Asymmetric effects of Eco-innovation and Human Capital development in realizing Environmental Sustainability in China: Evidence from Quantile ARDL framework

Adom, P. K. (2015). Asymmetric impacts of the determinants of energy intensity in Nigeria. Energy Economics, 49, 570-580.

Ahmad, M., Khan, Z., Rahman, Z. U., Khattak, S. I., & Khan, Z. U. (2021). Can innovation shocks determine CO2 emissions (CO2e) in the OECD economies? A new perspective. Economics of Innovation and New Technology, 30(1), 89-109.

Ahmed, Z., & Wang, Z. (2019). Investigating the impact of human capital on the ecological footprint in India: an empirical analysis. Environmental Science and Pollution Research, 26(26), 26782-26796.

Alam, M. S., Atif, M., Chien-Chi, C., & Soytaş, U. (2019). Does corporate R&D investment affect firm environmental performance? Evidence from G-6 countries. Energy Economics, 78, 401-411.

Ali, S., Dogan, E., Chen, F., & Khan, Z. (2021). International trade and environmental performance in top ten‐emitters countries: The role of eco‐innovation and renewable energy consumption. Sustainable Development, 29(2), 378-387.

Alkhathlan, K., & Javid, M. (2013). Energy consumption, carbon emissions and economic growth in Saudi Arabia: An aggregate and disaggregate analysis. Energy Policy, 62, 1525-1532.

Armstrong, M. (2016). Armstrong's handbook of management and leadership for HR: Developing effective people skills for better leadership and management.

Au, A. K. M., Altman, Y., & Roussel, J. (2008). Employee training needs and perceived value of training in the Pearl River Delta of China. Journal of European Industrial Training, 32, 19-31.

Aziz, N., Mihardjo, L. W., Sharif, A., & Jermsittiparsert, K. (2020). The role of tourism and renewable energy in testing the environmental Kuznets curve in the BRICS countries: fresh evidence from methods of moments quantile regression. Environmental Science and Pollution Research, 27(31), 39427-39441.

Aziz, N., Sharif, A., Raza, A., & Rong, K. (2020). Revisiting the role of forestry, agriculture, and renewable energy in testing environment Kuznets curve in Pakistan: evidence from Quantile ARDL approach. Environmental Science and Pollution Research, 27(9), 10115-10128.

Bano, S., Zhao, Y., Ahmad, A., Wang, S., & Liu, Y. (2018). Identifying the impacts of human capital on carbon emissions in Pakistan. Journal of Cleaner Production, 183, 1082-1092.

Bastola, U., & Sapkota, P. (2015). Relationships among energy consumption, pollution emission, and economic growth in Nepal. Energy, 80, 254-262.

Batool, R., Sharif, A., Islam, T., Zaman, K., Shoukry, A. M., Sharkawy, M. A., Hishan, S. S. (2019). Green is clean: the role of ICT in resource management. Environmental Science and Pollution Research, 26(24), 25341-25358.

Becker, G. S. (2009). Human capital: A theoretical and empirical analysis, with special reference to education: University of Chicago press.

Begum, R. A., Sohag, K., Abdullah, S. M. S., & Jaafar, M. (2015). CO2 emissions, energy consumption, economic and population growth in Malaysia. Renewable and Sustainable Energy Reviews, 41, 594-601.

Ben Jebli, M., & Hadhri, W. (2018). The dynamic causal links between CO2 emissions from transport, real GDP, energy use and international tourism. International Journal of Sustainable Development & World Ecology, 25(6), 568-577.

Chen, W., & Lei, Y. (2018). The impacts of renewable energy and technological innovation on environment-energy-growth nexus: New evidence from a panel quantile regression. Renewable energy, 123, 1-14.

Cheng, C. C., Yang, C.-l., & Sheu, C. (2014). The link between eco-innovation and business performance: a Taiwanese industry context. Journal of Cleaner Production, 64, 81-90.

Cheng, Y., Sinha, A., Ghosh, V., Sengupta, T., & Luo, H. (2021). Carbon tax and energy innovation at crossroads of carbon neutrality: Designing a sustainable decarbonization policy. Journal of Environmental Management, 294, 112957.

Chengliang, L., Qingbin, G., & Rui, Z. (2017). The dynamic effects of endogenous technological advancement on carbon emissions in China. China: An International Journal, 15(2), 192-207.

Chiu, Y.-B., & Lee, C.-C. (2020). Effects of financial development on energy consumption: The role of country risks. Energy Economics, 90, 104833.

Cho, J. S., Kim, T.-h., & Shin, Y. (2015). Quantile cointegration in the autoregressive distributed-lag modeling framework. Journal of econometrics, 188(1), 281-300.

Choi, Y., Zhang, N., & Zhou, P. (2012). Efficiency and abatement costs of energy-related CO2 emissions in China: A slacks-based efficiency measure. Applied Energy, 98, 198-208.

Cucchiella, F., Gastaldi, M., & Miliacca, M. (2017). The management of greenhouse gas emissions and its effects on firm performance. Journal of Cleaner Production, 167, 1387-1400.

Dangelico, R. M., & Pujari, D. (2010). Mainstreaming green product innovation: Why and how companies integrate environmental sustainability. Journal of business ethics, 95(3), 471-486.

Dasgupta, S., Hettige, H., & Wheeler, D. (2000). What improves environmental compliance? Evidence from Mexican industry. Journal of Environmental Economics and Management, 39(1), 39-66.

De Jesus, A., Antunes, P., Santos, R., & Mendonça, S. (2018). Eco-innovation in the transition to a circular economy: An analytical literature review. Journal of Cleaner Production, 172, 2999-3018.

Desha, C., Robinson, D., & Sproul, A. (2015). Working in partnership to develop engineering capability in energy efficiency. Journal of Cleaner Production, 106, 283-291.

Dinda, S., & Coondoo, D. (2006). Income and emission: a panel data-based cointegration analysis. Ecological economics, 57(2), 167-181.

Ding, Q., Khattak, S. I., & Ahmad, M. (2021). Towards sustainable production and consumption: assessing the impact of energy productivity and eco-innovation on consumption-based carbon dioxide emissions (CCO2) in G-7 nations. Sustainable Production and Consumption, 27, 254-268.

Erdogan, S., Yıldırım, S., Yıldırım, D. Ç., & Gedikli, A. (2020). The effects of innovation on sectoral carbon emissions: evidence from G20 countries. Journal of Environmental Management, 267, 110637.

Fang, Z., & Chang, Y. (2016). Energy, human capital and economic growth in Asia Pacific countries—Evidence from a panel cointegration and causality analysis. Energy Economics, 56, 177-184.

Fernández, Y. F., López, M. F., & Blanco, B. O. (2018). Innovation for sustainability: the impact of R&D spending on CO2 emissions. Journal of Cleaner Production, 172, 3459-3467.

Fethi, S., & Rahuma, A. (2020). The impact of eco-innovation on CO2 emission reductions: Evidence from selected petroleum companies. Structural Change and Economic Dynamics, 53, 108-115.

Frondel, M., Horbach, J., & Rennings, K. (2007). End‐of‐pipe or cleaner production? An empirical comparison of environmental innovation decisions across OECD countries. Business strategy and the environment, 16(8), 571-584.

Fussler, C., & James, P. (1996). Driving eco-innovation: a breakthrough discipline for innovation and sustainability: Financial Times/Prentice Hall.

Garcia-Granero, E. M., Piedra-Munoz, L., & Galdeano-Gomez, E. (2018). Eco-innovation measurement: A review of firm performance indicators. Journal of Cleaner Production, 191, 304-317.

Garrone, P., & Grilli, L. (2010). Is there a relationship between public expenditures in energy R&D and carbon emissions per GDP? An empirical investigation. Energy Policy, 38(10), 5600-5613.

Godil, D. I., Sarwat, S., Sharif, A., & Jermsittiparsert, K. (2020). How oil prices, gold prices, uncertainty and risk impact Islamic and conventional stocks? Empirical evidence from QARDL technique. Resources Policy, 66, 101638.

Godil, D. I., Sharif, A., Agha, H., & Jermsittiparsert, K. (2020). The dynamic nonlinear influence of ICT, financial development, and institutional quality on CO2 emission in Pakistan: new insights from QARDL approach. Environmental Science and Pollution Research, 27(19), 24190-24200.

Grossman, G. M., & Krueger, A. B. (1995). Economic growth and the environment. The quarterly journal of economics, 110(2), 353-377.

Gu, G., & Wang, Z. (2018). Research on global carbon abatement driven by R&D investment in the context of INDCs. Energy, 148, 662-675.

Hassan, S. T., Baloch, M. A., Mahmood, N., & Zhang, J. (2019). Linking economic growth and ecological footprint through human capital and biocapacity. Sustainable cities and society, 47, 101516.

Hojnik, J., & Ruzzier, M. (2016). The driving forces of process eco-innovation and its impact on performance: Insights from Slovenia. Journal of Cleaner Production, 133, 812-825.

Huang, C., Zhang, X., & Liu, K. (2021). Effects of human capital structural evolution on carbon emissions intensity in China: A dual perspective of spatial heterogeneity and nonlinear linkages. Renewable and Sustainable Energy Reviews, 135, 110258.

Hussain, M., Javaid, M. I., & Drake, P. R. (2012). An econometric study of carbon dioxide (CO2) emissions, energy consumption, and economic growth of Pakistan. International Journal of Energy Sector Management, 6(4), 518-533.

Iqbal, M. A., Majeed, M. T., & Luni, T. (2021). Human Capital, Trade Openness and CO2 Emissions: Evidence from Heterogeneous Income Groups. Pakistan Journal of Commerce and Social Sciences, 15(3), 559-585.

Ji, X., Umar, M., Ali, S., Ali, W., Tang, K., & Khan, Z. (2020). Does fiscal decentralization and eco‐innovation promote sustainable environment? A case study of selected fiscally decentralized countries. Sustainable Development, 1-10.

Jiao, J., Yang, Y., & Bai, Y. (2018). The impact of inter-industry R&D technology spillover on carbon emission in China. Natural Hazards, 91(3), 913-929.

Kim, T., & Lee, J. (2011). Technological change, human capital structure, and multiple growth paths. The Japanese Economic Review, 62(3), 305-330.

Kim, T., & White, H. (2003). Estimation, inference, and specification testing for possibly misspecified quantile regression: Emerald Group Publishing Limited.

Kuznets, S. (1955). Economic growth and income inequality. The American economic review, 45(1), 1-28.

Kwon, D. (2009). Human capital and its measurement. Paper presented at the The 3rd OECD World Forum on “Statistics, Knowledge and Policy” Charting Progress, Building Visions, Improving Life.

Lapinskienė, G., Peleckis, K., & Nedelko, Z. (2017). Testing environmental Kuznets curve hypothesis: The role of enterprise’s sustainability and other factors on GHG in European countries. Journal of Business Economics and Management, 18(1), 54-67.

Lederman, D., Lesniak, J. T., Feenstra, R. C., Inklaar, R., & Timmer, M. P. (2017). The Next Generation of the Penn World Table. Total Factor Productivity at Constant National Prices for Kenya. American Economic Review. available for download at www. ggdc. net/pwt.

Lee, K.-H., & Min, B. (2015). Green R&D for eco-innovation and its impact on carbon emissions and firm performance. Journal of Cleaner Production, 108, 534-542.

Li, P., & Ouyang, Y. (2019). The dynamic impacts of financial development and human capital on CO2 emission intensity in China: an ARDL approach. Journal of Business Economics and Management, 20(5), 939-957.

Lin, X., Zhao, Y., Ahmad, M., Ahmed, Z., Rjoub, H., & Adebayo, T. S. (2021). Linking innovative human capital, economic growth, and CO2 emissions: an empirical study based on Chinese provincial panel data. International journal of environmental research and public health, 18(16), 8503.

Lingyan, M., Zhao, Z., Malik, H. A., Razzaq, A., An, H., & Hassan, M. (2021). Asymmetric impact of fiscal decentralization and environmental innovation on carbon emissions: Evidence from highly decentralized countries. Energy & Environment,

Lopez-Gamero, M. D., Molina-Azorín, J. F., & Claver-Cortés, E. (2010). The potential of environmental regulation to change managerial perception, environmental management, competitiveness and financial performance. Journal of Cleaner Production, 18(10-11), 963-974.

Mehrara, M., Rezaei, S., & Razi, D. H. (2015). Determinants of renewable energy consumption among ECO countries; based on Bayesian model averaging and weighted-average least square. International Letters of Social and Humanistic Sciences, 54, 96-109.

Mensah, C. N., Long, X., Boamah, K. B., Bediako, I. A., Dauda, L., & Salman, M. (2018). The effect of innovation on CO 2 emissions of OCED countries from 1990 to 2014. Environmental Science and Pollution Research, 25(29), 29678-29698.

Mishra, S., Sharif, A., Khuntia, S., Meo, M. S., & Khan, S. A. R. (2019). Does oil prices impede Islamic stock indices? Fresh insights from wavelet-based quantile-on-quantile approach. Resources Policy, 62, 292-304.

Mishra, S., Sinha, A., Sharif, A., & Suki, N. M. (2020). Dynamic linkages between tourism, transportation, growth and carbon emission in the USA: evidence from partial and multiple wavelet coherence. Current Issues in Tourism, 23(21), 2733-2755.

Nasiritousi, N. (2017). Fossil fuel emitters and climate change: unpacking the governance activities of large oil and gas companies. Environmental Politics, 26(4), 621-647.

Nguyen, N. T. K., & Le, M. B. (2018). CO2 emissions and economic growth in Vietnam: An ARDL bound testing approach. Asian Journal of Economic Modelling, 6(1), 47-55.

Ozcan, B., & Apergis, N. (2018). The impact of internet use on air pollution: evidence from emerging countries. Environmental Science and Pollution Research, 25(5), 4174-4189.

Ozturk, I., & Acaravci, A. (2013). The long-run and causal analysis of energy, growth, openness and financial development on carbon emissions in Turkey. Energy Economics, 36, 262-267.

Pablo-Romero, M. d. P., & Sánchez-Braza, A. (2015). Productive energy use and economic growth: Energy, physical and human capital relationships. Energy Economics, 49, 420-429.

Panayotou, T. (2016). 14. Economic Growth and the Environment: New York University Press.

Porter, M., & Van der Linde, C. (1995). Green and competitive: ending the stalemate. The Dynamics of the eco-efficient economy: environmental regulation and competitive advantage, 33.

Ramanathan, R., He, Q., Black, A., Ghobadian, A., & Gallear, D. (2017). Environmental regulations, innovation and firm performance: A revisit of the Porter hypothesis. Journal of Cleaner Production, 155, 79-92.

Razzaq, A., Sharif, A., Ahmad, P., & Jermsittiparsert, K. (2021). Asymmetric role of tourism development and technology innovation on carbon dioxide emission reduction in the Chinese economy: Fresh insights from QARDL approach. Sustainable Development, 29(1), 176-193.

Razzaq, A., Wang, Y., Chupradit, S., Suksatan, W., & Shahzad, F. (2021a). Asymmetric inter-linkages between green technology innovation and consumption-based carbon emissions in BRICS countries using quantile-on-quantile framework. Technology in Society, 66, 101656.

Razzaq, A., Ajaz, T., Li, J. C., Irfan, M., & Suksatan, W. (2021b). Investigating the asymmetric linkages between infrastructure development, green innovation, and consumption-based material footprint: Novel empirical estimations from highly resource-consuming economies. Resources Policy, 74, 102302.

Reid, A., & Miedzinski, M. (2008). Eco-innovation. Final report for sectoral innovation watch. Europe Innova. Technopolis group.

Rennings, K. (2000). Redefining innovation—eco-innovation research and the contribution from ecological economics. Ecological economics, 32(2), 319-332.

Rist, G. (2019). The history of development: From western origins to global faith: Zed Books Ltd.

Romer, P. M. (1990). Endogenous technological change. Journal of political Economy, 98(5, Part 2), S71-S102.

Saleem, N., & Shujah-ur-Rahman, J. Z. (2019). The impact of human capital and biocapacity on environment: environmental quality measure through ecological footprint and greenhouse gases. Journal of Polluion Effects and Control, 7(2), 1-13.

Schultz, T. W. (1961). Investment in human capital. The American economic review, 51(1), 1-17.

Serrat, O. (2009). Harnessing Creativity and Innovation in the Workplace. In Knowledge Solutions, 61.

Sun, Y., Duru, O. A., Razzaq, A., & Dinca, M. S. (2021). The asymmetric effect eco-innovation and tourism towards carbon neutrality target in Turkey. Journal of Environmental Management, 299, 113653.

Shabani, Z. D., & Shahnazi, R. (2019). Energy consumption, carbon dioxide emissions, information and communications technology, and gross domestic product in Iranian economic sectors: A panel causality analysis. Energy, 169, 1064-1078.

Shafik, N., & Bandyopadhyay, S. (1992). Economic growth and environmental quality: time-series and cross-country evidence (Vol. 904): World Bank Publications.

Shahbaz, M., Gozgor, G., & Hammoudeh, S. (2019). Human capital and export diversification as new determinants of energy demand in the United States. Energy Economics, 78, 335-349.

Shahbaz, M., Hye, Q. M. A., Tiwari, A. K., & Leitão, N. C. (2013). Economic growth, energy consumption, financial development, international trade and CO2 emissions in Indonesia. Renewable and Sustainable Energy Reviews, 25, 109-121.

Shahbaz, M., Lahiani, A., Abosedra, S., & Hammoudeh, S. (2018). The role of globalization in energy consumption: a quantile cointegrating regression approach. Energy Economics, 71, 161-170.

Shahbaz, M., Zakaria, M., Shahzad, S. J. H., & Mahalik, M. K. (2018). The energy consumption and economic growth nexus in top ten energy-consuming countries: Fresh evidence from using the quantile-on-quantile approach. Energy Economics, 71, 282-301.

Shahbaz, M., & Sinha, A. (2019). Environmental Kuznets curve for CO2 emissions: a literature survey. Journal of Economic Studies, 46(1), 106-168.

Shahbaz, M., Balsalobre-Lorente, D., & Sinha, A. (2019). Foreign direct Investment–CO2 emissions nexus in Middle East and North African countries: Importance of biomass energy consumption. Journal of cleaner production, 217, 603-614.

Sharif, A., Raza, S. A., Ozturk, I., & Afshan, S. (2019). The dynamic relationship of renewable and nonrenewable energy consumption with carbon emission: a global study with the application of heterogeneous panel estimations. Renewable Energy, 133, 685-691.

Sharif, A., Baris-Tuzemen, O., Uzuner, G., Ozturk, I., & Sinha, A. (2020a). Revisiting the role of renewable and non-renewable energy consumption on Turkey’s ecological footprint: Evidence from Quantile ARDL approach. Sustainable Cities and Society, 57, 102138.

Sharif, A., Mishra, S., Sinha, A., Jiao, Z., Shahbaz, M., & Afshan, S. (2020b). The renewable energy consumption-environmental degradation nexus in Top-10 polluted countries: Fresh insights from quantile-on-quantile regression approach. Renewable Energy, 150, 670-690.

Sharma, R., Sinha, A., & Kautish, P. (2021). Does financial development reinforce environmental footprints? Evidence from emerging Asian countries. Environmental Science and Pollution Research, 28(8), 9067-9083.

Shoaib, H. M., Rafique, M. Z., Nadeem, A. M., & Huang, S. (2020). Impact of financial development on CO 2 emissions: A comparative analysis of developing countries (D 8) and developed countries (G 8). Environmental Science and Pollution Research, 27(11), 12461-12475.

Sianesi, B., & Reenen, J. V. (2003). The returns to education: Macroeconomics. Journal of economic surveys, 17(2), 157-200.

Sinha, A., & Shahbaz, M. (2018). Estimation of environmental Kuznets curve for CO2 emission: role of renewable energy generation in India. Renewable Energy, 119, 703-711.

Sinha, A., Shah, M. I., Sengupta, T., & Jiao, Z. (2020a). Analyzing technology-emissions association in Top-10 polluted MENA countries: How to ascertain sustainable development by quantile modeling approach. Journal of Environmental Management, 267, 110602.

Sinha, A., Sengupta, T., & Saha, T. (2020b). Technology policy and environmental quality at crossroads: Designing SDG policies for select Asia Pacific countries. Technological Forecasting and Social Change, 161, 120317.

Sinha, A., Sengupta, T., & Alvarado, R. (2020c). Interplay between technological innovation and environmental quality: formulating the SDG policies for next 11 economies. Journal of Cleaner Production, 242, 118549.

Sinha, A., Mishra, S., Sharif, A., & Yarovaya, L. (2021). Does green financing help to improve environmental & social responsibility? Designing SDG framework through advanced quantile modelling. Journal of Environmental Management, 292, 112751.

Sinha, A., & Rastogi, S. K. (2017). Collaboration between central and state government and environmental quality: Evidences from Indian cities. Atmospheric Pollution Research, 8(2), 285-296.

Stern, D. I. (2004). The rise and fall of the environmental Kuznets curve. World Development, 32(8), 1419-1439.

Sun, Y., Yesilada, F., Andlib, Z., & Ajaz, T. (2021). The role of eco-innovation and globalization towards carbon neutrality in the USA. Journal of Environmental Management, 299, 113568.

Tamazian, A., Chousa, J. P., & Vadlamannati, K. C. (2009). Does higher economic and financial development lead to environmental degradation: evidence from BRIC countries. Energy Policy, 37(1), 246-253.

Tan, Z., Li, L., Wang, J., & Wang, J. (2011). Examining the driving forces for improving China’s CO2 emission intensity using the decomposing method. Applied Energy, 88(12), 4496-4504.

Tian, Y., Chen, W., & Zhu, S. (2017). Does financial macroenvironment impact on carbon intensity: evidence from ARDL-ECM model in China. Natural Hazards, 88(2), 759-777.

Troster, V., Shahbaz, M., & Uddin, G. S. (2018). Renewable energy, oil prices, and economic activity: A Granger-causality in quantiles analysis. Energy Economics, 70, 440-452.

Wang, J., & Xu, Y. (2021). Internet usage, human capital and CO2 emissions: A global perspective. Sustainability, 13(15), 8268.

Wang, L., Chang, H.-L., Rizvi, S. K. A., & Sari, A. (2020). Are eco-innovation and export diversification mutually exclusive to control carbon emissions in G-7 countries? Journal of Environmental Management, 270, 110829.

Xiao, Z. (2009). Quantile cointegrating regression. Journal of econometrics, 150(2), 248-260.

Xuefeng, Z., Razzaq, A., Gokmenoglu, K. K., & Rehman, F. U. (2021). Time varying interdependency between COVID-19, tourism market, oil prices, and sustainable climate in United States: evidence from advance wavelet coherence approach. Economic Research-Ekonomska Istraživanja, 1-23. DOI: 10.1080/1331677X.2021.1992642

Yang, L., & Li, Z. (2017). Technology advance and the carbon dioxide emission in China–Empirical research based on the rebound effect. Energy Policy, 101, 150-161.

Yao, Y., Ivanovski, K., Inekwe, J., & Smyth, R. (2019). Human capital and energy consumption: Evidence from OECD countries. Energy Economics, 84, 104534.

Yao, Y., Ivanovski, K., Inekwe, J., & Smyth, R. (2020). Human capital and CO2 emissions in the long run. Energy Economics, 91, 1-14.

Yii, K.-J., & Geetha, C. (2017). The nexus between technology innovation and CO2 emissions in Malaysia: evidence from granger causality test. Energy Procedia, 105, 3118-3124.

Yuan, B., & Zhang, K. (2017). Can environmental regulation promote industrial innovation and productivity? Based on the strong and weak Porter hypothesis. Chinese Journal of Population Resources and Environment, 15(4), 322-336.

Yurdakul, M., & Kazan, H. (2020). Effects of Eco-Innovation on Economic and Environmental Performance: Evidence from Turkey’s Manufacturing Companies. Sustainability, 12(8), 3167.

Zhang, Peng, Y.-L., Ma, C.-Q., & Shen, B. (2017). Can environmental innovation facilitate carbon emissions reduction? Evidence from China. Energy Policy, 100, 18-28.

Zhang, L., & Gao, J. (2016). Exploring the effects of international tourism on China's economic growth, energy consumption and environmental pollution: Evidence from a regional panel analysis. Renewable and Sustainable Energy Reviews, 53, 225-234.

Zivot, E., & Andrews, D. W. K. (1992). Further evidence on the great crash, the oil-price shock, and the unit-root hypothesis. Journal of business & economic statistics, 20(1), 25-44.

Zhang H., Razzaq A., Pelit I. & Irmak E. (2021) Does freight and passenger transportation industries are sustainable in BRICS countries? Evidence from advance panel estimations, Economic Research-Ekonomska Istraživanja, DOI: 10.1080/1331677X.2021.2002708

Zhuang, Y., Yang, S., Razzaq, A., & Khan, Z. (2021). Environmental impact of infrastructure-led Chinese outward FDI, tourism development and technology innovation: a regional country analysis. Journal of Environmental Planning and Management, 1-33.