Details

Title

Threshold effect of economic growth on domestic waste production: evidence from China

Journal title

Archives of Environmental Protection

Yearbook

2022

Volume

vol. 48

Issue

No 4

Affiliation

Yang, Li : International Business School, Shaanxi Normal University, China ; Wang, Hong-Yan : International Business School, Shaanxi Normal University, China ; Yi, Lan : Jinhe Center for Economic Research, Xi’an Jiaotong University, China ; Shi, Xiang-Zhen : International Business School, Shaanxi Normal University, China ; Deng, Wei : International Business School, Shaanxi Normal University, China

Authors

Keywords

domestic waste ; per capita GDP ; source reduction ; panel threshold regression model

Divisions of PAS

Nauki Techniczne

Coverage

13-24

Publisher

Polish Academy of Sciences

Bibliography

  1. Bollen, K.A., Brand, J.E.(2010). A General Panel Model with Random and Fixed Effects: A Structural Equations Approach, Social Forces, 89,1,pp.1-34. DOI:10.1353/sof.2010.0072.
  2. Chen, Q.(2014). Advanced econometrics and Stata applications (Second Edition), Higher Education Press, Beijing 2014. (in Chinese)
  3. Cheng, J.H., Shi, F.Y., Yi, J.H. & Fu, H. (2020). Analysis of the factors that affect the production of municipal solid waste in China, Journal of cleaner production, 259, pp.120808-120808. DOI:10.1016/j.jclepro.2020.120808.
  4. Cui, T.N. & Wang, L.N. (2018). Regional difference analysis on the relationship between urban domestic waste emission and economic growth, Statistics and decision, 34, 20, pp.126-129. DOI:10.13546/j.cnki.tjyjc.2018.20.030. (in Chinese)
  5. Drew, J., Kortt, M. A. & Dollery, B. (2013). Did the big stick work? An empirical assessment of scale economies and the Queensland forced amalgamation program, Local government studies, 42, 1, pp.1-14, DOI:10.1080/03003930.2013.874341.
  6. Du, C.L. & Huang, T.Z. (2019). From government’s dominance to multi-governance: governance dilemma and innovation path of urban solid waste classification. Administrative tribune, 26b, 4, pp.116-121. DOI:10.16637/j.cnki.23-1360/d.2019.04.016. (in Chinese)
  7. Du, M., Shao, Y.S. & An, S. (2019). Domestic waste and economic growth in Beijing—an empirical study based on panel data. Finance theory and teaching, 6, pp.88-93. DOI:10.13298/j.cnki.ftat.2019.06.018. (in Chinese)
  8. Han, Z., Liu, Y., Zhong, M., Shi, G., Li, Q., Zeng, D. & Zhang, Y. (2018). Influencing factors of domestic waste characteristics in rural areas of developing countries. Waste management, 72, pp.45-54. DOI:10.1016/j.wasman.2017.11.039.
  9. He, Y.Q. & Wang, S.S. (2018). Factor flow and industrial structure upgrading: an analysis of the threshold effect of financial agglomeration. Financial and economics, 8, pp.62-67. DOI:10.19622/j.cnki.cn36-1005/f.2018.08.010. (in Chinese)
  10. Hoyos, R.E.D. & Sarafidis, V. (2006). Testing for cross-sectional dependence in panel-data models. The Stata Journal, 6, 4, pp. 482–496. DOI:10.1177/1536867X0600600403.
  11. Huangfu, H.H. & Li, H.Y. (2018). Analysis on influencing factors of municipal solid waste production. Science-technology and management, 20, 4, pp.44-49. DOI:10.16315/j.stm.2018.04.004. (in Chinese)
  12. Jia, D.X. & Huang, J. (2015). Threshold effect, economic growth and carbon emission. Soft science, 29, 4, pp.67-70. DOI:10.13956/j.ss.1001-8409.2015.04.15. (in Chinese)
  13. Jiang, K. (2019). Urban livelihood and green development – hazards and prevention of landfill leachate. Journal of green science and technology, 10, pp.133-134. DOI:10.16663/j.cnki.lskj.2019.10.051. (in Chinese)
  14. Liu S.S. & Dai S.L. (2022). Why is it so difficult to implement the policy of household garbage classification in urban communities? Policy implementation process model analysis. Resources and Environment in Arid Areas, 36, 5, pp.1-7. DOI:10.13448/j.cnki.jalre.2022.112. (in Chinese)
  15. Madden, B., Florin, N., Mohr, S. & Giurco, D. (2019). Using the waste Kuznet's curve to explore regional variation in the decoupling of waste generation and socioeconomic indicators. Resources, Conservation & Recycling, 149, C, pp.674-686. DOI:10.1016/j.resconrec.2019.06.025
  16. Mao, K.Z., Sun, J.J. & Song, C.J. (2018). Has the consumption growth of urban residents exacerbated the domestic pollution. East China economic management, 32, 4, pp.87-95. DOI:10.19629/j.cnki.34-1014/f.170831014. (in Chinese)
  17. Nicolli, F. & Lafolla, V. (2012). Waste dynamics, country heterogeneity and European environmental policy effectiveness. Journal of environmental policy and planning, 14, 4, pp.371-393. DOI:10.1080/1523908X.2012.719694.
  18. Pang, L., Ni, G.C. & Yan, G.X. (2004). Hazards of Municipal Solid Waste and Countermeasures for Comprehensive Prevention and Control of Pollution. Environmental Science Dynamics, 2, pp.15-16. DOI:10.19758/j.cnki.issn1673-288x.2004.02.007. (in Chinese)
  19. Qin, B.T. & Ge, L.M. (2019). The transfer of highly polluting Industries and overall Environmental pollution in China-an empirical study based on the threshold Model of Interregional relative Environmental Regulation. China Environmental Science, 39, 8, pp.3572-3584. DOI:10.19674/j.cnki.issn1000-6923.20190604.001. (in Chinese)
  20. Ren, X. (2018). Analysis on the threshold effect of economic growth on haze pollution in the Yangtze River Economic Belt. Statistics and decision, 34, 20, pp.138-141. DOI:10.13546/j.cnki.tjyjc.2018.20.033. (in Chinese)
  21. Singh, A. & Raj, P. (2018). Segregation of waste at source reduces the environmental hazards of municipal solid waste in Patna, India. Archives of Environmental Protection, 44, 4, pp.96-110. DOI:10.24425/aep.2018.122306.
  22. Song, G.J. & Dai X.L. (2020). Policy Framework Design of Urban Domestic Waste Management Based on Source Classification and Resource Recovery. Journal of Xinjiang Normal University (Philosophy and Social Sciences Edition), 41, 4, pp.109-125+2. DOI:10.14100/j.cnki.65-1039/g4.20200123.001. (in Chinese)
  23. Wang, C., Li, Q. & Li, L. X. (2020a). Influencing factors and future trend prediction of municipal solid waste—Based on inter provincial zoning. Journal of Beijing Institute of Technology (social sciences edition), 22, 1, pp.49-56. DOI:10.15918/j.jbitss1009-3370.2020.1491. (in Chinese)
  24. Wang, D.D., Jian, L.R. & Fu, S.S. (2020b). Study on incentive and supervision mechanism of classified recycling of urban solid waste. China environmental science, 40, 7, pp.3188-3195. DOI:10.19674/j.cnki.issn1000-6923.2020.0357. (in Chinese)
  25. Wang, X.F., Ma Z.H., Mu Z.M.et al. (2010). Study on multi-factor prediction model of municipal solid waste output based on BP neural network. Anhui Agricultural Sciences, 38, 10, pp.5475-5477. DOI:10.13989/j.cnki.0517-6611.2010.10.167. (in Chinese)
  26. Xu, B., Zhao, Y., Ju, M.T. et al. (2019). Regional difference of municipal solid waste generation in China Based on the STIRPAT model. China environmental science, 39, 11, pp.4901-4909. DOI:10.19674/j.cnki.issn1000-6923.2019.0571. (in Chinese).
  27. Xu, L.L., Yan, Z. & Cui, S.H. (2013). Path analysis of influencing factors on municipal solid waste generation: A case study of Xiamen City. China environmental science, 33, 4, pp.1180-1185. DOI:10.13671/j.hjkxxb.2013.04.021. (in Chinese)
  28. Yang, K., Kwan, H.Y., Yu, Z. & Tong, T. (2020). Model selection between the fixed-effects model and the random-effects model in meta-analysis. Statistics and its Interface, 13,4,pp.501-510. DOI: 10.4310/SII.2020.v13.n4.a7.
  29. Yang, X.F., Wang, M.F. & Hu, Q. (2019). Garbage classification: action dilemma, governance logic and policy path. Governance Research, 35, 6, pp.108-114. DOI:10.15944/j.cnki.33-1010/d.2019.06.012. (in Chinese)
  30. Zhao, Y., Ge, X.Q. & Li, X.F. (2016). Analysis on influencing factors of municipal solid waste production. Statistics and decision, 23, pp.91-94. DOI:10.13546/j.cnki.tjyjc.2016.23.023. (in Chinese)

Date

12.12.2022

Type

Article

Identifier

DOI: 10.24425/aep.2022.143705

DOI

10.24425/aep.2022.143705

Abstracting & Indexing

Abstracting & Indexing


Archives of Environmental Protection is covered by the following services:


AGRICOLA (National Agricultural Library)

Arianta

Baidu

BazTech

BIOSIS Citation Index

CABI

CAS

DOAJ

EBSCO

Engineering Village

GeoRef

Google Scholar

Index Copernicus

Journal Citation Reports™

Journal TOCs

KESLI-NDSL

Naviga

ProQuest

SCOPUS

Reaxys

Ulrich's Periodicals Directory

WorldCat

Web of Science

×