The Effect of Transportation Networks on Heritage Tourism and New Urbanization—Empirical Research Based on Rich Heritage Sites in a Chinese Province
Abstract
:1. Introduction
2. Literature Review and Theoretical Framework
2.1. The “Driving Effect” of Heritage Tourism on New Urbanization Is the Demand for New Urbanization [3]
2.2. The “Pulling Effect” of New Urbanization on Heritage Tourism Is the Supply–Help Relationship of Heritage Tourism [9,10]
2.3. The Coupling and Coordination Mechanism of Transportation Network and Regional Tourism, as Well as the Development of Tourism, Is the First Driving Effect [16]
2.4. The Long-Term Equilibrium Relationship between Transportation Networking and New Urbanization [21] and Its Obvious Regional Differences [22,23,24]
3. Research Design and Data Description
3.1. Interpretation of Core Variables
3.1.1. New Urbanization
3.1.2. Heritage Tourism
3.1.3. Transportation Network
3.2. Control Variables
3.3. Data Collection and Indexing of Core Variables
4. Empirical Results Analysis
4.1. The Stationarity Test of Sample Data
4.1.1. Panel Unit Root Test
4.1.2. Panel Cointegration Test
4.2. Panel Error Correction Model
4.3. Test Results for the Long-Term and Short-Term Relationships between Heritage Tourism and New Urbanization
- (1)
- Whether in the longterm or shortterm, the impact of new urbanization on heritage tourism is highly significant; however, it shows different contribution elasticities. In the short term, the contribution elasticity (0.210) of new urbanization to heritage tourism is less than half of its long-term contribution elasticity (0.445). In the long run, as high-quality heritage tourism resources receive recognition from UNESCO and national ministries, and as the number of world cultural heritage sites continues to increase, the contribution elasticity of new urbanization to heritage tourism also grows. For every increase of one standard deviation in heritage tourism, new urbanization’s contribution rises by 0.445%.
- (2)
- In the short term, the impact of heritage tourism on new urbanization has not shown significant changes, but in the long term, heritage tourism has had a positive promoting effect on new urbanization. The t-test value for the short-term impact of heritage tourism on new urbanization did not pass the significance test (θ1 = 0.029, t = 0.29), whereas, in the long term, it was significant at the 99% confidence level (m = 0.198 ***, t = 3.33).
- (3)
- In the long-term, the contribution of new urbanization to heritage tourism by far surpasses the contribution of heritage tourism to new urbanization. New urbanization significantly stimulates heritage tourism. For every 1% increase in heritage tourism, the growth rate of new urbanization will rise by 0.198%, whereas for each 1% increase in the growth rate of new urbanization, heritage tourism will increase by 0.445%. This implies that a higher level of new urbanization can greatly enhance the positive impact on the growth of local heritage tourism. This conclusion further corroborates arguments indicating that in both the long and short term, new urbanization plays a crucial role in driving heritage tourism. From this conclusion, practical policies can be derived, emphasizing the necessity of sustained efforts to strengthen the input of elements in new urbanization, enhance the demand and supply system of urban areas, establish a well-functioning tourism support system, and combine it with the advantages of local heritage resources. Only by doing so can new urban areas with distinctive cultural features be formed, ensuring that culture and tourism-oriented towns possess sustainable vitality and distinctive local IP culture characteristics.
- (4)
- From the perspective of the reverse correction speed, which reflects short-term fluctuations while returning to the long-term equilibrium, heritage tourism shows a faster response compared to the level of new urbanization. The significant negative coefficients for Δhtour and Δurb indicate the existence of a reverse error correction mechanism between heritage tourism and new urbanization. When heritage tourism experiences a short-term fluctuation of one standard deviation, the economy of new urbanization can recover by 0.287% toward its original level. On the other hand, when the economy of new urbanization undergoes a short-term fluctuation of one standard deviation in the opposite direction, heritage tourism can see a 0.502% return toward its original level. This recovery rate for heritage tourism is nearly twice as fast as that of new urbanization, highlighting the multiplier effect advantage of heritage tourism on the national economy and its role in accelerating the promotion of new urbanization. This conclusion further explains and supports the notion that heritage tourism may not contribute significantly to new urbanization in the short term, but it has a highly significant and elastic contribution in the long term. Therefore, regions rich in cultural heritage resources should not disregard the actual level of local economic development. Also, it is not recommended to hastily construct historical-themed towns with the hope of boosting the local economy through tourism in the short term. Such efforts may have counterproductive results and hinder the healthy development of urban economies. Instead, local governments should focus on vigorously promoting the development of new urbanization economies and establishing a sound tourism infrastructure, which will further foster the prosperity of heritage tourism in the region.
4.4. Regulatory Effect Regression Model
4.5. Model Estimation Methods
4.6. Handling Endogeneity
5. Dynamic Regulatory Mechanism of Transportation Network Effect on Urbanization of Heritage Tourism Destinations
5.1. Dynamic Regulation Path of Transportation Network
5.2. The Realistic Logic of Low-Density Moderate Development in Heritage Tourism Destinations
6. Conclusions and Discussion
6.1. Research Findings and Theoretical Contributions
6.2. Managerial Implications
- (1)
- Heritage tourism destinations should actively promote the high-quality development of new urbanization, enhance the function of heritage tourism as an optimized allocation of urban resources, improve tourism infrastructure, and create new urban areas with rich local cultural characteristics. The healthy development of new urbanization is a long-term and gradual process that requires the continuous improvement of urban–rural social structures, infrastructure, and resource-environment-carrying systems to provide a comprehensive supply for the orderly and moderate development of heritage tourism [46]. The transportation networks in heritage tourism destinations should promote a reasonable spatial layout of new urbanization to ensure the long-term vitality of the tourism industry [40,47].
- (2)
- Efforts should be made to strengthen the intelligence and intensification of the transportation network system. Connecting towns and heritage tourism destinations plays a vital role in regulating the accessibility, convenience, smoothness, and limited capacity of heritage tourism destinations [48]. Comprehensively developing smart and intensive transportation using top-level system design can improve the spatial structure of new urbanization in heritage tourism destinations [49,50]. On the one hand, it should connect seamlessly with the urban transportation network, and on the other hand, it should be integrated with heritage tourism destination protection projects.
- (3)
- Moderately control should be employed in the development speed of transportation networks between new urbanization and heritage tourism destinations. The western regions have significant ecological and cultural fragility with a limited environmental carrying capacity. The only way to realize urbanization is to moderate development. Generally speaking, in the process of new urbanization, also according to the conservation management plan, the development speed of transportation in heritage tourism destinations should be slower than that in central urban areas. It is essential to integrate the transportation of heritage tourism destinations into the overall planning of new urbanization and cultural heritage protection [17,51,52]. The approach will effectively reconcile the contradiction between the low-density moderate development of heritage tourism destinations and the rapid expansion of new urbanization.
6.3. Limitations and Issues for Further Discussion
Author Contributions
Funding
Data Availability Statement
Conflicts of Interest
1 | “Tourism Review about May Day Holiday in 2019”, Qingmuchuan Ancient Town Scenic Area, https://www.qmcgz.com/news/gzdt/370.html (accessed on 7 May 2019). |
2 | In 2015, many cities have broadened their restrictions on urban settlements. Xi’an Railway Port has become the largest railway logistics distribution center in Asia. The green coverage rate of urban built-up areas has reached 40.8%. Sponge cities and garden cities have become development goals. |
3 | The data and information are sourced from the Institute of Architectural History at the China Architecture Design & Research Group and other related institutions. The specific document is titled “Detailed Planning of the Weiyang Palace Area in the Han Chang’an City Archaeological Site Park (2012–2020),” dated October 2012. |
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Core Variables | Variable Name | Variable Definition | |
---|---|---|---|
New Urbanization | Economic Development Level | Share of secondary industry | Output value of secondary industry/GDP |
Share of tertiary sector | Output value of tertiary industry/GDP | ||
Investment structure | Investment in fixed assets in urban areas/investment in fixed assets in the whole society | ||
Population Development Level | Rate of population increase | (Total population of the current period − total population of the previous period)/total population of the previous period | |
Rate of urbanization | Urban population/total population | ||
Share of persons employed in the secondary sector | Number of persons employed in the secondary sector/total number of persons employed in society | ||
Share of persons employed in the tertiary sector | Number of persons employed in the tertiary sector/total number of persons employed in society | ||
Social Development Level | Urban road area per capita | Total area of road land in town/population of town | |
Water penetration rate | Number of people using water in towns/population of town | ||
Gas penetration rate | Number of urban gas users/total urban population | ||
Environmental Governance Level | Disposal rate of domestic waste | Amount of domestic garbage treated/total amount of total domestic garbage | |
Sewage treatment rate | Amount of sewage treated/total amount of total sewage | ||
Green space per capita in parks | Green space of urban parks/total population of cities and towns | ||
Greening rate of built-up area | Green coverage area of built-up area/built-up area | ||
Heritage Tourism | Heritage Development Degree | Development rate of cultural and scenic spots | Number of developed heritage scenic spots/total number of heritage sites |
Visit rate of museum visitors | Number of museum visitors/number of tourists | ||
Abundance of cultural relics’ scenic spots | Total cultural relics’ scenic spots/total cultural relics’ scenic spots in the province | ||
Share rate of cultural relics’ scenic spots | Total number of cultural relics’ scenic spots/total number of tourist scenic spots | ||
Heritage Tourism Grade | Occupancy rate of cultural relics’ scenic sports at different levels | The product sum of the total number of cultural relics’ scenic spots at different levels and the weight of scenic spots at corresponding levels, divided by the total number of cultural relics’ scenic spots in the province | |
Abundance of cultural relics’ scenic spots at different levels | The product sum of the total number of cultural relics’ scenic spots at different levels and the weight of scenic spots at corresponding levels divided by the product sum of the total number of cultural relics’ scenic spots at different levels and the weight of scenic spots at corresponding levels in the province | ||
Heritage Protection Degree | Protection strength of cultural relics’ scenic spots | The product of the total number of protected cultural scenic spots at different levels and the weight of cultural protection units at corresponding levels, divided by the total number of cultural relic sites | |
Protection strength of high-level cultural protection units | The product sum of the total number of provincial, national, and world-class cultural protection units and the weight of corresponding cultural protection units divided by the product sum of the total number of cultural protection units at different levels and the weights of corresponding cultural protection units | ||
Average number of cultural protection units owned by heritage sites | Total number of cultural protection units/number of cultural heritage sites | ||
Average floor area of exhibition rooms | Floor area of exhibition rooms/total number of museums | ||
Heritage Distribution Density | Average number of heritage sites | Total number of cultural relics sites/area | |
Average area of cultural relics sites | Area of cultural relics sites/area |
Variable Name | Critical Value of Traffic Node | ||
---|---|---|---|
Traffic Density | x ≤ 50 | 0.5 | |
50 < x ≤ 75 | 1 | ||
75 < x ≤ 100 | 1.5 | ||
100 < x ≤ 125 | 2 | ||
x > 125 | 2.5 | ||
Traffic Convenience | Center City Convenience | It is a provincial capital city | 2 |
Distance to provincial capital city < 120 km (1 h economic circle) | 1.5 | ||
120–240 km from provincial capital city | 1 | ||
Distance to provincial capital city > 240 km (2 h economic circle) | 0 | ||
Highway Convenience | Distance to the nearest high-speed entrance and exit < 10 km | 2 | |
10–30 km from the nearest high-speed entrance and exit | 1 | ||
30–60 km from the nearest high-speed entrance and exit | 0.5 | ||
Distance to the nearest high-speed entrance and exit > 60 km | 0 | ||
With lines and stations | |||
Railway Convenience | Distance to the nearest station < 30 km | 2/m | |
30–60 km from the nearest station | 1.5/m | ||
Distance to the nearest station > 60 km | 0 | ||
Airport route Convenience | With mainline airports | 2.5 | |
With regional airports | 2 | ||
airfield-free | 0 | ||
Traffic Service Development Level | Amount of passenger traffic | —— | |
Volume of freight | —— | ||
Ownership of passenger cars operated by highway departments | —— | ||
Ownership of trucks operated by highway departments | —— | ||
Urban bus operation volume | —— | ||
Urban taxi operation volume | —— |
Variable Name | Variable Code | Variable Definition |
---|---|---|
Degree of opening to the outside world | open | Total import and export value/GDP |
Research and development intensity | R&D | Research expenditure/GDP |
Government intervention | government | Fiscal expenditure/GDP |
Industrialization rate | industry | Gross industrial output value/total employment |
Variable | LLC Test | Fisher-ADF Test | Stable or Not | ||
---|---|---|---|---|---|
Statistical Value | p. | Statistical Value | p. | ||
htour (heritage tourism) | −8.78443 | <0.0001 | 48.347 | 0.0004 | Stable |
urb (new urbanization) | −5.70156 | <0.0001 | 36.5581 | 0.0132 | Stable |
Inspection Method | Statistical Value | Statistical Value | p. | Existence of Cointegration Relationship |
---|---|---|---|---|
Pedronic test | Panel ADF | −2.250424 | 0.0153 | Yes |
Group ADF | −1.814099 | 0.0348 | Yes | |
Kao test | ADF | −2.131131 | 0.0165 | Yes |
Parameters | Explanatory Variable | DFE Estimation | |
---|---|---|---|
Coefficient | t | ||
Long-term impacts m, n | htour | 0.198 *** | 3.33 |
urb | 0.445 *** | 9.55 | |
Short-term impacts | Δhtour | 0.029 | 0.29 |
Δurb | 0.210 *** | 2.73 | |
Adjustment coefficients | htour→urb | −0.287 *** | −5.95 |
urb→htour | −0.502 *** | −6.45 | |
Intercept terms | htour→urb | 0.002 *** | 6.39 |
urb→htour | 0.002 *** | 6.684 |
Model | Fixed Effects | Single Introduction of the First Instrumental Variable | Single Introduction of the Second Instrumental Variable | Simultaneous Introduction of Both Instrumental Variables | ||||
---|---|---|---|---|---|---|---|---|
M1 | M2 | M3 | M4 | M5 | M6 | M7 | M8 | |
htour | 0.0111 *** (0.00274) | 0.0261 *** (0.0060) | 0.0088 *** (0.0027) | 0.0206 *** (0.0067) | 0.0089 ** (0.0038) | 0.0171 ** (0.0077) | 0.0088 *** (0.0027) | 0.0195 *** (0.0066) |
Trans | 0.2780 *** (0.0841) | 0.7610 *** (0.2080) | 0.0994 ** (0.0391) | 0.7780 *** (0.2470) | 0.0983 ** (0.0472) | 0.6710 ** (0.2840) | 0.0992 *** (0.0379) | 0.7430 *** (0.2480) |
htour×trans | −2.147 ** (0.821) | −2.7620 ** (1.0770) | −2.2500 * (1.2450) | −2.5930 ** (1.0740) | ||||
open | 1.26 × 10−5 (8.82 × 10−6) | 1.43 × 10−3 (8.28 × 10−6) | 1.10 × 10−6 (4.50 × 10−6) | −2.51 × 10−7 (3.62 × 10−6) | 1.13 × 10−6 (4.93 × 10−6) | −4.43 × 10−7 (3.80 × 10−6) | 1.11 × 10−6 (4.56 × 10−6) | −3.14 × 10−7 (3.67 × 10−6) |
R&D | −0.1651 * (0.0910) | −0.1270 (0.0904) | 0.0011 (0.0567) | 0.1110 * (0.0586) | 0.0009 (0.0600) | 0.0934 * (0.0545) | 0.00109 (0.0572) | 0.1050 * (0.0559) |
government | 0.0054 *** (0.00116) | 0.0050 *** (0.00111) | 0.0038 *** (0.0012) | 0.00284 *** (0.000870) | 0.0038 *** (0.0012) | 0.0028 *** (0.0008) | 0.0038 *** (0.0012) | 0.0028 *** (0.0009) |
industry | 1.89 × 10−8 *** (6.36 × 10−9) | 1.64 × 10−8 ** (6.30 × 10−9) | 9.86 × 10−9 * (5.32 × 10−9) | 1.78 × 10−8 *** (4.41 × 10−9) | 9.75 × 10−9 (6.84 × 10−9) | 1.83 × 10−8 *** (4.47 × 10−9) | 9.84 × 10−9 * (5.40 × 10−9) | 1.80 × 10−8 *** (4.41 × 10−9) |
cons | 0.0023 *** (0.0008) | −0.0011 (0.0014) | 0.0047 *** (0.0005) | 0.0010 (0.0016) | 0.0046 *** (0.0005) | 0.2446 ** (0.0901) | 0.0046 *** (0.0004) | 0.0012 (0.0016) |
R2 | 0.644 | 0.754 | ||||||
Hausman test | 10.00 * [0.0751] | 11.78 * [0.0671] | ||||||
First-stage F-statistic | 34.1324 | 67.4653 | 16.0413 | 36.0756 | 20.7185 | 69.9878 | ||
Second-stage R2 | 0.4098 | 0.4799 | 0.4081 | 0.4866 | 0.4095 | 0.4825 | ||
Kleibergen–Paap rk LM statistic | 27.870 [<0.0001] | 24.047 [<0.0001] | 13.263 [0.0003] | 40.443 [<0.0001] | 27.957 [<0.0001] | 40.594 [<0.0001] | ||
Cragg–Donald Wald F-statistic | 35.760 | 118.241 | 14.676 | 61.681 | 19.032 | 82.796 | ||
Hansen-overid statistic | 0.0008 [0.9769] | 0.4209 [0.5165] |
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Yu, J.; Safarov, B.; Wang, C.; Buzrukova, M.; Janzakov, B. The Effect of Transportation Networks on Heritage Tourism and New Urbanization—Empirical Research Based on Rich Heritage Sites in a Chinese Province. Heritage 2023, 6, 7293-7315. https://doi.org/10.3390/heritage6120383
Yu J, Safarov B, Wang C, Buzrukova M, Janzakov B. The Effect of Transportation Networks on Heritage Tourism and New Urbanization—Empirical Research Based on Rich Heritage Sites in a Chinese Province. Heritage. 2023; 6(12):7293-7315. https://doi.org/10.3390/heritage6120383
Chicago/Turabian StyleYu, Jie, Bahodirhon Safarov, Changming Wang, Makhina Buzrukova, and Bekzot Janzakov. 2023. "The Effect of Transportation Networks on Heritage Tourism and New Urbanization—Empirical Research Based on Rich Heritage Sites in a Chinese Province" Heritage 6, no. 12: 7293-7315. https://doi.org/10.3390/heritage6120383
APA StyleYu, J., Safarov, B., Wang, C., Buzrukova, M., & Janzakov, B. (2023). The Effect of Transportation Networks on Heritage Tourism and New Urbanization—Empirical Research Based on Rich Heritage Sites in a Chinese Province. Heritage, 6(12), 7293-7315. https://doi.org/10.3390/heritage6120383