Technological Innovation and Environment Degradation in South Asian Countries

Ayesha Naz; Muhammad Ejaz

doi:10.33317/ssurj.506

Authors

Ayesha Naz International Islamic University, Islamabad
Muhammad Ejaz Nanjing University of Aeronautics and Astronautics

DOI:

https://doi.org/10.33317/ssurj.506

Abstract

This study is an attempt to analyze the impact of technological innovations on Environmental Degradation (ED) in selected South Asian countries over the period 1996 to 2019. The limited and inconclusive result on the association between technological innovation and the environment particularly in South Asia provides an impetus to explicitly reexamine this relationship. The current study is unique in using various greenhouse gases to measure environmental degradation. Moreover, technology is also bifurcated into all other technological innovations and environment-related technology (eco-innovation). Panel robust least square is used to obtain the results. The outcome shows that technological innovations and GDP is contributing to CO² emissions. It means that these two variables have an unfavorable influence on the environment. However, eco-innovations appeared to be significant in reducing CO² emissions and other greenhouse gases. Hence, eco-innovations are desirable to lessen the negative consequences on the environment. Low carbon technologies redefine the production and consumption pattern to offset the environmental damaging trend. Carbon emission rates critically depend on the future direction of technological innovations, hence, this study suggests increasing the degree of eco-innovations to protect the environment.

References

Mohsin, M., Kamran, H. W., Nawaz, M. A., Hussain, M. S., & Dahri, A. S. (2021). Assessing the impact of transition from nonrenewable to renewable energy consumption on economic growth-environmental nexus from developing Asian economies. Journal of environmental management, 284, 111999.

Niu, J. (2021). The impact of technological innovation on carbon emissions. In E3S Web of Conferences (Vol. 275, p. 02039). EDP Sciences.

Adebayo, T. S., & Kirikkaleli, D. (2021). Impact of renewable energy consumption, globalization, and technological innovation on environmental degradation in Japan: application of wavelet tools. Environment, Development, and Sustainability, 23(11), 16057-16082.

Su, C. W., Xie, Y., Shahab, S., Faisal, C. M. N., Hafeez, M., & Qamri, G. M. (2021). Towards achieving sustainable development:

role of technology innovation, technology adoption and CO2 emission for BRICS. International journal of environmental research and public health, 18(1), 277.

Dauda, L., Long, X., Mensah, C. N., Salman, M., Boamah, K. B., Ampon-Wireko, S., & Dogbe, C. S. K. (2021). Innovation, trade openness, and CO2 emissions in selected countries in Africa. Journal of Cleaner Production, 281, 125143.

Bin, H. E., & Shuo, F. A. N. (2017). Independent Innovation, Technological Introduction and Carbon Emission: The Role of Different Technological Progress Paths in Carbon Emission Reduction. Commercial Research, 59(7), 58.

Ko, Y. C., Zigan, K., & Liu, Y. L. (2021). Carbon capture and storage in South Africa: A technological innovation system with a political economy focus. Technological Forecasting and Social Change, 166, 120633.

Cheng, C., Ren, X., Dong, K., Dong, X., & Wang, Z. (2021). How does technological innovation mitigate CO2 emissions in OECD countries? Heterogeneous analysis using panel quantile regression. Journal of Environmental Management, 280, 111818.

Kirikkaleli, D., & Adebayo, T. S. (2021). Do renewable energy consumption and financial development matter for environmental sustainability? New global evidence. Sustainable Development, 29(4), 583-594.

Costantini, V., Crespi, F., Marin, G., & Paglialunga, E. (2017). Eco-innovation, sustainable supply chains and environmental performance in European industries. Journal of cleaner production, 155, 141-154.

Yurdakul, M., & Kazan, H. (2020). Effects of eco-innovation on economic and environmental performance: Evidence from Turkey’s manufacturing companies. Sustainability, 12(8), 3167.

Chien, F., Hsu, C. C., Sibghatullah, A., Hieu, V. M., Phan, T. T. H., & Hoang Tien, N. (2021). The role of technological innovation and cleaner energy towards the environment in ASEAN countries: proposing a policy for sustainable development goals. Economic Research-Ekonomska Istraživanja, 1-16.

Wang, W., Lu, N., Li, Y., Wang, D., & Zhang, C. (2020). The eco-innovation mode in China and its impact on carbon emissions: From the exploration/exploitation perspective. Chinese Journal of Population, Resources, and Environment, 18(2), 103-109.

López, F. J. D., & Montalvo, C. (2015). A comprehensive review of the evolving and cumulative nature of eco-innovation in the chemical industry. Journal of Cleaner Production, 102, 30-43.

Sehnem, S., Lazzarotti, F., & Bencke, F. F. (2016). Sustainable practices and eco-innovations adopted by industrial companies. International Journal of Innovation, 4(2), 42-58.

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

Wang, R., Mirza, N., Vasbieva, D. G., Abbas, Q., & Xiong, D. (2020). The nexus of carbon emissions, financial development, renewable energy consumption, and technological innovation: what should be the priorities in light of COP 21 Agreements?. Journal of Environmental Management, 271, 111027.

Im, K. S., Pesaran, M. H., & Shin, Y. (2003). Testing for unit roots in heterogeneous panels. Journal of Econometrics, 115(1), 53-74.

Maddala, G. S., & Wu, S. (1999). A comparative study of unit root tests with panel data and a new simple test. Oxford Bulletin of Economics and Statistics, 61(S1), 631-652.

Khan, D. M., Yaqoob, A., Zubair, S., Khan, M. A., Ahmad, Z., & Alamri, O. A. (2021). Applications of robust regression techniques: an econometric approach. Mathematical Problems in Engineering, 2021.

Sagar, A. D., & Holdren, J. P. (2002). Assessing the global energy innovation system: some key issues. Energy Policy, 30(6), 465-469.

Sohag, K., Begum, R. A., & Abdullah, S. M. S. (2015). Dynamic impact of household consumption on its CO2 emissions in Malaysia. Environment, development and sustainability, 17(5), 1031-1043.

Rennings, K., Markewitz, P., & Vögele, S. (2013). How clean is clean? Incremental versus radical technological change in coal-fired power plants. Journal of Evolutionary Economics, 23(2), 331-355.