% in 2030 (about 386.53 km2), woodland and grassland also increased by 7.61% (229.38 km2) and 0.77% (84.58 km2) respectively, and unused land reduced by 3.91%, about 789.92 km2 under a farmland protection scenario. This scenario took the land use exploitation and renovation as well as homestead consolidation as the main objectives, and controlled the urban and residential land expansion scientifically and effectively. In a free development scenario, the current free development situation and the government macro policy guidance were comprehensively considered and the quantity and spatial structure development were also taken into consideration. Comprehensively considering the sustainable development in Shiyang river basin from the perspective of social, economic, ecological development and farmland protection, the free development scenario is relatively reasonable, and it can not only maintain the farmland increase, but also consider the demand of the ecological restoration and urban development. The other 2 scenarios can be a supplement for regional land optimal allocation. © 2016, Editorial Department of the Transactions of the Chinese Society of Agricultural Engineering. All right reserved.