Excess stock returns and corporate environmental performance in China

Ma, Dandan; Zhai, Pengxiang; Zhang, Dayong; Ji, Qiang

doi:10.1186/s40854-023-00569-0

Research
Open access
Published: 25 January 2024

Excess stock returns and corporate environmental performance in China

Dandan Ma^1,2,
Pengxiang Zhai³,
Dayong Zhang⁴ &
…
Qiang Ji ORCID: orcid.org/0000-0002-3502-5254^1,2

Financial Innovation volume 10, Article number: 41 (2024) Cite this article

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Abstract

Using unbalanced panel data on 3326 Chinese listed companies from 2014 to 2021, this study investigates the impact of corporate environmental performance on China’s excess stock returns. The results show that stocks of companies with better environmental performance earn significantly higher excess returns, indicating the existence of green returns in the Chinese stock market. We further reveal that heightened climate-change concerns can boost the stock market’s green returns, while tightened climate policies decrease green returns by increasing long-term carbon risk. Our findings are robust to endogeneity problems and hold great implications for both investors and policymakers.

Introduction

Climate-action failure is considered one of the most serious global risks in the next decade (World Economic Forum, 2022). The increasingly severe climate crisis has led to a consensus in the international community that actions must be taken to mitigate climate change (Jakovljevic et al. 2021; Ma et al. 2022a; Trinks et al. 2022b). China, the world’s largest developing economy, declares its ambitious aim “to have CO₂ emissions peak before 2030 and achieve carbon neutrality before 2060,” also called dual carbon goals. However, the risks and challenges involved in achieving carbon neutrality can be enormous. For example, it is estimated that achieving the dual carbon goals will cost China trillions of Chinese yuan (CNY) per year in green investments (He et al. 2022). Therefore, the Chinese government has introduced various policies to support climate investments and financing and facilitate the improvement of corporate environmental performance.

Consequently, sustainable investment is developing rapidly in China. In 2021, the assets of China’s climate funds reached $46.7 billion, up 149% from the previous year’s figure, making China the world’s second-largest climate-fund market after Europe. Environmental, social, and governance (ESG) investing is becoming a popular strategy in China (Zheng et al. 2022). Intuitively, the climate-policy system and climate-risk perception should induce investors to include evaluations of corporate environmental performance in their investment decision-making. Therefore, it is important to explicate the effectiveness and economic consequences of sustainable investment in China’s stock market, which can provide insights to inform China’s green-finance policy design and offer a reference for managers to formulate corporate sustainable development strategies. It can also help in understanding the interaction between investor’s green preferences and climate policies, which brings insights into investors’ asset-allocation decisions under climate risks.

A key question about ESG investing is whether companies can do well by doing good. A growing number of studies have examined the impact of corporate environmental performance on stock returns in developed countries. In the United States (US) market, de Haan et al. (2012) examined the 500 largest US companies from 2004 to 2008 and found a negative relationship between corporate environmental performance and excess stock returns. Bolton and Kacperczyk (2021a) suggested that the stocks of US firms with higher carbon emissions had higher returns. Alessi et al. (2021) constructed a priced factor based on corporate emissions and the quality of environmental disclosures and found that greener and more transparent firms earned a negative premium in the European market during the period 2006–2018. Luo (2022) found similar evidence in the European market.

However, there is a lack of consensus in the literature regarding the relationship between corporate environmental performance and stock returns. Many of the studies that have shown a negative relationship between corporate environmental performance and stock returns explain this relationship from the perspective of environmental risk, especially carbon risk. Investors require a premium for carbon risk, which means that green assets, which are typically less exposed to carbon risk, are expected to yield lower returns (Bolton and Kacperczyk 2021a, 2021b; Trinks et al. 2022a). However, some empirical research documents that the stocks of companies with sound environmental performance outperform those of companies with poor environmental performance. For example, In et al. (2017) showed that stocks of companies with low carbon intensity had a premium compared with those of companies with high carbon intensity in the US market from 2005 to 2015, which cannot be fully explained by well-known risk factors. Other studies found similar evidence for the US market using ESG scores (Stotz 2021) and environmental performance (Pástor et al. 2022). Castro et al. (2021) and Ye et al. (2022) found that environmental performance could positively affect stock prices in a sample of listed firms in European countries. The controversial relationship between corporate environmental performance and stock returns may be due to the complex effects of policies and investor preferences, which require further verification.

As shown above, prior studies on the relationship between corporate environmental performance and asset prices have mainly focused on developed markets. China is among the world’s largest economies and one of the leading carbon-emitting nations, with significant influence over global sustainability. Meanwhile, compared to developed markets, China’s rapid economic growth and increasing awareness of environmental issues offer a distinct perspective for studying sustainable investment. As China’s environmental disclosure is still in its infancy, and corporate environmental data have been scant until recent years, research on whether Chinese listed firms’ ESG performance can improve corporate investment value is rare. Although Bolton and Kacperczyk’s (2021b) global study, based on data from 2005 to 2018, shows that carbon premiums in both China and the US are highly significant and similar in size, the former country has the most missing data in the global firm-level emissions database. To provide effective evidence for China, the present study uses Chinese firm-level ESG-score data to examine the relationship between corporate environmental performance and excess asset returns. Moreover, this study reveals two different mechanisms to provide additional evidence of the inconsistent debate on the relationship between corporate environmental performance and stock returns.

Our study is related to the rapidly growing literature concerning ESG performance and asset prices. Thus far, over 400 relevant articles have been published in journals indexed on the Web of Science. From a theoretical perspective, Pástor et al. (2021) developed an equilibrium model of sustainable investing to explain the pricing effects of ESG factors in financial markets, suggesting that due to the presence of ESG preferences, green assets have lower expected returns than brown assets in equilibrium. Cornell (2021) elucidated concepts related to the relationships between ESG preferences, risks, and asset returns. Some studies have empirically examined the relationship between ESG performance and asset values. In the bond market, Polbennikov et al. (2016) and Apergis et al. (2022) explored the link between corporate ESG performance and bond spreads, finding that bonds from companies with higher ESG ratings exhibited lower spreads and higher returns. Duan et al. (2023) found that bonds from companies with higher carbon emissions intensity yielded lower returns. Examples from the stock market include studies by de Haan et al. (2012), In et al. (2017), Alessi et al. (2021), Bolton and Kacperczyk (2021a, 2021b), Castro et al. (2021), Stotz (2021), Luo (2022), Pástor et al. (2022), Trinks et al. (2022a), and Ye et al. (2022).

Our study contributes to previous research in two ways. First, we collect the environmental scores of 3,326 A-share listed companies to provide evidence regarding the impact of corporate environmental performance on excess stock returns within the specific context of the Chinese market, contributing to the empirical literature on environmental performance and stock returns. Although some studies have examined the relationship between corporate environmental performance and stock returns, they have mainly focused on developed markets (e.g., de Haan et al. 2012; In et al. 2017; Bolton and Kacperczyk 2021a; Alessi et al. 2021). Emerging economies with high economic growth are often faced with more severe environmental problems, and their underdeveloped capital markets differ in many respects from developed markets. Therefore, how environmental performance affects stock returns in developing countries remains an open question, and we provide relevant empirical evidence that addresses this question based on Chinese market data. Second, this study builds a macro–micro analysis framework of moderating effects, including two mechanisms: climate-change concerns and climate policies, aiming to reconcile the debate on the relationship between environmental performance and stock returns. Given the lack of consensus in existing research on the relationship between environmental performance and stock returns (In et al. 2017; Görgen et al. 2020; Bolton and Kacperczyk 2021a; Alessi et al. 2021), we analyze the causes of green returns in China’s stock market from the perspective of these two mechanisms and provide a possible explanation for this controversial relationship. In particular, we construct a news-based climate-policy index using text mining to measure climate-policy dynamics in China.

The remainder of this paper is organized as follows: Sect. "Hypothesis development" reviews the literature and develops the hypotheses. Sect. "Methodology and data" explains the models and variables used in our empirical analyses. Sect. "Empirical results" presents the main results concerning the relationship between corporate environmental performance and excess stock returns. Sect. "Additional analysis" presents the robustness tests and heterogeneity analyses. Sect. "Conclusion" concludes the paper. Figure 1 illustrates the research process undertaken in this study.

Hypothesis development

The capital asset pricing model (CAPM) proposed by Sharpe (1964) first clearly delineates the relationship between risks and excess returns. CAPM indicates that excess asset returns are determined by the market portfolio’ excess returns and asset exposure to market risks; the market portfolio is also known as the market factor. Ross (1976) proposed arbitrage pricing theory and developed a multifactor pricing model based on CAPM. Since then, researchers have found more factors in excess asset returns, such as the price-to-earnings ratio (Basu 1977), market value (Banz 1981), book-to-market ratio (Fama and French 1993), momentum (Carhart 1997), and profitability (Novy-Marx 2013). With the development of ESG investing, some studies have begun to consider whether ESG is a pricing factor. For example, Maiti (2021) and Gregory et al. (2021) incorporated ESG into asset-pricing models. However, Green et al. (2017) and Hou et al. (2020) examined numerous anomalies proposed by researchers and found that few characteristics could reliably explain excess stock returns. This warns us that research on corporate characteristics and excess asset returns should have a theoretical basis to avoid its becoming data mining of historical data. Therefore, in studying the relationship between corporate environmental performance and excess stock returns, we review the relevant theories and propose our hypotheses based thereon.

Two main finance theories concern the pricing of corporate environmental performance: (i) The existence of green preferences leads to low excess returns on green assets (Pástor et al. 2021). (ii) Carbon-intensive assets are exposed to higher carbon risk (Bolton and Kacperczyk 2021a, 2021b; Oestreich and Tsiakas 2015; Trinks et al. 2022a). First, besides financial utility, investors can derive non-financial utility (Fama and French 2007; Riedl and Smeets 2017). Pástor et al.’s (2021) equilibrium model shows that if investors maximize both financial and green utility when making investment decisions, those with tastes for green assets will require lower excess returns on greener companies’ assets, while those without green tastes will require the same excess returns on the assets of companies with different environmental performances. In this case, green assets have lower excess returns in equilibrium. Second, the risk caused by the uncertainties of the low-carbon economy transition can affect asset pricing, which is called transition or carbon risk (Bolton and Kacperczyk 2021a, 2021b). Climate policies introduced by regulators, such as carbon trading and carbon tax, will increase carbon-intensive companies’ production and operating costs and cause uncertainty about future cash flows (Oestreich and Tsiakas 2015). Therefore, investors will demand more compensation for carbon risk from the assets of companies with poor environmental performance, and the financial market will penalize carbon-intensive companies for negative environmental externalities through higher discount rates on future cash flows (Oestreich and Tsiakas 2015; Trinks et al. 2022a). Extensive research has provided evidence of the carbon-risk premium (Alessi et al. 2021; Bolton and Kacperczyk 2021a, 2021b; Kim et al. 2015; Trinks et al. 2022a). Similar evidence exists in the Chinese market, such as the impact of corporate social-responsibility disclosure on the cost of equity (Li and Liu 2018; Xu et al. 2015) and the impact of corporate environmental performance on debt-interest rates (Du et al. 2017; Ma et al. 2022b). Overall, both the abovementioned theories posit that green assets should have lower excess returns than brown assets under ideal conditions. Therefore, we propose the following hypothesis:

H1

Corporate environmental performance is negatively related to excess stock returns.

However, there is inconsistent evidence for the relationship between corporate environmental performance and stock returns (In et al. 2017; Görgen et al. 2020; Bolton and Kacperczyk 2021a; Alessi et al. 2021). The increasing attention to climate change and gradual promotion of global climate policies are two opposite forces affecting the relationship between corporate environmental performance and excess stock returns, which may lead to inconsistent results based on different market and time samples (Cornell 2021). Therefore, we discuss the impacts of these two mechanisms to provide more insights into the controversial relationship between corporate environmental performance and excess stock returns.

Given the widespread concern about climate change, overheated green preferences can lead to mispricing of corporate environmental performance (Cornell 2021; Pástor et al. 2021). This means that if investors unexpectedly demonstrate a greater green preference, the prices of green assets will rise while those of brown assets will fall, and thus green assets may outperform brown assets (Pástor et al. 2021). There is some evidence that the high green returns in the US in recent years stem partly from the change in green preferences induced by the increased concerns about climate change (Ardia et al. 2020; Pástor et al. 2022; Stotz 2021; Zhang and Wellalage 2022). In China, as people increasingly pay attention to climate-change issues and sustainable investment, we expect climate-change concerns to affect the relationship between corporate environmental performance and excess stock returns. Accordingly, we propose the following hypothesis:

H2

In the context of deeper climate-change concerns, corporate environmental performance positively affects excess stock returns.

Moreover, a growing number of economies are beginning to pursue climate policies to strengthen the market pricing of carbon risk. Carbon pricing and other climate policies directly increase carbon-intensive companies’ regulatory risks (Luo and Tang 2014; Oestreich and Tsiakas 2015). However, companies engaged in low-carbon production activities are not affected by these risks (Dutta et al. 2018; Kumar et al. 2012). Therefore, in light of increasing climate policies, brown assets need to obtain higher excess returns for higher risk compensation relative to green assets’ excess returns (Seltzer, 2022). High-carbon firms’ carbon-risk premiums and costs of capital have increased since the signing of the Paris Agreement, and this effect is greater in regions with strict climate regulations (Bolton and Kacperczyk 2021a, 2021b; Seltzer, 2022). As China has introduced various climate policies in recent years, including carbon trading and climate investment and finance, we expect the implementation of climate policies to increase carbon-risk premiums in the Chinese stock market, especially since the announcement of the dual carbon goals. Based on the above analysis, we propose the following hypothesis:

H3

In times of high climate-policy risk, corporate environmental performance negatively affects excess stock returns.

Methodology and data

Regression model

Main regression

To test H1, we introduce the following base Model (1):

$${RET}_{i,t}={a}_{0}+{a}_{1}{LOGGREEN}_{i,t}+{a}^{\mathrm{^{\prime}}}{Control}_{i,t-1}+{\mu }_{i}+{\gamma }_{t}+{\varepsilon }_{i,t}$$

(1)

where ${RET}_{i,t}$ is company i's excess stock return at the end of month t, and ${LOGGREEN}_{i,t}$ is company i's environmental performance in month t. The vector of control variables includes a set of company characteristics (see SubSect. "Variable definitions"). Because investors make decisions based on historical information, the current month’s stock prices are usually affected by the previous month’s information; thus, traditional Fama–Macbeth and cross-section regressions use explanatory variables with a one-period lag (Fama and MacBeth 1973; Fama and French 2020). Our model setting follows that of Bolton and Kacperczyk (2021a), who adopted carbon emissions in period t and controls in period t-1 as explanatory variables. Similar to carbon-emissions data, E-scores reflect firms’ historical environmental performance; thus, we use E-scores in period t as the key explanatory variable. ${\mu }_{i}$ and ${\gamma }_{t}$ represent industry- and year- or month-fixed effects, respectively. We use robust standard errors at the company level. H1 holds when ${a}_{1}$ is significant and negative, indicating that the stocks of companies with sound environmental performance earn lower excess returns.

Moderating effect

To test the moderating effect of climate-change concerns, we add the interaction between climate-change concerns and environmental performance into Model (1) and propose the following extended Model (2):

$${RET}_{i,t}\;=\;{a}_{0}+{a}_{1}{LOGGREEN}_{i,t}+{a}_{2}{CONCERN}_{t}+{a}_{3}{CONCERN}_{t}\times {LOGGREEN}_{i,t} +{a}{\prime}{Control}_{i,t-1}+{\mu }_{i}+{\gamma }_{t}+{\varepsilon }_{i,t}$$

(2)

where ${CONCERN}_{t}$ represents climate-change concerns in month t. If ${a}_{3}$ is significant and positive, H2 holds, which indicates that the stocks of firms with sound environmental performance perform better in times of heightened climate-change concerns.

To test the moderating effect of climate policies, we add the interaction between the climate-policy index and environmental performance to Model (1) and propose the following extended Model (3):

$${RET}_{i,t}\;=\;{a}_{0}+{a}_{1}{LOGGREEN}_{i,t}+{a}_{2}{POLICY}_{t}+{a}_{3}{POLICY}_{t}\times {LOGGREEN}_{i,t} +{a}{\prime}{Control}_{i,t-1}+{\mu }_{i}+{\gamma }_{t}+{\varepsilon }_{i,t}$$

(3)

where ${POLICY}_{t}$ denotes the climate-policy index in month t, a proxy for climate-policy stringency in China. H3 holds when ${a}_{3}$ is significant and negative, indicating that environmentally responsible firms’ stocks will perform poorly when climate-policy stringency is high.

Last, we use lagged moderating variables in Models (2) and (3) to examine the lagged effects of climate-change concerns and climate policies on excess stock returns. We use the official linear regression command on the Stata 17 software for Models (1)–(3).

Data

Corporate environmental performance

Previous studies typically use either carbon-emissions (Bolton and Kacperczyk 2021a, 2021b; Castro et al. 2021; In et al. 2017; Kim et al. 2015; Trinks et al. 2022a) or ESG (Engle et al. 2020; Görgen et al. 2020; Pástor et al. 2022) data to measure corporate environmental performance related to climate change. Currently, firms’ carbon-emissions data are still mainly voluntarily disclosed. For example, the Carbon Disclosure Project (CDP) collects firms’ greenhouse-gas emissions information through annual questionnaires. The ESG data from third-party evaluation have the advantages of reliability and comprehensive sample coverage. In addition, ESG data contain a wide range of climate-change-related information and can reflect corporate exposure to climate risk. For example, Engle et al. (2020) used E-scores to model firms’ climate-risk exposures and found that portfolios constructed based on E-scores performed well in hedging climate-change news. Therefore, considering data availability, this study uses E-scores from the QuantData ESG dataset to measure listed Chinese companies’ environmental performance. QuantData is a local ESG rating agency in China that collects corporate data on ESG issues through company disclosures, government-regulation reports, and third-party platforms. It covers almost all A-share and H-share stocks and China Concept Stocks and has been providing monthly ESG data since 2014. In the environmental dimension, corporate performance is comprehensively assessed based on four aspects: environmental management, energy-conservation policy, environmental emissions, and climate change. Specifically, QuantData E-scores include 52 indicators, such as greenhouse-gas emissions, total energy consumption, renewable-energy consumption, environmental-protection investment, environmental penalties, emission permits, supply-chain climate risk, fossil-fuel income, and business detrimental to biodiversity, indicating that QuantData E-scores can widely reflect a company’s climate-risk exposures and climate-change mitigation efforts. Given the varying importance of indicators across industries, QuantData has developed a specific indicator-weighting scheme for each industry. An E-score is the weighted sum of indicators ranging from 0 to 100. A higher E-score suggests that a company is more environmentally friendly.

Figure 2 shows the mean and number of QuantData E-scores over time. The average E-score for A-share companies trends upward, revealing that Chinese companies are paying increasing attention to the implementation of corporate environmental responsibility. There are several regular and discontinuous breaks in the two trends. This may be attributed to the fact that Chinese listed companies are required to disclose their previous year’s annual reports between January and April each year, and QuantData usually adjusts the ESG scores during this period. The number of companies represented in the QuantData ESG dataset in January and February 2014 is relatively small; since then, the number has surged. To avoid sample-selection bias, we use March 2014 to November 2021 as the sample period, covering 3,326 companies with a total of 221,500 monthly observations.

Climate-related indices

A growing number of studies have used news-based indices to measure policy information. Faccini et al. (2021) developed four novel proxies for US climate policy, international summits, natural disasters, and global warming by conducting a topic-model analysis of climate-change news over the period 2000–2018. Baker et al. (2016) built an index of economic-policy uncertainty by searching for keywords in the news. The same method is also used to measure monetary-policy (Husted et al. 2020), climate-policy (Gavriilidis 2021), and environmental-policy (Noailly et al. 2022) uncertainty. We construct China’s climate-policy index using Baker et al.’s (2016) method. We select three major newspapers—People’s Daily, Economic Daily, and Guangming Daily—as news sources and obtain the news text data from WiseSearch.^{Footnote 1} These three newspapers are all authoritative, comprehensive, central newspapers in China and are thus suitable for constructing policy indices (Davis et al. 2019; Yu et al. 2021). These sources report numerous climate-change news items, ranking among the top 10 in 2021, according to WiseSearch. Furthermore, we employ a term framework to describe climate policies, which divides the climate category into three dimensions—climate change, greenhouse-gas emissions, and energy—and divides the policy dimension into three dimensions—policy term, government agency, and national leader. We count the word frequency of news containing the Chinese equivalents of “climate change” and “policy” and then manually screen words related to the above six dimensions from the high-frequency words to complete our term sets.^{Footnote 2} Table 1 presents the terms and their English translations. Next, we obtain monthly counts of articles containing at least one term from each of the two term sets: climate and policy. The climate-policy index is the ratio of the number of searched articles relative to the total number of published articles. In addition, the Baidu Index is a data-sharing platform built on extensive online user-behavior data and has been employed to capture investor attention (Fang et al. 2020; Guo et al. 2020; Zhang et al. 2021). We collect Baidu-search index data using the Chinese word for “climate change” as a keyword and build the climate-change concerns index.^{Footnote 3}

Table 1 Term sets for climate-policy index

Excess stock returns and corporate environmental performance in China

Abstract

Introduction

Hypothesis development

H1

H2

H3

Methodology and data

Regression model

Main regression

Moderating effect

Data

Corporate environmental performance

Climate-related indices

Variable definitions

Descriptive statistics

Empirical results

The relationship between environmental performance and excess stock returns

The moderating effect of climate-change concerns

The moderating effect of climate policies

Additional analysis

Confounding factors

Reverse causality

ESG-data replacement

Firm-size effect

Industry heterogeneity

Green-technology innovation

Conclusion

Availability of data and materials

Notes

Abbreviations

References

Acknowledgements

Funding

Author information

Authors and Affiliations

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Competing interests

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