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Environmental management and the influence of foreign direct investment in Southeast Asia: policy implications

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PL
Wpływ bezpośrednich inwestycji zagranicznych w Południowo-Wschodniej Azji na zarządzanie środowiskiem: implikacje dla polityki
Języki publikacji
EN
Abstrakty
EN
This study investigated the nexus between environmental pollution measured by carbon dioxide (CO2), nitrogen dioxide (N2O) and net Foreign Direct Investment (FDI), along with some other variables, namely economic growth by gross domestic product per capita, trade openness, manufacturing, political stability, urbanization, and population growth, using annual data of 11 countries from Southeast Asia for the period from 1999 to 2019. After testing the suitability of the fixed effects and random effects model, this study used the former. The results show that FDI inflows cause CO2 levels to increase in Southeast Asia, supporting Pollution Heaven Theory. However, as for N2O level, the result is not significant, meaning that there is no relationship between FDI inflows and N2O level. Other variables, including GDP and trade openness, negatively affect the environment in Southeast Asia as well. Some recommendations for the Southeast Asia government are also provided to improve the environmental condition in this region.
PL
W niniejszym badaniu zbadano związek między zanieczyszczeniem środowiska mierzonym dwutlenkiem węgla (CO2), dwutlenkiem azotu (N2O) i bezpośrednimi inwestycjami zagranicznymi netto (BIZ), wraz z kilkoma innymi zmiennymi, a mianowicie: wzrostem gospodarczym według produktu krajowego brutto na mieszkańca, otwartością handlową, produkcją, stabilnością polityczną, urbanizacją i wzrostem liczby ludności, wykorzystując roczne dane 11 krajów z Azji Południowo-Wschodniej za okres od 1999 do 2019 roku. Po przetestowaniu przydatności modelu efektów stałych i losowych, w niniejszym badaniu wykorzystano ten pierwszy. Wyniki pokazują, że napływ bezpośrednich inwestycji zagranicznych powoduje wzrost poziomu CO2 w Azji Południowo-Wschodniej, co potwierdza teorię nieba zanieczyszczeń. Jednak jeśli chodzi o poziom N2O, wynik nie jest znaczący, co oznacza, że nie ma związku między napływem BIZ a poziomem N2O. Inne zmienne, w tym PKB i otwartość handlowa, również negatywnie wpływają na środowisko w Azji Południowo-Wschodniej. Przedstawiono również pewne zalecenia dla rządu Azji Południowo-Wschodniej w celu poprawy stanu środowiska w tym regionie.
Rocznik
Strony
367--383
Opis fizyczny
Bibliogr. 46 poz., tab.
Twórcy
  • Foreign Trade University, Ho Chi Minh City Campus, Ho Chi Minh City, Vietnam
  • Tomas Bata University in Zlín, Faculty of Management and Economics; nám. T. G. Masaryka 5555, 760 01 Zlín
  • Thu Dau Mot University, Binh Duong, Vietnam
Bibliografia
  • 1.Afza, T., Nazir, M. S., (2007). Economic competitiveness and human resource development: An FDI perspective. Pakistan Economic and Social Review, 167-180.
  • 2.Ansari, M. A., Khan, N. A. and Ganaie, A. A., (2019). Does foreign direct investment impede environmental quality in Asian countries? A panel data analysis. OPEC Energy Review, 43(2), 109-135.
  • 3.Asghari, M., (2013). Does FDI promote MENA region's environment quality? Pollution halo or pollution haven hypothesis. International Journal of Research in Environmental Science, 1(6), 92-100.
  • 4.Atici, C., (2012). Carbon Emissions, Trade Liberalisation, and the JapanASEAN interaction: A Group-wise Examination. Journal of the Japanese and International Economies, 26(1), 167-178.
  • 5.Barlow, R., (1994). Population growth and economic growth: Some more correlations. Population and Development Review, 153-165.
  • 6.Borenstein, M., Hedges, L. V., Higgins, J. P. and Rothstein, H. R., (2010). A basic introduction to fixed‐effect and random‐effects models for meta‐analysis. Research Synthesis Methods, 1(2), 97-111.
  • 7.Chapuis-Lardy, L., Wrage, N., Metay, A., Chotte, J. L. and Bernoux, M., (2007). Soils, a sink for N2O? A review. Global Change Biology, 13, 1-17.
  • 8.Coale, A. J., Hoover, E. M., (2015). Population Growth And Economic Development. Princeton University Press.
  • 9.Copeland, B. R., (2013). Trade and the Environment. In Palgrave handbook of international trade (pp. 423-496). Palgrave Macmillan, London.
  • 10.Dauda, L., Long, X., Mensah, C. N. and Salman, M., (2019). The effects of economic growth and innovation on CO2 emissions in different regions. Environmental Science and Pollution Research, 26, 15028-15038.
  • 11.Demena, B. A., Afesorgbor, S. K., (2020). The effect of FDI on environmental emissions: Evidence from a meta-analysis. Energy Policy, 138, 111192.
  • 12.Dong, Y., Shao, S. and Zhang, Y., (2019). Does FDI have energy-saving spillover effect in China? A perspective of energy-biased technical change. Journal of Cleaner Production, 234, 436-450.
  • 13.Doytch, N., Uctum, M., (2016). Globalization and the environmental impact of sectoral FDI. Economic Systems, 40(4), 582-594.
  • 14.Du, L., Wei, C. and Cai, S., (2012). Economic development and carbon dioxide emissions in China: Provincial panel data analysis. China Economic Review, 23(2), 371-384.
  • 15.Eskeland, G. S., Harrison, A. E., (2003). Moving to greener pasture? Multinationals and the pollution haven hypothesis. Journal of Development Economics, 70(1), 1-23.
  • 16.French, H., (1998). Making private capital flows to developing countries environmentally sustainable: the policy challenge. In Natural resources forum (Vol. 22, No. 2, pp. 77-85). Oxford, U.K.: Blackwell Publishing Ltd.
  • 17.Fry, M. J., (1993). Foreign direct investment in Southeast Asia: differential impacts. Institute of Southeast Asian Studies.
  • 18.Gill, F. L., Viswanathan, K. K. and Karim, M. Z. A., (2018). The critical review of the pollution haven hypothesis. International Journal of Energy Economics and Policy, 8(1), 167-174.
  • 19.Haisheng, Y., Jia, J., Yongzhang, Z. and Shugong, W., (2005). The impact on environmental Kuznets curve by trade and foreign direct investment in China. Chinese Journal of Population Resources and Environment, 3(2), 14-19.
  • 20.Harbaugh, W. T., Levinson, A. and Wilson, D. M., (2002). Reexamining the empirical evidence for an environmental Kuznets curve. Review of Economics and Statistics, 84(3), 541-551.
  • 21.Hoang, H., Bui, D., (2014). Determinants of foreign direct investment in ASEAN: A panel approach. Management Science Letters, 5(2), 213-222.
  • 22.Javorcik, B., (2012). Does FDI bring good jobs to host countries? World Bank.
  • 23.Jugurnath, B., Emrith, A., (2018). Impact of foreign direct investment on environment degradation: evidence from SIDS countries. The Journal of Developing Areas, 52(2), 13-26.
  • 24.Khan, M. A., Ozturk, I., (2020). Examining foreign direct investment and environmental pollution linkage in Asia. Environmental Science and Pollution Research, 27, 7244-7255.
  • 25.Kheder, S. B., Zugravu, N., (2012). Environmental regulation and French firms location abroad: An economic geography model in an international comparative study. Ecological Economics, 77, 48-61.
  • 26.Lee, C. G., (2009). Foreign direct investment, pollution and economic growth: evidence from Malaysia. Applied Economics, 41(13), 1709-1716.
  • 27.Letchumanan, R., Kodama, F., (2000). Reconciling the conflict between the 'pollution-haven' hypothesis and an emerging trajectory of international technology transfer. Research Policy, 29, 59-79.
  • 28.Lin, P., Liu, Z. and Zhang, Y., (2009). Do Chinese domestic firms benefit from FDI inflow?: Evidence of horizontal and vertical spillovers. China Economic Review, 20(4), 677-691.
  • 29.Liu, W., Xu, X., Yang, Z., Zhao, J. and Xing, J., (2016). Impacts of FDI renewable energy technology spillover on China's energy industry performance. Sustainability, 8(9), 846.
  • 30.Liu, Q., Wang, Q., (2017). How China achieved its 11th Five-Year Plan emissions reduction target: A structural decomposition analysis of industrial SO2 and chemical oxygen demand. Science of the Total Environment, 574, 1104-1116.
  • 31.Llorca, M., Meunié, A., (2009). SO2 emissions and the environmental Kuznets curve: the case of Chinese provinces. Journal of Chinese Economic and Business Studies, 7(1), 1-16.
  • 32.Lopez, R., (1994). The environment as a factor of production: the effects of economic growth and trade liberalization. Journal of Environmental Economics and Management, 27(2), 163-184.
  • 33.Mahrinasari, M. S., Haseeb, M., Ammar, J. and Meiryani, (2019). Is trade liberalization a hazard to sustainable environment?: fresh insight from ASEAN countries. Polish Journal of Management Studies, 19(1), 249-259.
  • 34.Omri, A., Nguyen, D. K. and Rault, C., (2014). Causal interactions between CO2 emissions, FDI, and economic growth: Evidence from dynamic simultaneous-equation models. Economic Modelling, 42, 382-389.
  • 35.Peres, M., Ameer, W. and Xu, H., (2018). The impact of institutional quality on foreign direct investment inflows: evidence for developed and developing countries. Economic research-Ekonomska Istraživanja, 31(1), 626-644.
  • 36.Purcel, A. A., (2019). Does political stability hinder pollution? Evidence from developing states. Economic Research Guardian, 9(2), 75-98.
  • 37.Rajiani, I., Pypłacz, P., (2018). National culture as modality in managing the carbon economy in Southeast Asia. Polish Journal of Management Studies, 18(1), 296-310.
  • 38.Torras, M., Boyce, J. K., (1998). Income, inequality, and pollution: a reassessment of the environmental Kuznets curve. Ecological Economics, 25(2), 147-160.
  • 39.Unctad.org. 2020. [online] Available at: [Accessed 28 August 2020]. Unctad.org. 2020. Unctad.Org | Global Investment Flows Flat In 2019, Moderate Increase Expected In 2020. [online] Available at: [Accessed 28 August 2020].
  • 40.Ur Rahman, Z., Chongbo, W. and Ahmad, M., (2019). An (a) symmetric analysis of the pollution haven hypothesis in the context of Pakistan: a non-linear approach. Carbon Management, 10(3), 227-239.
  • 41.Vallero, D. A., (2016). Engineering aspects of climate change. In Climate Change (pp. 547- 568). Elsevier.
  • 42.Wheeler, D., (2002). Racing to the bottom? Foreign Investment Air Pollution in Development Countries. World Bank, Washington, DC.
  • 43.World Bank Group (2020) Interactive Data Access: Worldwide Governance Indicators, World Bank. Available at: https://www.worldbank.org/en/publication/worldwidegovernance-indicators/interactive-data-access (Accessed: 28 August 2020).
  • 44.World development indicators (no date) DataBank. Available at: https://databank.worldbank.org/reports.aspx?source=world-development-indicators (Accessed: 28 August 2020).
  • 45.Zarsky, L., (1999). Havens, halos and spaghetti: untangling the evidence about foreign direct investment and the environment. Foreign Direct Investment and the Environment, 13(8), 47-74.
  • 46.Zikmund, W. G., Carr, J. C., Babin, B. and Griffin, M., (2013) Business research methods. Nelson Education.
Uwagi
Opracowanie rekordu ze środków MNiSW, umowa nr SONP/SP/546092/2022 w ramach programu "Społeczna odpowiedzialność nauki" - moduł: Popularyzacja nauki i promocja sportu (2024).
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-3c9dc441-8a43-4e10-9244-af1cd1ecbfd0
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