Rational exploitation and utilization of water resources and rational optimal allocation of resources are the prerequisites for achieving the goal of sustainable development in economy and environment. In some Arid Valley Areas of the upper reaches of Minjiang River, the irreplaceability and uneven spatial and temporal distribution of water resources are the main restrictive factors that limit the economic and social development’ speed and degree in Arid Valley Area [1]. It is conducive to the rational development and utilization of water resources and their optimal allocation for studying the spatial distribution of water resources and its corresponding relationship with regional economic development.

The water resources development, utilization and optimal allocation are aimed at sustainable development of social economy and ecological environment. In the study of the relationship between regional economic development and water resources, Zhang Liming and others used Grey Correlation Analysis Method to quantitatively analyze the correlation between urban economic development and water resources utilization structure, and concluded that per capita GDP exerts a greater impact on the change of water resources utilization structure. Zhang Zhenlong and others used VAR model to analyze the long-run equilibrium relationship between water consuming industry ecosystem and economic growth in the upper reaches of Minjiang River, and found that economic development has a negative impact on water consumption [2].

Spatial Statistical Analysis is an important approach to study spatial distribution and correlation [3]. Ran Zeze analyzed the economic growth and spatial correlation of the Core Node Cities in Northwest China of the Silk Road Economic Belt, taking Moran Index to figure out the correlation of spatial distribution of economic development. Zhang Xuebin and others applied Spatial Analysis and Statistical Analysis Methods to explore the spatial & temporal pattern and spatial action relation of economic differences in the basin [4]. Liu Na and others have studied the spatial variation and correlation of population and economy in Gansu Province, and analyzed the corresponding relationship between population and economy both from the time and spatial scales. There are still many related studies, and the Spatial Statistical Analysis Method is more thorough [5].

This paper analyzed the spatial correlation between regional economic development and water resources utilization in the upper reaches of Minjiang River, and thus more intuitively illustrated the role of water resources utilization in its economic development, and also provided a reference for this areas’ more scientific and sustainable development in economy and ecological environment.

The upper reaches of Minjiang River Basin refer to the eastern part of Qinghai-Tibet Plateau, northwest of Sichuan Basin and east of Tibetan Qiang Autonomous Prefecture of Ngawa. It’s situated in the triangular land mass between the Qinling zonal tectonic belt, the Longmenshan North-North-East tectonic belt and the Barkam North-West tectonic belt. Its longitude ranges from 102^°33'46-104^°15'36, and its latitude ranges from 30^°45'37''-33^°69'35''. this area has abundant water resources because of interlaced rivers and vast lakes, etc. The per capita water resources is top-ranked nationwide. However, the unavailable glacier reserves account for a large part, and most of this area is arid valley so that water resource is a little bit scarce. As for the spatial scale, the distribution of water resources is uneven in the upper reaches of Minjiang river, which has prominent constraint on regional economic development.

In this study, those spatial vector data are selected from the county-level shape-file format data in the upper reaches of Minjiang River Basin. The statistical data include population, GDP, water resources and its consumption of all the counties in the upper reaches of Minjiang River Basin in 2016 [6] [7] [8].

The spatial weight matrix can express the spatial topology and adjacency among different spatial objects. Firstly, a spatial weight matrix is given to represent the adjacent relationship of N spatial regions and further to indicate the relationship among different regions [9] [10]. For the former research, the adjacency relation weight matrix is often adopted. Considering that the area of the counties in the upper reaches of Minjiang River is not all close and has wide span, so the author adopted the distance weight matrix. First, the ArcGIS is used for the centroid computation of the vector data of the counties, and the average value of the adjacent distance is used as the distance weight. It can effectively avoid the imbalance of the spatial proximity. Moran index can reflect the similarity of the spatial adjacent region or its cell attribute values. After normalization of variance, the value of Moran index I will be normalized to −1.0 - 1.0. The value greater than 0 indicates positive spatial correlation, and the larger the value, the more obvious the spatial correlation; Less than 0 indicates negative spatial correlation, and the smaller the value, the greater the spatial difference. When it’s equal to 0, the spatial correlation is random. The results of spatial correlation are illustrated by Moran scatter graph, which is used to describe local spatial instability. The four quadrants of Moran scatter graph correspond to four types of local spatial correlation between the regional unit and its neighbors, respectively. Combining Moran scatter diagram with LISA significance level, Moran significance level graph can come into being.

This article takes 2016 as the time node after the “one belt and one road initiative”, so the author takes the year 2016 as the research time node, and the spatial correlation analysis was carried out on the basis of the GDP data and water resource utilization data of all the counties in the upper reaches of Minjiang River Basin. From the perspective of the spatial auto-correlation analysis of GDP and industrial GDP of each county, this area’s spatial gap of economic development is wide. The GNP, primary industry and tertiary industry all show a negative spatial correlation trend. The spatial distribution of economic development in the upper reaches of Minjiang River by and large shows an unbalanced dot distribution. From the spatial auto-correlation analysis of water resources utilization, it is concluded that only the secondary industry water consumption is positively correlated in spatial correlation and has certain spatial aggregation, while the total water consumption, the primary industry water consumption and the tertiary industry water consumption are all negatively correlated in spatial correlation and have strong spatial heterogeneity.

This paper linked a correlation between GDP of each industry and the spatial distribution of water resources utilization for understanding whether the spatial distribution structure of water resources utilization directly affects the spatial distribution of industrial GDP. The research shows that the total water consumption and the secondary industry water consumption have a positive spatial correlation with GDP, but the correlation index is small and the correlation is not obvious. There is a negative spatial correlation between GDP and water consumption in the primary and tertiary industries, which indicates that the water resources utilization has a certain impact on economic development in spatial distribution, but the planning and transformation of water resources break the constraint of water resources on regional industry development.

This paper analyzed the spatial correlation between GDP and water resources in the upper reaches of Minjiang River Basin from the perspective of spatial visualization. It is concise, intuitive and can operate easily and fast. Of course, there are still many shortcomings, because the size of each county is different. The factor of land use is included in the factor analysis to make the spatial statistical analysis more reasonable. In addition, the development of regional economy is also affected by various factors such as ecological environment. It is important how to promote the benign interaction between regional economy and ecological environment, and apply it to the fine spatial management of macro-economic growth in the upper reaches of Minjiang River, rationally allocate production, living and ecological water use, which promote the coordinated development of socio-economic and ecological environment of the counties in the upper reaches of Minjiang River, and achieve the long-term sustainable development of space utilization adapting to regional economy.

The authors declare no conflicts of interest regarding the publication of this paper.

Song, C.L. and Zhao, B. (2019) A Study of the Spatial Relevance between Economic Development and Water Resources Utilization in the Upper Reaches of Minjiang River Basin. Open Journal of Business and Management, 7, 1273-1284. https://doi.org/10.4236/ojbm.2019.73089