A Geographic Analysis on Rural Reconstruction-Transformation-Revitalization: A Case Study of Jianghan Plain in China
Abstract
:1. Introduction
2. Framework & Methods
2.1. Framework of Rural Reconstruction-Transformation-Revitalization from a Geography Perspective
2.2. Systematic Analysis of Rural Reconstruction-Transformation-Revitalization
2.2.1. Analyzing the Characteristics of Rural Reconstruction
- Data standardization
- Using the data after standardization to calculate the information entropy of the sub-indices, in which, , is the number of units to be evaluated.
- to calculate information utility value of i, information utility value .
- to calculate the weight ;
- to calculate comprehensive reconstruction index:
2.2.2. Interpreting the Mechanism of Rural Transformation
- How to identify rural transformation from the heterogeneity in functional structure. A rural area is an agricultural type of regional space, and its main function is that of agriculture. The agricultural function of a rural areas is recorded as RBF, which is expressed as RBF= RPF1 + RLF1 + REF1. So, the degree of rural transformation (denoted as RTM) is defined as the proportion of non-agricultural rural function to the comprehensive function, such that
- 2.
- How to identify influencing factors from analysis of internal–external correlations. External environmental changes trigger structural alterations to the system through modifications to the rural population, industry, and land uses. Internal structural changes drive alterations to the production, life, and ecological functions through modifications to the rural economy, society, and space. Accordingly, 14 indices representing the four aspects of industrialization, urbanization, globalization, and marketization were selected to characterize external environmental changes. Among them, the attributes of the indices encompass the characteristics of environmental changes, while their connotations point toward possible paths of action. Another 10 indicators representing the three aspects of economic, social, and spatial restructuring were chosen to describe internal structural changes. The attributes of the indices represent the structural relationships, and connotations of the indices reflect their functional connections. The main influencing factors and specific indices of rural transformation are shown in Table 1.
- 3.
- How to interpret the mechanism of action based on multiple structural analysis. Multiple structure analysis is the hierarchical analysis of the indices for rural areas functions. Through the multi-level analysis of rural areas functions, the main influencing factors of rural transformation-and to a large extent, the internal mechanism of rural transformation-could be identified. After standardized processing of the relevant data, the factors and indices of the exogenous drivers and endogenous responses are treated as the explanatory variables, while the indices for rural areas functions are treated as the explained variables. There are three levels of functional indices: the comprehensive, the dimensional (production, life, and ecology), and the itemized (agricultural production, agricultural income, and environmental protection). These are used to construct a multiple linear regression model.
- 4.
- How to examine the overall effects of rural transformation with comparison between rural–urban regional functions. At this stage, it was difficult to systematically obtain related series of street-level data of the case study area. Hence, the value of non-agricultural industrial outputs, urban residents’ incomes, and changes in urban construction land are selected to express the urban production, life, and ecological functions respectively. The indices for the urban production, life, and ecological functions are labeled as UPF, ULF, and UEF; so ⊿UPF, ⊿ULF, and ⊿UEF mean the changes of the urban production, life, and ecological functions, and ⊿RPF, ⊿RLF, and ⊿REF mean the changes of the rural production, life, and ecological functions respectively, in which ⊿ means the result of current value of indices for the classified functions subtracting previous value of indices for the same functions divides previous value of indices for the same types of functions. Such that,
- 5.
- How to evaluate the main effects of rural transformation through the changes in rural agricultural functions. At this stage, the main effects of rural transformation in China are reflected in changes to the agricultural functions of rural areas. Under a country’s plans for its main functional areas, the agricultural production areas constitute a type of geographical space. Changes to the rural agricultural functions of this type of space have implications on national food security and sustainable rural development. Equation (7) is used to evaluate changes to the agricultural functions of rural areas, and the results facilitate the selection of targets and provided information support for the implementation of rural revitalization strategies.
2.2.3. Deconstructing the Path of Rural Revitalization
- How to refine the rural revitalization model. There is a clear normative orientation to rural revitalization, the basic projects of which are zoning and positioning the functions for different zones. With the reference to the relevant research findings, the SOFM analytical tool is used to zone the rural territorial functions [52]. The functional zones are then interconnected to form development zones for rural revitalization. With this as the basis, similarity in zonal functions is used to categorize the types of development for rural revitalization, while the correlation of dominant functions is used to generalize the development models for rural revitalization.
- How to explore the path of rural revitalization. Rural revitalization occurs in a definite and regular direction, and the only way to achieve it is to identify the key elements and optimize the relationships among them. The key elements for rural revitalization should be extracted learning from different regional models for rural revitalization and results from the mechanism of rural transformation. Thus, correlational analysis of the internal elements and impact analysis of the external factors are performed to optimize the rural functional structure and the developmental environment for rural revitalization, respectively.
2.3. Selection of Study Case and Data Description
3. Results
3.1. Temporal Changes of Rural Reconstruction in the Plain
3.2. Spatial Differentiation of Rural Reconstruction in the Plain
3.3. Formatting of Mathematical Components
4. Mechanism of Rural Transformation in Jianghan Plain
4.1. Spatiotemporal Map of Rural Transformation in the Plain
4.2. Driving Mechanism of Rural Transformation in the Plain
4.2.1. Factors Affecting Rural Transformation in the Plain
4.2.2. Action Mechanism of Rural Transformation in the Plain
- 3.
- Internal mechanism of the exogenous drivers’ role in rural transformation
- 4.
- Internal mechanism of the endogenous responses’ role in rural transformation
4.3. Spatial Effects of Rural Transformation in the Plain
4.3.1. Overall Effects of Rural Transformation in the Plain
4.3.2. Main Effects of Rural Transformation in the Plain
5. Path of Rural Revitalization in Jianghan Plain
5.1. Development Direction of Rural Revitalization in the Plain
5.2. Implementation Path of Rural Revitalization in the Plain
6. Discussion
- The driving mechanism for rural transformation was manifested as the coupling between exogenous drivers and endogenous responses. Overall, the standardized regression coefficient between the drivers and the changes to rural areas functions is 0.766, and industrialization and marketization were the top two factors. Specifically, industrialization positively affected the function of agricultural income security (RLF1) through the added value of the secondary industries, whereas negatively affected the function of rural environmental protection (REF1), and positively affected the function of agricultural production (RPF1) through the growth rate (I2) and number of employees (I3) of the secondary industries. Marketization positively affected the functions of rural agricultural production (RPF1) and agricultural income security (RLF1) through the added value of the tertiary industries (M1). Endogenous responses also played an active role in rural transformation. In particular, spatial restructuring negatively affected the functions of agricultural production (RPF1), agricultural income (RLF1), and rural environmental protection (REF1) through geographic heterogeneity (Z3).
- The path for rural revitalization was to promote the optimization of regional functions through the reorganization of rural elements. Implementing the spatial development strategy of “being driven by the central axis and supported by the two flanks” to achieve balanced spatial functions by focused operation, rural revitalization development of the “central axis” (Zone I) was positioned as being led by the non-agricultural function with high-end development direction to drive the extension of the industrial chain on both flanks and improved agricultural quality and efficiency by non-agricultural transformation of agricultural, forestry, and aquatic products.. Rural revitalization development of the “north flank” (Zone II) was positioned as a balance of multiple functions with the direction of diversification to promote the growth of agricultural production and farmers’ income through the combination of agriculture and forestry, and that of agriculture and tourism. Rural revitalization development of the “south flank” (Zone III) was positioned as being led by the agricultural functions with the development direction of scale-up to promote optimization of the rice/aquaculture industries and green production areas/green residences through population and land transfers.
- The main function of rural area is the constraint condition of China’s rural revitalization. Jianghan Plain is an agricultural area in central China and a National agricultural products main producing areas. In the context of China, the sustainable growth of agricultural functions is the basic requirement of rural revitalization in the case area. Long believes that in the process of rural reconstruction, the phenomenon of non-agricultural, non-grain, and abandonment of cultivated land is a reflection of the economic rationality of the main body in market, which is accompanied by the damage to the social security value and ecological service value of cultivated land, affecting the sustainable development in rural areas [34]. Therefore, clarifying the main functions of rural areas is the basic premise of rural revitalization. In addition, previous studies believe that the rural territorial system is composed of humanities, economy, resources and environment connected and interacted with each other. It is a rural spatial system with certain structure, function and inter-regional connection [3]. This paper reinterprets this from the perspective of geography. Namely, the rural territorial system is actually the interaction (human-land relationship) between the rural human activities (including production and living activities) and the geographical environment (including natural, human environment).
- The major function of rural areas is the constraint of rural revitalization in China. From 2000 to 2016, it was found that the agricultural function of Jianghan Plain has increased slowly, while the agricultural status of the region in China has declined rapidly. As one of the major agricultural production areas of China, the sustainability of agricultural function must be taken into account with the implementation of rural revitalization policies in Jianghan Plain. Long et al. believe that the decline of agricultural functions not only affects the realization of the major function of rural territory, but also affects its ecological functions and sustainable development, thus fundamentally restricting the realization of the rural revitalization strategy [56]. Therefore, clarifying the major function of rural territory is the basic premise of rural revitalization. Rural reconstruction in the Jianghan Plain is shifting from economic-social reconstruction to balanced economic-social reconstruction, and existing studies in other regions of China have also reached similar conclusions. For example, Tu et al. found that the average intensity of rural economic, social and spatial reconstruction in Guangxi Province gradually increased from 2000 to 2015 [41]. Industrialization and marketization are the leading exogenous factors driving rural transformation in the Jianghan Plain, and it has been found that industrialization and urbanization are more important forces driving the continuous change and reorganization of rural development elements, which can be seen in the marginal areas of the metropolis [57].
- The findings of this study need to be considered in view of the limitations associated with it. Rural reconstruction-transformation-revitalization is a complex and dynamic process. From the perspective of geography, we tried to analyze the characteristics of rural reconstruction, interpret the mechanism of rural transformation, and clarify rural revitalization. However, the limitation of available data makes us consider little the influence of human factors such as institutions, policies, culture, customs, etc. Further improvement on the availability of human factors data, and elaboration on the process of rural reconstruction, transformation and revitalization from microscale are the focus of follow-up research. All in all, China has a vast territory with various rural territorial types. Further, different types of rural areas should be strengthened in order to enrich the knowledge of rural geography.
7. Conclusions
- The functional change of rural areas is an important perspective for geography to intervene in rural revitalization. In the new era, China’s rural revitalization has rich connotations. Geography can provide unique insights for that, and it is an inevitable requirement to condense the scientific problems from geography. The functional change in rural area is the result of the reorganization of elements in rural regional system and their structural changes. Accordingly, the functional changes of rural territorial system is the reasons of rural reorganization, and rural transformation is the presence of the functional changes of rural territorial system [4,6,7,8,9,10,60], and rural revitalization can be regarded as an important sign reflecting functional optimization in rural areas. However, the structure of the rural territorial system is represented by the interactions (human–land relationship) between rural human activities (including production and life activities) and the geographical environment (including natural and human environments). Integrating the three parts of rural reconstruction-transformation-revitalization into the functional changes of rural territorial system shows great significance in geography, which is an effective way to return to the geographical tradition and explore the combination of rural geographical theory and rural revitalization practice.
- There are heavy responsibilities to bear and a long struggle ahead for geographical research of rural reconstruction-transformation-revitalization in China. The spatiotemporal background for rural reconstruction/transformation in contemporary China is completely different from that of the Western world, and the connotations of the two backgrounds are not exactly similar. The common features of the two are manifested in the reconstruction of rural elements and transformation of regional functions resulting from transfers in population, land and capital. However, rural reconstruction/transformation in contemporary China originated from the process of rapid industrialization and urbanization. The main mechanism was the exogenous drivers stimulating responsive changes to the rural internal factors. This was manifested in the activation of the “stock” of rural factors, leading to rural reconstruction/transformation and, subsequently, rural decline [42,43,60,61]. Rural reconstruction/transformation in the Western world started with post-industrialization and counter-urbanization as the background. Its main mechanism was the driving actions of external entities, capital and culture, which was manifested in the “incremental” embeddedness of urban elements. This led to rural reconstruction/transformation, which gave impetus to rural revival [12,13,14,15]. The practical experiences and theoretical cognition of rural reconstruction/transformation in the Western world are neither standard templates nor of universal significance. China is a large developing country with a large total and rural population. Its agricultural production functions are unique, so rural development is of great significance. Its diversified practices in rural development provide rich inputs for rural geographic research. The specific national conditions of contemporary China should serve as the foundation for Chinese rural geographers, even as they absorb research inputs from the Western world. Their task is then to propose innovative theories on rural reconstruction-transformation-revitalization with Chinese characteristics that should be taken as the path that rural geographic research in China should follow.
- The findings have significant value for policy advice and practical guidance. The main mechanism of rural reconstruction in the case area at the current stage is from external factors such as industrialization, and the main feature is the change of internal factors such as rural population. The transformation of rural areas is mainly manifested as the rapid decline of agricultural functions, promoting the optimization of regional functions through the reorganization of rural elements, which is an important path for rural revitalization. Accordingly, there are important references to direct rural revitalization such as strictly abiding by the red line of basic farmland, ensuring agricultural production through moderate operations, increasing farmers’ income by extending the industrial chain, and protecting the rural environment through green production and lifestyle. Besides the research framework can be extended to other regions. For example, about China’s eastern urbanized areas and the urban and suburban areas of the China’s central and western regions, rural revitalization needs to focus on the changes in rural non-agricultural functions; about ecological function areas in the west of China, rural revitalization need to focus on changes in rural ecological functions.
Author Contributions
Funding
Institutional Review Board Statement
Data Availability Statement
Conflicts of Interest
References
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Factors | Indices | Interpretations | |
---|---|---|---|
Exogenous drivers | Size of the urban population (U1) | ||
Urbanization | Growth rate of the urban population (U2) | U2 = (U1 in current year−U1 in last year)/U1 in last year | |
Size of urban construction land (U3) | U4 = (U3 in current year−U3 in last year)/U3 in last year | ||
Growth rate of urban construction land (U4) | |||
Industrialization | Added value of secondary Industries (I1) | I2 = (I1 in current year−I1 in last year)/I1 in last year | |
Growth rate of secondary Industries (I2) | |||
Secondary industry practitioners (I3) | I4 = (I3 in current year−I3 in last year)/I3 in last year | ||
Growth rate of secondary industry practitioners (I4) | |||
Globalization | Total export-import volume (G1) | G2 = (G1 in current year−G1 in last year)/G1 in last year | |
Growth rate of export-import volume(G2) | |||
Disbursement of foreign capital (G3) | G4 = (G3 in current year−G3 in last year)/G3 in last year | ||
Growth rate of disbursement of foreign capital (G4) | |||
Marketization | Added value of the tertiary industries (M1) | M2 = (M1 in current year−M1 in last year)/M1 in last year | |
Growth rate of tertiary Industries (M2) | M4 = (M3 in current year−M3 in last year)/M3 in last year | ||
Tertiary industry practitioners (M3) | |||
Growth rate of tertiary industry practitioners (M4) | |||
Endogenous responses | Economic restructuring (RX) | Ratio of gross value of agricultural production (X1) | X1 = Gross value of agricultural production/Gross Domestic Product of county |
Ratio of agricultural land (X2) | X2 = Area agricultural land/the total territory of county | ||
The proportion of agricultural labor (X3) | X3 = Number of agricultural labor/Number of labor in county | ||
Ratio of agricultural input (X4) | X4 = Agricultural fixed assets investment/Total fixed assets investments | ||
Social restructuring (RY) | The proportion of rural population (Y1) | Y1 = Rural population/County population | |
The proportion of rural elites (Y2) | Y2 = Number of rural elites/Agricultural labor | ||
The proportion of agricultural income (Y3) | Y3 = Agricultural income/Household income | ||
Spatial restructuring (RZ) | Degree of spatial concentration (Z1) | Z1 = (Population concentration + Economic concentration)/2 | |
Network accessibility (Z2) | Z2 = (Exterior accessibility + Interior connectivity)/2 | ||
Geographical heterogeneity (Z3) | Z3 = Urban and rural construction land/the total territory of county |
RRC | RX | RY | RZ | ||||
---|---|---|---|---|---|---|---|
Year | Index | Index | Proportion | Index | Proportion | Index | Proportion |
2000 | 0.1 | 0.04 | 40% | 0.05 | 50% | 0.01 | 10% |
2001 | 0.12 | 0.05 | 42% | 0.05 | 42% | 0.02 | 18% |
2002 | 0.21 | 0.09 | 43% | 0.08 | 38% | 0.04 | 19% |
2003 | 0.31 | 0.14 | 45% | 0.11 | 35% | 0.06 | 20% |
2004 | 0.34 | 0.14 | 41% | 0.14 | 41% | 0.06 | 18% |
2005 | 0.37 | 0.16 | 43% | 0.15 | 40% | 0.06 | 17% |
2006 | 0.4 | 0.17 | 43% | 0.13 | 32% | 0.1 | 25% |
2007 | 0.44 | 0.19 | 43% | 0.15 | 34% | 0.1 | 23% |
2008 | 0.45 | 0.2 | 44% | 0.15 | 33% | 0.1 | 23% |
2009 | 0.49 | 0.23 | 47% | 0.15 | 31% | 0.11 | 22% |
2010 | 0.56 | 0.26 | 46% | 0.16 | 29% | 0.14 | 25% |
2011 | 0.59 | 0.26 | 44% | 0.17 | 29% | 0.16 | 27% |
2012 | 0.6 | 0.26 | 43% | 0.16 | 27% | 0.18 | 30% |
2013 | 0.66 | 0.26 | 39% | 0.3 | 29% | 0.2 | 31% |
2014 | 0.71 | 0.26 | 37% | 0.22 | 31% | 0.23 | 32% |
2015 | 0.75 | 0.26 | 35% | 0.22 | 30% | 0.27 | 35% |
2016 | 0.79 | 0.28 | 35% | 0.23 | 30% | 0.28 | 35% |
Explained Variables | Explanatory Variables | Unstandardized Coefficients | Standardized Coefficients | t | |
---|---|---|---|---|---|
B | Standard Error | ||||
RCF | (Constant) | −1.651 | 0.158 | - | −10.425 |
W | 9.878 | 0.459 | 0.766 | 21.509 *** | |
N | 1.574 | 0.379 | −0.148 | 4.147 *** | |
RCF | (Constant) | −2.514 | 0.202 | - | −12.453 |
I | 11.283 | 0.968 | 0.426 | 11.651 *** | |
U | 3.937 | 1.187 | 0.111 | 3.318 *** | |
M | 11.580 | 1.445 | 0.324 | 8.016 *** | |
X | 2.637 | 0.813 | 0.120 | 3.244 *** | |
Y | 7.550 | 1.335 | 0.206 | 5.656 *** | |
Z | −3.775 | 1.153 | −0.130 | −3.273 *** |
Explained Variables | Explanatory Variables | Unstandardized Coefficients | Standardized Coefficients | t | |
---|---|---|---|---|---|
B | Standard Error | ||||
RPF1 | (Constant) | 0.178 | 0.012 | 15.474 | |
I3 | 0.002 | 0.000 | 0.239 | 8.010 *** | |
M1 | 6.389 × 10−8 | 0.000 | 0.249 | 5.934 *** | |
Z3 | −4.469 | 0.257 | −0.525 | −17.372 *** | |
U1 | 0.002 | 0.000 | 0.443 | 13.960 *** | |
I2 | 2.944 × 10−8 | 0.000 | 0.278 | 6.393 *** | |
Y3 | −0.097 | 0.019 | −0.128 | −5.136 *** | |
Y2 | 0.113 | 0.028 | 0.105 | 3.981 *** | |
U2 | −0.053 | 0.017 | −0.066 | −3.085 *** | |
RLF1 | (Constant) | 0.079 | 0.028 | 2.848 | |
M1 | 1.162×10−7 | 0.000 | 0.320 | 5.370 *** | |
I3 | 0.002 | 0.001 | 0.168 | 3.923 *** | |
Y3 | 0.244 | 0.038 | 0.229 | 6.432 *** | |
Y2 | 0.535 | 0.056 | 0.352 | 9.495 *** | |
U1 | 0.003 | 0.000 | 0.435 | 9.721 *** | |
Z3 | −2.882 | 0.545 | −0.240 | −5.285 *** | |
X3 | −0.156 | 0.036 | −0.190 | −4.329 *** | |
I1 | 3.059 × 10−8 | 0.000 | 0.205 | 3.374 *** | |
REF1 | (Constant) | 0.003 | 0.000 | 7.535 | |
X3 | 0.005 | 0.000 | 0.544 | 10.522 *** | |
U1 | 3.009 × 10−5 | 0.000 | 0.482 | 9.493 *** | |
Z3 | −0.091 | 0.007 | −0.714 | −13.805 *** | |
Y1 | −0.004 | 0.001 | −0.471 | −7.687 *** | |
I1 | −2.366 × 10−10 | 0.000 | −0.150 | −2.800 *** | |
U2 | −0.001 | 0.000 | −0.098 | −2.824 *** | |
I3 | −1.636 × 10−5 | 0.000 | −0.106 | −2.131 ** |
Production Function | Life Function | Ecological Function | |||||||
UPF | RPF | Gap | ULF | RLF | Gap | UEF | REF | Gap | |
2000 | 422.17 | 243.86 | 178.31 | 267.57 | 93.45 | 174.12 | 38.50 | 134.29 | −95.79 |
2005 | 645.09 | 380.30 | 264.79 | 418.86 | 128.99 | 289.87 | 34.66 | 121.91 | −87.25 |
2010 | 1703.38 | 727.86 | 975.52 | 741.90 | 197.26 | 544.65 | 24.83 | 89.06 | −64.23 |
2016 | 3064.43 | 1345.69 | 1718.74 | 1676.49 | 368.16 | 1308.33 | 15.63 | 58.23 | −42.59 |
Production Function | Life Function | Ecological Function | |||||||
⊿UPF | ⊿RPF | Gap | ⊿ULF | ⊿RLF | Gap | ⊿UEF | ⊿REF | Gap | |
2000 | 11.09 | 8.50 | 2.59 | 0.31 | 0.29 | 0.03 | −2.64 | −1.95 | −0.42 |
2005 | 13.15 | 10.34 | 2.81 | 7.21 | 5.85 | 1.37 | −1.15 | −1.84 | 0.69 |
2010 | 21.59 | 15.07 | 6.52 | 13.09 | 7.73 | 5.36 | −5.61 | −5.91 | 0.30 |
2016 | 9.17 | 8.00 | 1.17 | 9.41 | 3.59 | 5.81 | −7.71 | −6.80 | −0.92 |
Zone I | Zone II | Zone III |
---|---|---|
Geographical scope | ||
Extends westward from the edge of Wuhan to the Zhijiang Municipal District along the Wuhan–Yichang Railway; has seven counties, including Hanchuan. | Located to the north of Zone I, the rows are distributed within the ribbon-shaped area in an east–west alignment; has seven counties, including Jingshan. | Distributed in strips along both banks of the Yangtze River; has six counties including Jiangling. |
Transformation characteristics | ||
High-level transformation zone; significant advantages in non-agricultural functions | Rapid transformation zone; good foundation for multi-functional development | Low-level transformation zone; agricultural functions are prominent |
Development direction | ||
Led by non-agricultural functions: High-end | Balance of multiple functions: Diversification | Led by agricultural function: Scaling up |
Implementation foci | ||
i. High-end: Optimize industrial layout; strengthen technological innovation; promote rural revitalization with extension of industrial chain and non-agricultural transformation of agricultural products ii. Urbanization: Optimize rural–urban layout; strengthen system innovation; create conditions for rural areas revitalization through economic agglomeration and absorption of population iii. Agriculturalization: Hold fast to land marked for cultivation; demonstrate operation by scale; realize the main regional functions through the support of stable agricultural production | i. Diversification: Highlight the foundation of agriculture; hold fast to pan-agricultural developments; expand agricultural functions and increase agricultural benefits through integration of tertiary industries ii. Characterization: Uncover characteristic resources; create characteristic industries; promote rural revitalization through the development of the “two valleys” (for agriculture and shrimps) iii. Ecologicalization: Tie in with the development of the Han River ecological–economic belt; strengthen pollution control and environmental remediation to build beautiful and livable rural areas | i. Scaling up: Accelerate population and land transfers to expand the scale of industrial operations for rice/aquatic products, and enhance the function of agricultural production ii. Branding: Introduce leading enterprises and focus on brand building to improve agricultural quality and efficiency, and enhance the function of agricultural income iii. Greening: Strengthen pollution control and prevention and control of water hazards to build optimized rural living environment with green production areas/green residences |
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Wang, M.; Yu, B.; Zhuo, R.; Li, Z. A Geographic Analysis on Rural Reconstruction-Transformation-Revitalization: A Case Study of Jianghan Plain in China. Land 2022, 11, 616. https://doi.org/10.3390/land11050616
Wang M, Yu B, Zhuo R, Li Z. A Geographic Analysis on Rural Reconstruction-Transformation-Revitalization: A Case Study of Jianghan Plain in China. Land. 2022; 11(5):616. https://doi.org/10.3390/land11050616
Chicago/Turabian StyleWang, Mingjie, Bin Yu, Rongrong Zhuo, and Zhuofan Li. 2022. "A Geographic Analysis on Rural Reconstruction-Transformation-Revitalization: A Case Study of Jianghan Plain in China" Land 11, no. 5: 616. https://doi.org/10.3390/land11050616
APA StyleWang, M., Yu, B., Zhuo, R., & Li, Z. (2022). A Geographic Analysis on Rural Reconstruction-Transformation-Revitalization: A Case Study of Jianghan Plain in China. Land, 11(5), 616. https://doi.org/10.3390/land11050616