1. Introduction
There is growing evidence of environmental deterioration in various parts of the world, primarily attributed to human activities. Responding to this global concern, the United Nations introduced the Sustainable Development Goals (SDGs) in 2015, emphasizing economic security and environmental sustainability across diverse domains. Specifically, Goals 6, 7, 12, 13, 14, and 15 of the SDGs highlight the significance of environmental sustainability. Despite the potential economic gains associated with entrepreneurship, not all entrepreneurial endeavors align with the principles of environmental sustainability. Consequently, questions surrounding the impact of entrepreneurship on environmental quality and strategies to ensure ecologically responsible entrepreneurial practices have become pivotal in conversations about economic growth and sustainable development. Recent studies indicate that entrepreneurship activities could yield positive environmental outcomes [
1,
2], yet concerns persist regarding potential negative effects [
3,
4,
5].
Greenhouse gas emissions, as result of economic activities, are closely linked to climate change, causing more frequent and intense extreme weather and climate events globally, such as heatwaves and large storms [
6]. Reducing greenhouse gas emissions is critical to mitigating the impacts of climate change [
7]. Interestingly, the United States and China, which were among the top greenhouse gas emitters in 2015, are considered the countries with the most favorable conditions for innovation and entrepreneurship [
8]. This suggests that the world’s two largest carbon dioxide emitters are also leaders in business, technology, innovation, and entrepreneurship indicators. Therefore, investigating the link between emissions and entrepreneurship is crucial from a sustainability perspective. Entrepreneurial action is increasingly recognized to preserve ecosystems, counteract climate change, and address environmental challenges [
9,
10].
The economic literature has extensively documented the role of entrepreneurship as a driver in transforming political, economic, and social systems. Numerous studies have delved into how entrepreneurship can contribute to solving challenges related to sustainable development [
11,
12,
13]. Given this context, entrepreneurship is widely recognized as a crucial source in delivering sustainable processes, products, and services, driving progress toward a green economy. A multitude of new projects are emerging as solutions to diverse environmental and social concerns, underscoring entrepreneurship’s potential impact [
11,
14,
15].
Despite the growing attention to this topic, most of the literature on the business–sustainability nexus has focused on how sustainable development affects competitive advantage, how businesses can reduce their environmental impact, and how innovation promotes sustainability transitions [
11]. For example, Cohen and Winn [
9] identified four types of market imperfections that contribute to environmental pollution and create significant entrepreneurial opportunities for developing a sustainable entrepreneurship model. This process could slow down environmental degradation and gradually improve the Earth’s ecosystems. In another study on the role of entrepreneurship in sustainable development, Hall, Daneke and Lenox [
12] affirmed entrepreneurship as a solution for environmental problems but suggested that further research is needed to investigate the extent to which entrepreneurs can establish sustainable economies. Similarly, York and Venkataraman [
16] argued that, under certain conditions, entrepreneurship can contribute to environmental sustainability instead of driving environmental degradation. Their analysis was based on a model that incorporated the ability of entrepreneurs to complement regulation, corporate social responsibility, and activism in addressing environmental challenges.
Meanwhile, only a few studies have analyzed the issue of environmental sustainability from an entrepreneurship perspective, such as Dean and McMullen [
10], Hall, Daneke and Lenox [
12], Pacheco, et al. [
17], Dhahri and Omri [
11], Omri and Afi [
13], Nguyen, Kim and Su [
5], and most of these studies were conducted for developed countries. (The two exceptional cases here are Dhahri and Omri [
11], which examined 20 developing countries, and Omri and Afi [
13], which explored 32 developing countries). In this study, we focus on the Asia-Pacific region, which is known for its variety, consisting of a blend of established economies, developing markets, and emerging nations.
This study aims to contribute to the literature investigating the impact of entrepreneurship on environmental sustainability in the Asia-Pacific region. Examining the relationship between entrepreneurship and environmental sustainability in this region is crucial for several reasons. Firstly, the Asia-Pacific region contains some of the world’s fastest-growing economies, with entrepreneurship being a significant contributor to economic growth. Secondly, this region faces severe environmental challenges, such as air and water pollution, deforestation, and climate change. Thirdly, entrepreneurship can provide innovative solutions to these environmental issues and promote sustainable development. By comprehending the role of entrepreneurship in achieving environmental sustainability in the Asia-Pacific region, policymakers, business leaders, and researchers can devise effective strategies and policies to foster sustainable economic growth and preserve the region’s natural resources for future generations.
Specifically, the research objectives are as follows:
To examine whether the impacts of entrepreneurship and other potential determinants differs across various environmental performance indicators in the Asia-Pacific region;
To investigate whether the impact of entrepreneurship and other potential determinants differs across different sectors of the economies in the Asia-Pacific region.
The study tests two hypotheses:
Hypothesis 1:
The impact of entrepreneurship on environmental indicators varies across different types of environmental performance indicators in the Asia-Pacific region.
Hypothesis 2:
The impact of entrepreneurship on the environment varies across various sectors of the economy in the Asia-Pacific region.
Our study offers significant contributions through its rigorous testing framework and methodological approach. Previous empirical studies examining the influence of entrepreneurship on sustainability matters, particularly environmental performance, often amalgamate a few core variables within their models for empirical assessment. However, our baseline model rests upon a solid theoretical underpinning that integrates the environmental repercussions of socio-economic activities, utilizing the STIRPAT model. Moreover, our empirical analysis tackles several pivotal aspects of panel data modeling, including cross-sectional dependence, endogeneity, stationarity, and variable cointegration, in order to attain outcomes that are both precise and resilient.
The study focuses on investigating the effects of entrepreneurship on environmental performance, including emissions, drinking water, and tree cover, as well as sectoral emissions, in 28 Asia-Pacific countries from 2006 to 2019. Using the Pooled Mean Group (PMG) estimator as a panel data estimation method in the context of the Autoregressive Distributed Lag (ARDL) model to analyze the data, we specifically examine sectoral emissions and find that while entrepreneurship has no significant short-term effects on CO2 emissions, it does have significant long-term effects on emissions in agriculture and industry. The study suggests that the impact of entrepreneurship on the environment changes from low-income to high-income countries. We also find that entrepreneurship activities with innovation in the industrial sector can improve energy efficiency and reduce industrial emissions, but activities with natural resource rents, such as large land use or forest rents, can cause environmental degradation. Finally, we explore the effects of entrepreneurship density on other aspects of environmental quality, such as biodiversity and water quality.
The rest of this paper is organized as follows.
Section 2 offers a comprehensive literature review of the concepts of entrepreneurship and environmental sustainability, delving into their interconnections.
Section 3 outlines the model, data, and variables employed in the study, along with the applied empirical techniques. In
Section 4, the empirical results are presented and discussed. Lastly,
Section 5 concludes the study while exploring its implications.
4. Results and Discussion
Our estimation results are displayed in
Table 6 and
Table 7.
Table 6 illustrates the impact of entrepreneurship density on sectoral emissions, while
Table 7 presents the effect of entrepreneurship density on different indicators of environmental quality. It is worth noting that the error correction terms (ec) in the estimates are largely statistically significant, and their absolute values are less than one. This indicates that the application of our estimates is appropriate, and short-term changes in dependent variables are moving toward the long-term trend.
Table 6 shows that entrepreneurship density (
D.lent) has no statistically significant short-run effects on CO
2 emissions in all three economic sectors: agriculture, industry, and service (models 1, 2, and 3, respectively). However, entrepreneurship density (
lent) appears to have statistically significant effects on CO
2 emissions in agriculture and industry in the long run. Increases in entrepreneurship density appear to induce agricultural emissions (model 1) and reduce industrial emissions (model 2) in the long run. The results imply that entrepreneurship activities can have both positive and negative effects on the environment. On one hand, entrepreneurship activities can be good for the environment by reducing industrial emissions, but, on the other hand, they can be bad by inducing agricultural emissions. More importantly, these effects are long-term. The results effectively validate our Hypothesis 2, demonstrating that entrepreneurship has varying impacts on the environment across the three economic sectors: industry, agriculture, and services.
These findings provide novel insights into the intricate connection between entrepreneurship and the environment, particularly concerning sectoral emissions. Previous studies have debated the pros and cons of entrepreneurship for the environment [
28]. This study adds that the positive and negative impacts of entrepreneurship activities on the environment can be clearly defined through the view of sectoral emissions. It is important to note that economists mostly agree that entrepreneurship activities are associated with innovation and creativity, which can improve economic efficiency [
53], thus benefiting the environment. Meanwhile, entrepreneurship activities have also been found to be linked with higher natural resource rents [
59]. The findings of this study imply that these arguments are not contradictory when considered from the viewpoint of sectoral entrepreneurship and its interaction with the environment. Entrepreneurial endeavors that encompass innovation and creativity are predominantly located within the industrial sector. In this context, they have the potential to enhance economic efficiency, particularly in terms of energy consumption efficiency. For instance, Chatterji, et al. [
78] emphasized that entrepreneurship clusters in the United States are strongly associated with new technologies and the industrial sector, which could reduce industrial emissions.
In contrast, entrepreneurship activities with natural resource rents, such as large land use or forest rents, can cause environmental degradation, as evidenced by the inducing effect of entrepreneurship density on agricultural emissions. In fact, the development of other sectors with entrepreneurship would attract labor from the agricultural sector [
79], which would prompt farmers to use more machines in their agricultural activities, leading to the exploitation of more land or other types of natural resource rents. Although there have been some positive changes in agricultural entrepreneurship toward social responsibility or environmental protection [
80], the nature of agricultural activities and entrepreneurship activities in agriculture appears to be linked to the more intensive use of machines to replace human labor. Thus, increases in entrepreneurship density in general are likely to increase agricultural emissions. Finally, it is worth reaffirming that these effects are long-term ones, as entrepreneurship activities take time to establish a new business and exert changes in economic systems.
In addition to these findings, models 4, 5, and 6 in
Table 6 provide further insights. In these models, we interact entrepreneurship density (
lent) with the income variable (0 for low-income countries, 1 for lower-middle-income countries, 2 for upper-middle-income countries, and 3 for high-income countries). All interaction terms (
int) are statistically significant. To examine the effect of entrepreneurship density on sectoral emissions by income level, we calculate the net effects (the coefficient of
lent plus the coefficient of the interaction term [
int] multiplied by the value of the income variable). The net effects by income level are presented in the last rows of the long-run effects. The findings indicate that the influence of entrepreneurship density on sectoral emissions varies between low- and lower-middle-income countries and upper-middle and high-income countries. In the latter group, entrepreneurship density exhibits a positive effect on agricultural emissions and a negative effect on industrial emissions. Conversely, in low- and lower-middle-income countries, entrepreneurship density has a negative impact on agricultural emissions and a positive impact on industrial emissions. These results suggest a significant shift in the nature of entrepreneurial activities as countries transition from low-income to high-income statuses within the Asia-Pacific region. As income levels rise, entrepreneurship activities appear to contribute to environmental harm in terms of agricultural emissions, while concurrently exhibiting a favorable effect in terms of industrial emissions. This trend aligns with the ongoing economic growth patterns observed in the region.
It should be noted that entrepreneurship activities in upper-middle and high-income countries with well-developed economic structures, such as financial development and government policies, are more likely to support high-technology entrepreneurship [
81], which can improve economic efficiency, especially in industrial sectors. Meanwhile, entrepreneurship activities in low- and lower-middle-income countries with lower economic development and less developed economic infrastructure may not be feasible with high-technology businesses. Instead, entrepreneurs in these countries may focus on manufacturing activities or even natural resource exploitation, without much consideration for the environment [
82], resulting in high emissions.
As discussed, a simplistic view of the effects of entrepreneurship activities on the environment through emissions may lead to biased conclusions.
Table 7 provides interesting findings on the effects of entrepreneurship on various environmental quality indicators.
The results indicate that entrepreneurship density in the short run (
D.lent) does not have statistically significant effects on the environment, except for one case: tree cover loss. Entrepreneurship density appears to have a significant positive effect on tree cover loss in the short run (model 3). In contrast, entrepreneurship density in the long run (
lent) appears to have a significant negative effect on tree cover loss. It also has a negative effect on PM2.5 exposure in the long run, while having positive effects on CO
2 emissions and unsafe drinking water in the long run. Once more, these findings validate our Hypothesis 1, asserting that the effects of entrepreneurship would diverge across different indicators of environmental performance. It is interesting to note that entrepreneurship density in the long run would induce higher CO
2 emissions. This means that the contrasting effects of entrepreneurship density on emissions in industry and agriculture, in the long run, are unified into a positive effect of entrepreneurship density on total CO
2 emissions. This finding is consistent with the study of Ben Youssef, et al. [
83], while it is the opposite of other studies such as York and Venkataraman [
16]. This result can be explained by two possible channels: (i) entrepreneurship density has an insignificant positive effect on CO
2 emissions in services (see
Table 6—model 3), which could add to the effects on industrial and agricultural emissions, resulting in an increase in total CO
2 emissions in the long run; (ii) the long-run positive effect of entrepreneurship density on agricultural emissions has a stronger marginal effect than the long-run negative effect of entrepreneurship density on industrial emissions. Regardless of the explanation, the result provides new evidence in the literature of the nexus between entrepreneurship density and the environment, supporting the negative impact of current entrepreneurship activities. This is in line with some recent studies, such as Canh Nguyen, Nguyen, Thanh and Kim [
4].
More interestingly, the findings show that entrepreneurship activities still have pros and cons for environmental sustainability in the long run by reducing tree cover loss and air pollution (PM2.5), but it has the side effect of increasing unsafe drinking water. Again, the findings provide very interesting evidence to contribute to the debates over the pros and cons of entrepreneurship. That is, entrepreneurship activities with strong linkages to innovation and creativity, especially technologies, would help to improve environmental quality in the long run, such as forest protection or the reduction of air pollution. In fact, these effects can be understood since there are several innovations and entrepreneurship activities with new technologies in terms of social and environmental protections [
84]. However, there is a surprising result that entrepreneurship density increases unsafe drinking water. This raises serious concerns and calls for future studies on entrepreneurship activities and water quality.
Similar to the case of sectoral emissions, the interaction terms between entrepreneurship density and income variables (0: low income, 1: lower-middle income, 2: upper-middle income, and 3: high income) are estimated and presented in models 5, 6, 7, and 8 in
Table 7. The net effects are also calculated. Some interesting findings are noticed, as follows: (i) entrepreneurship could reduce total CO
2 emissions in low-income countries, but its effect is degraded when income levels increase, and it could even increase CO
2 emissions in high-income countries; (ii) the increasing effect of entrepreneurship on unsafe drinking water appears to be dominant in low-income levels; (iii) the positive effects of entrepreneurship on the environment by reducing tree cover loss or air pollution are also dominant in lower-income countries. These results add further findings that the effects of entrepreneurship density on the environment vary across income levels. This is, in fact, in line with several previous studies that have shown that the effects of economic factors on the environment vary across income levels [
55,
63]. These differentiations might be due to the different priorities of government policies toward economic development and entrepreneurship, differences in market opportunities and competition, and differences in economic and social infrastructures [
33,
51]. This calls for further comparative studies on the motivations for entrepreneurship across income levels.
5. Concluding Remarks
The study investigates the impact of entrepreneurship on the environment across various economic sectors for 28 Asia-Pacific countries, utilizing the ARDL model and the PMG estimator as panel data analysis methods. Overall, the study affirms the hypotheses regarding entrepreneurship’s influence on environmental sustainability, supported by both environmental indicators and sectoral emissions.
Specifically, the study finds that entrepreneurship density does not exert short-term effects on CO2 emissions in any of the three economic sectors, but it does yield significant long-term effects on CO2 emissions in agriculture and industry. The research suggests that entrepreneurship activities can generate both positive and negative environmental consequences, and these effects persist over time. Furthermore, the character of entrepreneurship activities evolves as countries transition from low- to high-income statuses. In low-income settings, entrepreneurship seems to negatively impact the environment in terms of agricultural emissions as income levels rise, while it positively influences industrial emissions with increasing income levels.
According to the study, the relationship between entrepreneurship and the environment is intricate and defies easy categorization as solely positive or negative. This complexity yields several implications. Firstly, dependent on the industry and a country’s economic stage, entrepreneurship can elicit both favorable and unfavorable environmental outcomes. As a result, policymakers and stakeholders must carefully deliberate on the environmental ramifications of entrepreneurship and institute policies fostering sustainable entrepreneurship. Secondly, this research, conducted in the Asia-Pacific region, underscores that the environmental impact of entrepreneurship is contingent on a country’s developmental level. Consequently, a universal solution does not exist for all nations. In developed economies, encouraging high-tech entrepreneurship can enhance economic efficiency and decrease industrial emissions. In contrast, in low- and lower-middle-income countries, promoting forms of entrepreneurship that prioritize environmental preservation becomes crucial. Policies that stimulate innovation and creativity within the industrial sector while simultaneously addressing the adverse effects of natural resource exploitation in agriculture could yield substantial environmental benefits.
In summary, this study underscores the significance of a nuanced comprehension of the interplay between entrepreneurship and the environment. It highlights the necessity of factoring in sectoral and country-specific intricacies when shaping policies and strategies to foster sustainable entrepreneurship.
In this study, entrepreneurship density is utilized as a measure for entrepreneurial activities, a widely accepted concept in the literature that indicates a registered business engaged in formal economic endeavors. However, it is important to recognize that other manifestations of entrepreneurship, like early-stage entrepreneurial activities, exist and may not be formalized into registered businesses [
31]. Given the heterogeneous nature of entrepreneurship, a limitation of this study lies in its incapability to differentiate the impacts of various entrepreneurial types on environmental performance due to the lack of country-level data.
Consequently, future investigations could delve into the potential contributions of these diverse entrepreneurial activities to environmental sustainability. This presents a prospect for forthcoming research to concentrate on specific entrepreneurial types or structures, shedding light on their influence on environmental sustainability both at national and regional scales. Additionally, considering the differing motivations for entrepreneurship across countries, particularly across different income levels, future studies incorporating these motivations could offer deeper insights into the subject as relevant data become accessible.