Water environmental stress, rebound effect, and economic growth of China's textile industry.

Yi Li,Jie Shen,Laili Wang,Yan Luo,Manhong Shen,Linyi Lu

doi:10.7717/peerj.5112

Yi Li, Jie Shen + Show 4 more

Open Access

https://doi.org/10.7717/peerj.5112

Copy DOI

Abstract

The rapid development of China’s textile industry (TI) has led to severe water environmental stress. Water environmental stress of China’s TI mainly comes from large quantities of discharged wastewater and chemical oxygen demand (COD). The sustainable development of the TI is realized to achieve the decoupling between economic growth and water environmental stress. This study analyzes the decoupling elasticity results from wastewater discharge and COD discharge, respectively. Decoupling results show that TI’s wastewater has strong decoupling from economic growth for three years (2002, 2013–2014) while COD has strong decoupling for six years (2002–2003, 2008, 2010, 2013–2014). The paper further calculates the decoupling elasticity results of the TI’s three sub-sectors (manufacture of textile sector, manufacture of textile wearing and apparel sector, and manufacture of chemical fibers (MCF) sector), and calculates the factors that affect wastewater discharge. The decrement and rebound effects of wastewater discharge are analyzed based on calculated results. Decomposition results show that the scale factor is the most significant contributor to wastewater discharge, the intensity factor inhibits wastewater discharge, and the effect of the structure factor is not evident. The decrement effect of TI increases yearly, but the rebound effect shows that the absolute amount of wastewater discharge also increases. The rebound effect has declined since 2012. In the three sub-sectors, MCF’s decrement effect is the strongest, and its rebound effect is the weakest, which indicate that MCF is the biggest contributor to the discharge reduction of China’s TI.

Highlights

The textile industry (TI), one of the traditional pillar industries in China, has greatly contributed to economic growth, export earnings, and employment promotions.How to cite this article Li et al (2018), Water environmental stress, rebound effect, and economic growth of China’s textile industry
Guo & Zhang (2013) fit wastewater and chemical oxygen demand (COD) discharge into pollutants index and calculated the decoupling degree, the results showed that in the study years, COD discharge of China’s industry was decreasing and the proportion of industrial COD discharge decreased gradually, indicating that reduction effect existed in China’s industrial COD discharge
The total amount of wastewater discharged from manufacture of textile (MT) is the largest, followed by that from manufacture of chemical fibers (MCF) and manufacture of textile wearing and apparel (MTWA)

Summary

Introduction

How to cite this article Li et al (2018), Water environmental stress, rebound effect, and economic growth of China’s textile industry. China’s TI total output value increased from USD 31.36 billion in 1997 to USD 27.43 trillion in 2014, with an average annual growth rate of 10.96% (based on the 2014 price) and a serious wastewater and pollutant discharge problem. From 1997 to 2014, the TI’s wastewater discharge increased from 1,571.11 to 2,537.68 Mt, with an average annual growth rate of 2.70% (Ministry of Environmental Protection of the People’s Republic of China, 1998–2006, 2006–2014). The main pollutant in the TI’s wastewater, chemical oxygen demand (COD), has ranked fourth among China’s 41 key survey industries for 12 years (2003–2014). The TI’s wastewater discharge ranked third among China’s 41 key survey industries for four consecutive years (2011–2014)

Methods

Results

Conclusion