1. Introduction
The process of land marketization reform represents the country’s shift from planned to market-based land resource allocation. The degree of land marketization reflects the outcomes of these reforms, indicating the extent to which land resources are allocated through the market at a particular stage. It serves as a crucial measure of the state of land market transactions [
1,
2]. Since the late 1980s, China has implemented reforms to establish a market-oriented urban land allocation system. These reforms have significantly improved the optimal allocation of land resources and effectively promoted urbanization and socioeconomic development.
Industrial land is a key production factor for industrial development. Its optimal allocation significantly impacts industrial restructuring and upgrading, as well as the construction of new urbanization. In the context of economic transformation, the industrial economy holds a dominant position in the socioeconomic landscape. In 2006, the former Ministry of Land and Resources issued the “Notice on Implementing the National Minimum Price Standards for Industrial Land Transfer”, which stipulated that the transfer of industrial land must be conducted through a “bidding, auction, and listing” process while adhering to minimum price standards [
3]. To promote the market-oriented allocation of industrial land, the state once again emphasized the need to deepen the reform of factor market allocation and advance the unified development of urban and rural construction land markets in the 14th Five-Year Plan and the Vision for 2035. In 2022, the General Office of the State Council released the “Overall Plan for Comprehensive Reform Pilots of Market-Oriented Allocation of Factors”, calling for the optimization of industrial land supply methods and the activation of existing land through market-oriented approaches [
4]. The market is an effective pathway and a crucial means for resource allocation. In a market economy, resource allocation is achieved through changes in price signals. Price not only guides the flow of resources [
5] but also serves as the core driving factor for industrial upgrading driven by land marketization [
6].
Unlike the liberal market transactions of industrial land under private land ownership systems in Western countries, the primary objectives of local governments in China’s current political system are to maximize output and fiscal revenue [
7]. Land, as a critical resource under the control of local governments, naturally becomes a powerful policy tool for achieving these dual objectives. This has led to widespread government intervention and regulation in land resource allocation during the marketization reform of land. In their pursuit of economic growth and urbanization targets, local governments often engage in competitive investment attraction, resulting in large-scale, low-priced industrial land transfers and high-priced commercial and residential land transfers [
8]. Such practices have caused problems such as disorderly expansion, inefficient land use, and industrial homogeneity [
9]. These issues contradict the marketization reform of land factors and severely hinder the rational flow of factor resources and the optimization of national spatial layout. Therefore, enhancing the marketization level of industrial land is crucial for addressing these current issues, as it facilitates rational resource allocation and regional industrial upgrading.
Industrial land is an essential element in industrial economic development, extensively studied by scholars both domestically and internationally. In countries with private land ownership, research has focused on industrial land pricing due to decentralized land transaction data and high marketization. These studies primarily examine the impact of physical characteristics [
10] (e.g., land area, available office space) and locational attributes [
11] (e.g., transportation accessibility, market proximity, street frontage) on industrial land prices. Additionally, research has explored the effects of environmental pollution [
12] and land zoning regulations [
13] on prices. As land systems and urbanization mature in developed countries, land transaction volumes have decreased, leading to a reduction in related studies. In contrast, China’s ongoing land market reforms have spurred extensive research in this area. Scholars’ research on industrial land mainly focuses on industrial land efficiency [
14], industrial land price [
15], industrial land policy [
16], and the intensive use of industrial land [
17]. Research related to the marketization of industrial land remains relatively limited. Studies related to land marketization mainly include the following two aspects: (1) Assessment of the current status of land marketization levels. Research on the assessment of the current status of land marketization levels predominantly focuses on macro- and meso-level cities. Most studies choose either the entire country or specific urban agglomerations as the research area to measure the level of marketization [
18,
19,
20,
21]. There are also scholars who have conducted studies on the level of land marketization from a mrcro-scale perspective, focusing on a single city [
22,
23]. From the spatial division of China’s regions, the research concluded that the industrial land marketization level in China’s eastern region is higher than in the central and western regions [
3,
15]. Additionally, the level of industrial land marketization in the region with better economic development is declining, and the level of industrial land marketization is obviously differentiated between prefectural-level cities, etc. Regarding measurement methods, early assessments of industrial land marketization primarily relied on the proportion of the quantity or area of land transferred through “bidding, auctioning, and listing” to the total quantity or area supplied. This ratio was used to gauge the level of industrial land marketization [
24,
25]. Some scholars use the “weighted correction method” to correct the quantity or area of land supply according to the level of the land, with the unit price of the auction as the benchmark [
26,
27], and by analyzing the premium rate of the industrial land transaction price in different regions of the country relative to the national minimum price of industrial land transfer [
28]. Based on the inter-regional differences in the level of land marketization, scholars have studied the influencing factors and found that the level of regional economic development [
29], the size of the industrial sector [
30], investment promotion behavior [
31], the conditions of the regional land resource endowment, the degree of demand for industrial land [
32,
33], and other factors have a positive impact on the level of land marketization. (2) Local government land policy. From the perspective of local government fiscal competition, scholars analyze the degree of influence of government behavior on regional land marketization and find that intergovernmental fiscal competition has a positive effect on the level of urban land marketization, while competition for attracting capital has a negative effect [
34,
35]. From the perspective of resource mismatch, fiscal competition between governments leads to a mismatch of land resources and the adoption of differential pricing of industrial land, which inhibits industrial structure upgrading and land marketization development. In order to alleviate the resource mismatch phenomenon, some scholars have proposed exploring the flexible terms and scope of industrial land grants [
36], establishing a system of periodic evaluation and updating of the minimum price standard for industrial land, setting assessment indicators for industrial land grant and withdrawal [
37] (e.g., the minimum output per mu in the remaining years of the land-use right), implementing the graded ratings of industrial enterprises and differentiated tax policies, and advancing to the mode of selecting business and capital [
38] and other policy recommendations.
Currently, academic research on the marketization of industrial land primarily focuses on nationwide dimensions and economically developed regions, such as the eastern coastal urban clusters of China. However, there is a lack of attention given to emerging regions within the country. Although research findings from economically advanced areas can provide certain experiences, their applicability is relatively limited. There are many cities in China that are still in urgent need of development and require more pertinent theoretical and practical experiences for reference. Moreover, the fundamental objective of China’s industrial land marketization reform is to maximize the explicit value of land resources. Most current studies determine the level of marketization based on the area or price proportion of land transfers, with varying degrees of marketization. However, this method often focuses on the “marketization” of land transaction forms and cannot identify the formalistic “bidding, auctioning, and listing” by local governments. Therefore, reflecting the degree of marketization from the perspective of land transfer methods lacks persuasive power. In summary, the marginal contribution of this paper lies in selecting emerging regions and quantifying the marketization level of industrial land in the Chengdu–Chongqing region from the perspective of the primary land market. The aim is to deepen and expand the research on the evolution of the marketization level of industrial land and to provide references for developing cities in formulating scientifically sound regional industrial land policies.
The Chengdu–Chongqing Twin City Economic Circle, recognized as the “fourth pole” of national economic growth, is the focus of this study due to its representative and unique characteristics in the new spatial economic development pattern of the Western region of China. Therefore, this paper selects 44 prefecture-level cities within the Chengdu–Chongqing Twin City Economic Circle as the research subjects. The aim of this study is to quantify the degree of industrial land marketization in these 44 prefecture-level cities from 2010 to 2021 using land market transaction data. This study employs kernel density estimation, the centroid migration method, and the global Moran’s I spatial statistical model to explore the temporal and spatial evolution characteristics of industrial land marketization in the Chengdu–Chongqing area and reveal its changing patterns. Furthermore, the gray relational analysis model is used to identify the key driving factors. The findings are intended to provide valuable references for the implementation of national macroeconomic strategies and the optimization of regional economic structure. Additionally, this research seeks to offer development strategies and policy insights for the Chengdu–Chongqing region to better play its role as the “Twin Cities” in the new era of Western development, thereby promoting efficient and coordinated economic development nationwide.
The structure of this paper is as follows: The second part introduces the study area, the selection of variables, the research methods employed, and the data sources. The third part presents the research results, including the evolution characteristics and regional differences in the marketization level of industrial land in the Chengdu–Chongqing region over time and space, along with an exploration of its driving factors. The fourth and fifth parts summarize the research conclusions based on the findings and propose corresponding policy implications.
2. Research Design
2.1. Research Area
The Chengdu–Chongqing Economic Circle is located in the upper reaches of the Yangtze River within the Sichuan Basin. It is bordered by Hunan and Hubei to the east, connects with the Qinghai–Tibet Plateau to the west, adjoins Yunnan and Guizhou to the south, and is adjacent to Shaanxi and Gansu to the north. This region is the most densely populated, industrially robust, innovation-capable, market-extensive, and open area in Western China. In 2020, the Chinese government officially incorporated it into the national strategy, positioning it at the intersection of the “Belt and Road Initiative” and the Yangtze River Economic Belt. The region plays a crucial role in promoting regional development and the national strategic layout. Furthermore, as a bridge linking Southwest China with South Asia and Southeast Asia, the region’s external development and regional expansion have not only invigorated the internal market but also provided new momentum for international cooperation. However, despite its strong industrial foundation, the Chengdu–Chongqing region faces challenges such as insufficient new growth drivers and an irrational structure of industrial land use. These issues have become major obstacles to its sustainable development and the achievement of higher levels of market-oriented resource allocation. This not only hinders the optimization and upgrading of the local economy but also limits its strategic execution capabilities in the national and global economic landscape.
This paper is based on the “Chongqing Municipal Master Plan for National Land and Space (2020–2035)”, focusing on the Chengdu–Chongqing Economic Circle within the designated area (
Figure 1). The Chengdu–Chongqing Economic Circle includes the central urban area of Chongqing and 29 other districts and counties, namely Wanzhou, Fuling, Qijiang, Dazu, Qianjiang, Changshou, Jiangjin, Hechuan, Yongchuan, Nanchuan, Bishan, Tongliang, Tongnan, Rongchang, Liangping, Fengdu, Dianjiang, Zhong County, Kaizhou, and Yunyang. Additionally, the circle encompasses 15 cities in Sichuan Province, which are Chengdu, Zigong, Luzhou, Deyang, Mianyang, Suining, Neijiang, Leshan, Nanchong, Meishan, Yibin, Guang’an, Dazhou, Ya’an, and Ziyang. The study area considers prefecture-level cities, totaling 44 cities.
2.2. Variable Setting
In order to explore the driving factors of the marketization level of the twin city economic circle in the Chengdu–Chongqing region, this paper selects the following five indicators as control variables by drawing on the relevant literature [
20,
29,
39].
Economic development level. The level of economic development reflects the effects of geographic advantages, industrial endowments, investment climates, and policy biases, revealing a region’s economic status and potential. Regions with higher levels of economic development typically offer more favorable investment environments and policy incentives, which tend to attract a significant influx of businesses. This increase in economic activity not only promotes employment and technological innovation but also intensifies the demand for limited land resources, consequently leading to heightened competition in the land market and rising land prices. As a result, GDP per capita is the measure used in this study to describe the degree of regional economic development.
Fixed asset investment. In recent years, merely reducing industrial land prices has proven insufficient to effectively attract industrial enterprises. This shift necessitates that local governments increasingly rely on boosting fixed asset investments, improving regional infrastructure, enhancing public services, and optimizing the investment environment to attract and retain businesses. By adopting this approach, local governments can also reduce their dependence on land finance, fostering economic development in a healthier and more sustainable manner while indirectly normalizing and increasing industrial land prices.
Foreign direct investment. As regional economies develop and industries mature, the industrial structure optimizes, and market competition conditions diversify. In this process, the interaction between local governments and industrial enterprises evolves into a bilateral selection relationship, where local governments consider the long-term benefits of industrial development needs and foreign investment. In this interactive dynamic, foreign direct investment becomes a key force in driving regional economic restructuring and industrial upgrading. Furthermore, the aggregation of foreign enterprises and industrial expansion increase the demand for industrial land, indirectly causing land prices to rise. This increase in land prices, in turn, affects the region’s attractiveness for investment, creating a dynamic interaction cycle.
The ratio of government revenue and expenditure. Under the condition of meeting the minimum bid price, the actual transaction price of industrial land is largely influenced by local fiscal demands. Local governments adjust the transaction prices of different plots through differentiated land supply policies to secure off-budget revenues. Consequently, this paper selects fiscal autonomy as a measure of local governments’ ability to rely on autonomous income to finance their expenditures.
Industrial structure upgrading. The transformation and upgrading of industrial structures directly influence the distribution of land resources among different sectors, particularly affecting the fluctuations and adjustments in industrial land prices. The growth rate of the tertiary sector relative to the secondary sector reflects the trends and maturity of these structural changes as the economy evolves. Such shifts often result in the redistribution of land demand, impacting the pricing and efficiency of industrial land use. Therefore, the ratio of the output value of the tertiary to the secondary industry is used as a measure of industrial structure, illustrating the effects of industrial development on industrial land prices.
2.3. Data Resource
To comprehensively explore the evolution of the spatial and temporal patterns of industrial land marketization in the Chengdu–Chongqing area over a decade, data completeness, timeliness, and accessibility were considered. The basic data included the transaction area, land grades, and transaction prices of industrial land parcels in 44 prefectural-level cities within the Chengdu–Chongqing Twin Cities Economic Circle, as well as socioeconomic data from 2010 to 2021, such as per capita GDP, secondary and tertiary industry output, and the total amount of investment in fixed assets for the period of 2010–2021, government revenue, and foreign direct investment. Industrial land transaction data were obtained by web scraping from the China Land Market Network. After excluding data with missing prices or areas and removing “unassessed” land grades, potential outliers or extreme values were addressed using a two-sided trimming method, resulting in 19,995 valid data entries. Other relevant socioeconomic data were obtained from the Sichuan Statistical Yearbook, the Chongqing Statistical Yearbook, the China Urban Statistical Yearbook, and the Regional Economic Statistical Yearbook.
2.4. Research Method
2.4.1. Measurement of Industrial Land Marketization
In order to maximize the value of industrial land resources and improve the accuracy of the measurement of the marketization level, this paper adopts the premium rate of industrial land to express the marketization level of industrial land, with reference to the previous research [
40], which is calculated as follows:
The premium rate for
th-class industrial land in City
i is as follows:
The premium rate for industrial land in City i is as follows:
where
and
denote the total price of industrial land offered in the
th class of industrial land in prefecture
and the minimum price of land offered in that class, respectively;
denotes the area of industrial land offered in the
th class of industrial land in prefecture
; and
denotes the total area of industrial land offered in prefecture
.
2.4.2. The Standard Deviation Ellipse
The standard deviation ellipse (SDE) method uses the marketization level of industrial land in each prefecture-level city as a weight to study the spatial distribution directionality of industrial land marketization through standard parameters such as the regional distribution center, azimuth, and standard distance. This model effectively reflects the development direction and dynamic balance issues of industrial land marketization allocation within the region. The distribution center of gravity (
,
), also known as the center of mass, is an extension of the mean value of the studied factor in two-dimensional space, indicating the point where the moments of industrial land marketization in the spatial plane reach equilibrium at a specific moment. The formula for calculating the coordinates of its center of gravity is given below:
where (
) are the geographical coordinates of prefecture
;
is the number of prefectures in the study area; and
is the weight measured in terms of the level of industrial land marketization in prefecture
.
2.4.3. Global Spatial Autocorrelation Estimation
The essence of the global Moran’s I index is to illustrate the strength of the association between neighboring entities, which can characterize the spatial clustering of industrial land marketization levels on a whole spatial scale [
1]. Given the neighboring effects on the land supply behavior of local governments, this study intends to use this spatial statistical analysis method to conduct an exploratory spatial analysis of the industrial land marketization level in the Chengdu–Chongqing area. The value of the index range is [−1, 1]. Under a given significant level, Moran’s I value is greater than 0, which indicates that the overall pattern of land marketization level shows significant spatial agglomeration; Moran’s I value is less than 0, which indicates that the overall pattern shows significant spatial differentiation; and Moran’s I value is equal to 0, which indicates that the overall pattern is randomly distributed and does not have spatial autocorrelation. The calculation formula is as follows:
where
and
are the attribute values of regions
i and
j, respectively;
is the total number of research objects in the study region; the spatial weighting matrix
represents the linking relationship of the research objects between the
th and
th points, with spatial proximity being 1 and non-proximity being 0; and
is the average value of the attribute values.
2.4.4. Gray Correlation Analysis Model
Gray correlation analysis is a method for quantitatively describing the development and change dynamics of a system based on gray system theory. It is characterized by its convenience in calculation and wide applicability [
41], making it suitable for systems with partially incomplete information. This method is used to measure the relative strength of the influence of various factors on a particular indicator. Given the complexity of industrial land marketization levels, which are influenced by various socioeconomic factors, this study employs gray relational analysis to reveal the relationship between marketization levels and their influencing factors. The calculation method is as follows:
- (1)
Determine the comparison and reference series, denoted Xij and X0j, respectively (i = 1, 2, 3, …, m; j = 1, 2, 3, …,n);
- (2)
The series were normalized with the following formula:
- (3)
Calculation of gray correlation:
where
is the gray correlation;
and
| are the minimum value of the extreme difference and the maximum value of the extreme difference, respectively.
is the resolution, taking the value of 0.5.
5. Conclusions and Policy Implications
This paper measures the level of industrial land marketization in 44 prefecture-level cities in the Chengdu–Chongqing economic circle from 2010 to 2021 based on the premium rate of industrial land. A combination of Global Moran’s I, kernel density estimation, centroid migration, and gray relational analysis models are used to study and explore the spatiotemporal patterns and driving factors of industrial land marketization in the region. The main conclusions are as follows:
(1) The process of industrial land marketization in the Chengdu–Chongqing region aligns closely with that of Chongqing, both exhibiting an initial period of steady growth followed by a mid-term decline and subsequent resurgence. The marketization level of industrial land in the Chengdu–Chongqing region is mainly influenced by market dynamics in Chongqing, where the degree of marketization is significantly higher than in Sichuan. Following the establishment of the Chengdu–Chongqing Twin City Economic Circle strategy, the gap in industrial land marketization levels within the region has gradually narrowed, revealing a certain degree of agglomeration.
(2) The level of industrial land marketization in the Chengdu–Chongqing region exhibits a “high in Chongqing, low in Sichuan” pattern, with a spatial distribution trend toward concentration in western Chongqing and southeastern Sichuan. From a spatial pattern perspective, it is evident that the level of industrial land marketization in the Chengdu–Chongqing region exhibits significant regional disparities. In Chongqing, industrial land marketization tends to concentrate in the western part of the city, whereas in Sichuan, it is relatively dispersed. Cities like Ziyang, Suining, and Nanchong display promising development potential. During the study period, the focal point of industrial land marketization in the Chengdu–Chongqing region gradually shifted from Yubei District to Tongliang District, a strategic city at the forefront of the central axis of the Chengdu–Chongqing Economic Circle.
(3) Multiple factors interact to produce the spatial and temporal structure of the regional industrial land marketization level. The level of economic development, modernization of the industrial structure, fixed asset investment, government fiscal revenue and expenditure ratio, foreign direct investment, and other factors primarily drive the spatiotemporal pattern of industrial land marketization in the Chengdu–Chongqing region, and there is a significant difference in the degree of influence of each driving factor in different years.
6. Suggestions
Based on the above conclusions, this paper proposes the following policy insights:
(1) In the Chengdu–Chongqing Twin City Economic Circle, land policy formulation must be grounded in a nuanced understanding of spatial variations in industrial land marketization levels. Considerations should include regional development, resource distribution, and strategic positioning to establish consistent industrial land policies [
42]. Specifically, in Chongqing, as a traditional industrial hub, priority should be given to bolstering industrial growth in pivotal cities along the central axis, such as Tongliang and Yongchuan. This strategy aims to facilitate regional economic restructuring and elevate industrial development, positioning Chongqing as a primary battleground for new industrialization. Furthermore, building upon existing cooperation alliances, efforts should focus on integrating and developing regions with significant growth potential, like Suining and Ziyang. This approach not only accelerates the growth of these cities but also fosters new economic hubs, thereby propelling high-quality development across the entire Chengdu–Chongqing region.
(2) The Chengdu–Chongqing area should continue to advance the integration of planning, infrastructure, industry, and public services, exploring the integrated development of regional industries and avoiding industrial homogenization, thereby fostering a virtuous cycle of regional economic development. Furthermore, enhancing the interaction between the Chengdu–Chongqing area and the global market can effectively elevate the marketization level of industrial land [
45], achieving high-quality and synchronized regional economic development. This strategy will not only help position the Chengdu–Chongqing area within the global industrial chain but also facilitate the formation of a new development paradigm in the context of the new era of Western China’s development, leading to an efficient and innovative economic growth model.
(3) To further accelerate the process of land marketization, more precise measures should be adopted. For instance, setting entry thresholds for industrial enterprises and implementing flexible land policies to meet the needs of different types of enterprises. Additionally, a differentiated land transfer term mechanism should be established based on the life cycle of enterprises to ensure the alignment of enterprise life cycles with land use durations. This approach can reduce operational costs for enterprises and promote the rational allocation and efficient utilization of industrial land, thereby enhancing the overall efficiency of land resource use. Moreover, considering that the root cause of the current fiscal competition among local governments is performance evaluation, it is essential to optimize the performance evaluation system for local governments from the source. Instead of relying solely on GDP as the assessment criterion, the evaluation should expand to include various economic development indicators. A comprehensive examination of the dimensions of regional economic development, tailored to local conditions, is necessary. Such optimization is a long-term measure to effectively regulate the land transfer behavior of local governments.