1. Introduction
According to the Second National Pollution Source Census Bulletin jointly released by the Ministry of Ecology and Environment, the National Bureau of Statistics, and the Ministry of Agriculture and Rural Affairs in June 2020, in 2017, the emissions of chemical oxygen demand, ammonia nitrogen, total nitrogen, and total phosphorus, which made up the water pollution emissions from the livestock and poultry breeding industry, were 10.5 million tons, 11.9 million tons, 59.6 million tons, and 12.0 million tons, respectively, accounting for the agricultural sources of water pollutant emissions. The livestock and poultry farming industry has become an important source of pollution in the agricultural industry. As an important part of the livestock industry, dairy cattle are the third largest producer of pollution after pigs and beef cattle. From the perspective of pollutant production, the annual manure production of dairy farming in 2020 was as high as 133,243,000 tons, accounting for 48.2% of the total manure production of animal husbandry, which is a veritable livestock farming “major polluter”. From the perspective of carbon constraint, the livestock sector accounts for about 15% of total global carbon emissions, and 61% of carbon emissions in the livestock sector come from raising cattle [
1]. In 2018, GHG emissions from the livestock sector in China were about 0.3 megaton CO
2-eq, of which dairy farming accounted for about 13.3% [
2]. Related studies have also shown that the annual ecological damage caused by greenhouse gases from ruminants such as beef cattle, dairy cattle, and sheep is 29% of the total annual ruminant production [
3]. It can be seen that in terms of solving environmental pollution in dairy farming and promoting the green transformation of dairy farming, it is not only an essential requirement to have the high-quality development of dairy farming, but also to have an important performance of a “responsible power” under the constraints of the “emission peak and carbon neutrality goals”.
Green transformation is an inherent requirement for promoting high-quality economic development [
4], and “emission reduction” as well as “efficiency enhancement” should be considered. The green transformation of the dairy farming industry and the overall green transformation of economic and social development must happen simultaneously. Combined with the dynamic characteristics of the farming system, the final aim is the continuous rationalization of resource allocation, pollution emission reduction, production efficiency, and environmental awareness of the farming subject. However, due to the public properties of the ecological environment itself and the negative externalities of environmental pollution, it is difficult for the market mechanism to effectively solve the problem of the environmental pollution of livestock and poultry breeding, and the government needs to “give a hand” through environmental regulation [
5]. Government policies, regulations, and even environmental inspections are essential environmental regulations [
6]. The practice shows that since 2000, China has gradually built an environmental regulation policy system that includes compulsory orders, economic incentives, and persuasion, together with education, to control pollution from livestock and poultry farming. However, on the one hand, most of these studies have focused on the environmental problems of pig farming and ignored dairy farming, which also is a “major polluter”. On the other hand, even if the farming environment regulation policy system gradually improves, the farming environment pollution problem still has not been effectively curbed. Therefore, the following questions are put forward: Is there a problem with environmental regulation itself? Does the introduction of environmental regulation provide incentives for dairy farming subjects to engage in a green transformation of production, or are environmental regulators captured by special interests? How should the regulatory role of environmental regulators be defined? These will be the scientific questions tackled in this paper.
The papers directly related to this study focus on these aspects: First of all, the connotation of environmental regulation is studied. Regulation, also known as government regulation or control, is a mechanism designed by the government to restrain and restrict certain economic activities of regulated subjects for the overall welfare of society and achieve the redistribution of social resources through administrative intervention. Walter et al. firstly focused on environmental regulation and put forward the “pollution paradise hypothesis” [
7]. Albrizio et al. pointed out that highly polluting and inefficient firms would lose their comparative advantage in developed regions with high environmental quality requirements and would generally move to less developed regions where environmental regulations are more lenient [
8]. Since then, environmental regulation has become a hot topic in academic circles with the aim to solve environmental pollution problems [
9,
10]. Environmental regulation generally includes formal and informal environmental regulations according to the classification [
11]. Formal environmental regulations include command and market incentives and informal environmental regulations include public participation and voluntarism. In terms of environmental regulation of livestock and poultry farming, although there is no clear connotation, common sense refers to the pursuit of economic maximization by farming subjects at the expense of ecological optimization, forcing the government to take the necessary regulation or control means to restrain, stimulate, or guide the way to supervise farming subjects to implement the resource utilization of farming waste and reduce the damage to the environment [
12,
13].
Secondly, the resource utilization of livestock and poultry breeding waste is studied. The livestock breeding process will unavoidably produce many undesired outputs, including manure discharged by livestock, food residues, breeding sewage, barn bedding, scattered feathers, and others [
14]. Therefore, waste resource utilization is essential for alleviating the environmental pollution of livestock and poultry breeding in the future [
15]. It is necessary to transform livestock and poultry farming waste into energy products and inputs for the planting industry through technical or management measures to achieve a healthy cycle between the planting industry and farming industry. Extensive academic research on the factors influencing the willingness of farming subjects’ waste resource utilization has led to the following three influential characteristics: One of them is the production and operation characteristics of the farming subject, including the scale of livestock and poultry farming [
16], the business model [
17], organizational relationships [
18], etc. The second is the psychological characteristics of the farming subject, including environmental risk perception [
19], resource utilization perception [
20], revenue risk prediction [
21], etc. The third is the external environmental characteristics of the farming subject, including social capital, the degree of agricultural marketization, public relationships, technology accessibility, and others [
22,
23].
Finally, the influence of environmental regulations on the decisions regarding waste resource utilization of farming subjects is studied. Based on the division of the Organization for Economic Cooperation and Development, the relevant environmental regulations are divided into two types, namely, the licensing system and subsidy system [
24]. At present, the government usually implements subsidy policies to encourage farming subject entities to utilize waste resources [
25]. Farming subjects are not only the targets of environmental regulation interventions, but also the implementers and beneficiaries of waste resource utilization [
26]. In the process of enforcing regulations, the government grants subsidies to farming subjects to achieve the goal of “emission reduction”, which raises the level of environmental investment of farming subjects, reduces the influence from the external economy or external diseconomy, and further stimulates farming subjects to participate in reducing pollution [
27]. After exploring the conclusion that environmental regulations can effectively drive the waste resource utilization of farming subjects, scholars have further studied the impact of different types of environmental regulations on the waste resource utilization decisions of farming subjects. Xu et al. pointed out that in rural areas where constraint-based environmental regulations are ineffective, guidance-based environmental regulations may have significant effects on promoting farming subjects to consciously practice pro-environmental behaviors [
28]. Li et al. found that the hybrid environmental regulation (constraint + incentive) is more helpful to achieve the resourcefulness of waste by farming subjects [
29]. Li et al. pointed out that some people argued that constrained environmental regulations are more effective than incentive-based environmental regulations in stimulating waste resource utilization decisions of farming subjects [
26]. Zhu et al. concluded that guidance, constraint, and incentive environmental regulations have a significant impact on the decisions made around manure resource utilization by large-scale farming subjects, but the guidance environmental regulation plays the largest role [
30]. At the same time, other scholars have included environmental regulations as a moderating variable in the analytical framework to conduct research [
31,
32].
The research results above provide useful empirical references for this study, but there is also space for further exploration: First of all, the resource utilization of livestock and poultry farming waste is not the same as the green transformation of production; resource utilization emphasizes the “terminal treatment” and ignores the “source reduction” and “process control”, which are necessary to define the connotation of green transformation of dairy farming subject production. Secondly, studies have been conducted on the impact of environmental regulations on the decision making around waste resource utilization by farming subjects, mostly based on empirical evidence, which has significant practical guidance. However, the regulatory role of the subject of environmental regulation (i.e., the environmental regulator), has not been clarified, and a deeper exploration of this issue can effectively explain “why ”there is still so much pollution“ although so many environmental regulation policies are made”. Thirdly, the research has not yet addressed the issues of “forced transformation” and “regulation capture” of livestock and poultry farming. The quality and safety of dairy products need to be strictly controlled. Under the support of national policies, the current proportion of large-scale dairy farms that produce milk has been as high as 61.4% [
33], and most of the subjects have been qualified for the enterprise. They are highly susceptible to rent-seeking behavior and regulatory capture, and thus, an in-depth study of this issue is also useful to explore the effects of environmental regulation.
Because of this, this paper examines the issue of environmental regulation and the green transformation of dairy farming subject production, explores whether they are “forced transformation” or “regulation capture”, and innovatively introduces the reputation mechanism, which takes the constraints and expected benefits of reputation for both the government and the dairy farming subject into account, changing the general phenomenon of “governance over prevention and control” in previous studies. The concrete structure of the paper is as follows: the second section is a theoretical analysis; the third section is the research design; the fourth section is a model solution and result analysis; the fifth section is a further discussion; and the sixth section is the conclusion.
Compared to previous studies, the possible marginal contribution of this paper is reflected in two aspects: First of all, the concept of green transformation of the production of dairy farming subjects is clearly defined and combined with established theory and field experience, the economic ideas of “subject substitution”, “emission reduction”, and “efficiency enhancement” are introduced in this paper, and the evaluation criteria of green transformation of dairy farming subjects are given. Secondly, the interaction mechanism between the environmental regulation and green transformation of the production of dairy farming subjects is systematically demonstrated. This paper constructed a dynamic game model between the government and dairy farming subjects based on game theory, and the constraints and benefits of the reputation mechanism on the behavior of both are introduced into the model to explore whether environmental regulation can drive the green transformation of dairy farming subject production.
3. Methods
3.1. Theoretical Introduction
The policy concept of behavioral economics emphasizes the stimulation of social preferences for members of society, rather than relying exclusively on material rewards and punishments [
45]. Behavioral economists do not deny the existence of rationality, but at the same time, behavioral economists are appealing to the importance of intuition and emotion. Behavioral economics offers the concept of “boosting” oriented policy design to effectively stimulate people’s intrinsic social preferences, which means that some behavioral interventions are imposed on members of society at a low cost to stimulate their intrinsic social preferences and change their behavior in the direction of improving social welfare. In his book,
Human Agency and Behavioral Economics: Nudging Fast and Slow, Cass R. Sunstein focuses on the scientific implications of “boosting” in human behavioral decision-making processes [
46]. He suggests that boosting considers both human motivation and control, and that through the design of some mechanisms, people can be motivated to induce certain behaviors that are consistent with specific goals, but without compromising their freedom of choice.
As described by the essential connotation of behavioral economics, the green transformation of dairy farming subject production is a behavioral decision that determines whether the dairy farming subject participates in the green transformation of production or not. According to behavioral economics, the essence of economic activities in any industry is the process of human economic behavior, and human behavior is often short-sighted to the “invisible” future, even if the returns may be higher, while also reluctant to take risks. For dairy farmers to participate in the green transformation of production, the base period investment may be higher than the expected benefit, and this “uneconomical” investment will seriously affect the behavioral decisions of dairy farming subjects. Under the market mechanism, whether it is the reduction of antibiotics at the source of dairy farming, the procurement of environmentally sound equipment in the process, or the end of resource-based equipment, all reflect the characteristics of high cost and high risk, often not favored by dairy farming subjects. In particular, for small and medium-sized farming enterprises (farms) limited to cost–benefit considerations, there is a long way to go to achieve the standard of green transformation of production. Environmental regulation at the institutional level and reputation mechanisms at the government and social levels are needed to regulate and guide the cognitive process of dairy farming subjects, intervene in their production decisions, and motivate them to change their behavior to collectively rationalize and achieve the goal of the green transformation of dairy farming.
The trade-off between the goal of the green transformation of dairy farming and the participation of dairy farming subjects in the green transformation of production is usually considered to be between social welfare and private costs. However, the questions are: How can we effectively weigh the public’s desire for an eco-friendly society against the economic costs to be borne by polluting farming entities to produce a green transformation? How should the impact of government environmental regulation on the green transformation of dairy farming subject production be perceived? Can environmental regulations have a binding effect on the non-production green transformation choices of dairy farmers? Has the introduction of a series of environmental regulation policies motivated dairy farming subjects to take effective and innovative initiatives to engage in the green transformation of production or is there indeed a persistence of pollution due to the capture of environmental regulators by special interest groups? If an effective incentive can be achieved, dairy farming subjects will have to implement a green transformation of production in accordance with the environmental regulators of the government, which means that environmental regulations achieve the goal of “forced transformation”. However, if effective incentives are not realized, the rent-seeking behavior of the dairy farming subject achieves its goal, and environmental regulators would obtain “regulation capture”; therefore, the question of how to make environmental regulation effective needs to be reconsidered.
Based on the analysis above, this paper will construct a dynamic game model between the enforcer of environmental regulation, the environmental regulator, and the enforced, the dairy farming subject, from the perspective of game theory. Among the actions involved by environmental regulators are inspections and non-inspections, “regulation capture” and no “regulation capture”. The dairy farming subject is involved in behaviors that include participating in the green transformation of production and not participating in it, or rent-seeking and not rent-seeking. This paper also introduces reputation mechanisms into the model to further enhance the understanding of the impact of environmental regulations on the green transformation of dairy farming subject production.
3.2. Research Hypothesis
In a general sense, the government has a principal–agent relationship with environmental regulators. The government is the principal and the environmental regulator is the system agent. The government has delegated its rights to environmental regulator authorities in the hope that under the constraints of strict environmental regulations, environmental regulators can enforce the law according to the rules and urge dairy farming subjects to participate in the green transformation of production in order to accelerate the goal of the green transformation of dairy farming. Therefore, the environmental regulator is the one who has the discretion to judge whether the dairy farming subject is involved in the green transformation of production, and will rely on that discretion to decide whether to enforce penalties on the dairy farming subject. For this reason, a series of theoretical and practical research hypotheses need to be made before the construction of the specific model in order to better analyze the interaction mechanism between environmental regulation and the green transformation of dairy farming subject production.
3.2.1. Basic assumptions
Hypothesis 1: Dairy farming subjects, as “social beings” and “rational economic beings”, must be aware of the negative ecological impacts of not participating in the green transformation of production. Therefore, even if they are not willing to participate in the green transformation of production, dairy farming subjects will disguise their behavioral motives and claim that they are willing and proactively involved in it.
Hypothesis 2: As the enforcing body of environmental regulation, the environmental regulators are responsible for inspecting the transformation behavior of dairy farming subjects and making decisions on whether to punish them based on the inspection results. Thus, environmental regulators have the ability to accurately identify and determine whether the dairy farming subject is involved in a green transformation of production.
3.2.2. Assumptions on “rent-seeking” and “regulation capture”
Hypothesis 3: If dairy farming subjects can consciously implement environmental regulations and participate in the green transformation of production, they do not need to seek rent from environmental regulators, and they do not need to consider whether environmental regulators conduct strict inspections; therefore, there is no “regulation capture”.
Hypothesis 4: If the dairy farming subject is not rent-seeking and there is no “regulation capture” by the environmental regulator, then the environmental regulator will collect the normal fines from them.
Hypothesis 5: If the dairy farming subject is not rent-seeking and there is “regulation capture” by the environmental regulators, then environmental regulators will use illegal fines to collect fines from dairy farmers above the normal fine level.
Hypothesis 6: If the dairy farming subject is rent-seeking and there is no “regulation capture” by the environmental regulators, the dairy farming subject will pay a bribe to the environmental regulators if it does not participate in the green transformation of production, but the environmental regulators will impose a fine on the dairy farming subject for not participating in the green transformation of production, confiscating the bribe money and handing it over to the higher authority; then, the regulator will receive an additional reward from the higher authority.
Hypothesis 7: If the dairy farming subject is rent-seeking and there is “regulation capture” by the environmental regulators, then it need not worry about whether to participate in the green transformation of production, but simply pays bribes to environmental regulators who will use the bribes as departmental revenue, or which may be privately used by some regulators.
3.2.3. The underlying assumptions of introducing the reputation mechanism
Hypothesis 8: The government’s reputation has two components: first of all, if the environmental regulators do not perform their duties and do not regulate and punish dairy farming subjects, their credibility among the public will be lost; secondly, if the environmental regulators have “regulation capture”, the government’s credibility will also be seriously lost.
Hypothesis 9: The reputation of the dairy farming subject likewise consists of two components: first of all, if the environmental regulator conducts a routine inspection and finds that it has not participated in the green production transition as expected, the dairy farming subject is liable for a portion of the loss of reputation; secondly, if environmental regulators routinely inspect dairy farming subjects and check that they are better engaged in the green transformation of production, they will gain some reputational benefits.
3.3. Model Construction
Before conducting the construction of the dynamic game model between environmental regulators and dairy farming subjects, it is necessary to mark the sign of each variable, in which: the cost of inspection by environmental regulators is
C1; the cost of the dairy farming subject to participate in the green transformation of production is
C2; dairy farming subjects who do not participate in the green transformation of production are fined for
G; the bribes given to the environmental regulators through the rent-seeking of dairy farming subjects is
μC2 (0 <
μ < 1); the environmental regulators illegally charge penalties of
σG (
σ > 1) to the dairy farming subjects; the environmental regulator who gives the bribe and fine to the higher authority to obtain the incentive money is
τ(
μC2 +
G) (0 <
τ <
μ < 1); the loss of government reputation when environmental regulators do not perform inspections and dairy farming subjects do not participate in the green transformation of production is
θ1; the loss of government reputation when environmental regulators perform inspections but there is “regulation capture” is
θ2; dairy farming subjects not involved in the green transformation of production inspected by environmental regulators need to bear the reputation loss of
η1; and dairy farming subjects involved in the green transformation of production that are inspected by environmental regulators would obtain reputational gains of
η2. Meanwhile, it is assumed that the probability of environmental regulators strictly enforcing the law and executing the green transformation of the production of dairy farming subjects is
p1; the probability of no inspection shall be (1 −
p1); the probability of participation of dairy farming subjects in the green transformation of production is
p2; the probability of non-participation is (1 −
p2); the probability that an environmental regulator obtains “regulation capture” is
p3; the probability that it does not obtain “regulation capture” is (1 −
p3); the rent-seeking probability of the dairy farming subject is
p4; and the non-rent-seeking probability is (1 −
p4). The symbols and meanings of the variables in the dynamic game between environmental regulators and dairy farming subjects is shown in
Table 2.
Based on the above hypotheses, this paper constructs a dynamic game model between environmental regulators and dairy farming subjects to investigate the interaction mechanism between the environmental regulation and green transformation of dairy farming subject production, which includes the following seven scenarios (as shown in
Figure 2):
Scenario 1: When environmental regulators perform strict inspections and dairy farming subjects participate in the green transformation of production, the dairy farming subject performs the green transformation at a cost of C2 and receives a reputational benefit of η2, whereas the inspection cost of C1 is borne by environmental regulators. At this point, the benefit of both parties is expressed as (−C1, −C2 + η2).
Scenario 2: When the environmental regulator performs a strict inspection and there is no “regulation capture”, and the dairy farming subject does not participate in the green transformation of production and does not seek rent from the environmental regulator, the dairy farming subject is fined G, and suffers reputational loss η1 for not participating in the green transformation of production, whereas the environmental regulators hand over the collected fine to the higher authority to obtain reward money τG. At this point, the benefit of both parties is expressed as (τG − C1, −G − η1).
Scenario 3: When the environmental regulator performs a strict inspection and there is no “regulation capture”, and the dairy farming subject does not participate in the green transformation of production but seeks rent from the environmental regulators, the bribe μC2 will be confiscated and a fine G will be imposed for not participating in the green transformation of production, and a reputation loss η1 will be incurred for not participating in the green transformation of production, whereas the environmental regulators will give the bribe and the fine to the higher authority to obtain the reward money τ(μC2 + G). At this point, the benefit of both parties is expressed as (τ(μC2 + G) − C1, −μC2 − G − η1).
Scenario 4: When the environmental regulator performs a strict inspection and there is “regulation capture”, and when the dairy farming subject does not participate in the green transformation of production and does not seek rent from the environmental regulator, the cost to be borne by the dairy farming subject includes the environmental regulator illegally collecting a fine σG, and at the same time, bears a reputation loss η1 for not participating in the green transformation of production, whereas the environmental regulator receives an illegally collected fine σG, but also needs to bear a reputation loss θ2. At this point, the benefit of both parties is expressed as (σG − C1 − θ2, −σG − η1).
Scenario 5: When the environmental regulator performs a strict inspection and there is “regulation capture”, and the dairy farming subject does not participate in the green transformation of production but seeks rent from the environmental regulator, the dairy farming subject needs to bear the costs including bribe μC2 and reputation loss η1, whereas the environmental regulator receives the bribe μC2, but also bears the reputation loss θ2. At this point, the benefit of both parties is expressed as (μC2 − C1 − θ2, −μC2 − η1).
Scenario 6: When environmental regulators do not perform strict inspections and dairy farming subjects participate in the green transformation of production, the cost of the green transformation of production is C2. In this case, the benefit of both parties is (0, −C2).
Scenario 7: When environmental regulators do not perform strict inspections and dairy farming subjects do not participate in the green transformation of production, environmental regulators are required to bear the reputational loss θ1. In this case, the benefit for both parties is (−θ1, 0).
Dynamic game scenarios between environmental regulators and dairy farming subjects, and the results of benefits for both, are shown in
Table 3.
4. Results
4.1. Model Solving
To find the probabilistic equilibrium solution of the dynamic game model between environmental regulators and dairy farming subjects, this paper will adopt a bottom-up strategy through the method of reverse induction, starting from the bottom of the game tree. The first step is to seek the expected benefits of the environmental regulator and the dairy farming subject; then, the probabilistic equilibrium solutions for environmental regulators’ regulation capture or not, dairy farming subjects’ rent-seeking or not, environmental regulators’ inspection or not, and dairy farming subjects’ production green transformation participation or not would be obtained based on expected benefits.
First of all, from the bottom of the game tree, we examine the expected benefits of the environmental regulators in the case of regulation capture by the environmental regulators, and let the expected benefit be
ω1, which is calculated as:
To find the first-order partial derivative of Equation (1) and make the first-order partial derivative equal to 0, then we obtain:
The equilibrium solution for the probability of rent-seeking by the environmental regulator in the case of regulation capture for the dairy farming subject is expressed as:
Then, from the bottom of the game tree, we examine the expected benefit of the dairy farming subject in the rent-seeking situation, and let the expected benefit be
ω2, which is calculated as:
Finding the first-order partial derivative of Equation (4) and making the first-order partial derivative equal to 0, we obtain:
The equilibrium solution for the probability of “regulation capture” of environmental regulators in a rent-seeking situation for the dairy farming subject is as follows:
Thirdly, from the middle level of the game tree, we examine the expected benefit of the environmental regulator in the case of the environmental regulator performing an inspection, and let the expected benefit be
φ1, which is calculated as:
where
ω1* in Equation (7) is obtained by bringing Equations (3) and (6) into Equation (1), as:
To find the first-order partial derivative of Equation (7) and make the first-order partial derivative equal to 0, we obtain:
The equilibrium solution for the probability of participation of the dairy farming subject in the green transformation of production under the enforcement inspection scenario by the environmental regulator was found to be:
Fourthly, the expected returns of the dairy farming subject in the case of the green transformation of production participation from the middle level of the game tree are examined, and the expected benefit is set to
φ2, which is calculated as:
ω2* is obtained by bringing Equations (3) and (6) into Equation (4), as:
Finding the first-order partial derivative of Equation (11) and making the first-order partial derivative equal to 0, we obtain:
The equilibrium solution for the probability of inspection by the environmental regulator in the case of the green transformation of production involving the dairy farming subject is found to be:
4.2. Result Analysis
The probabilistic equilibrium solution of the dynamic game model between environmental regulators and dairy farming subjects calculated above is analyzed as follows:
According to Equation (14), which gives the equilibrium solution of the probability of inspection p1 in the case of the green transformation of dairy farming subject production, we could find that: First of all, the higher the green transformation of production cost (C2) for dairy farming subjects, the greater the probability that environmental regulators will perform inspections. Based on the premise of the “rational economic man”, whether dairy farming subjects can actively participate in the green transformation of production depends on the human cost, material cost, time cost, etc. When the cost is too expensive, dairy farming subjects will do their best to disguise their polluting behavior, whereas the environmental regulators will then urge them to increase their willingness to protect the environment and force them to participate in the green transformation of production through meticulous planning. Secondly, the higher the reputational gain (η2) obtained by the dairy farming subject in the process of participating in the green transformation of production, the more active, proactive, and dynamic their participation in the green transformation of production will be, and the more they will be able to consciously protect the ecology and sustain it, at which point, the pressure of inspection by the environmental regulators will become less. Thirdly, the higher the expected benefit (ω2*) of the dairy farming subject in the first stage of the game, the greater the expected reputational loss it experiences after being inspected by the environmental regulator. In order to minimize losses and maximize benefits, the dairy farming subject is more capable to proactively participate in the green transformation of production, at which point, the environmental regulators will naturally reduce the probability of inspection due to the consideration of cost minimization.
Furthermore, according to Equation (10), the equilibrium solution of the probability of green transformation of dairy farming subject production p2 in the case of enforcement inspection by the environmental regulator can be found as follows: Firstly, the higher the inspection cost (C1) of the environmental protection regulator, the smaller the probability that it will perform an inspection on the dairy farming subject; when the probability that the dairy farming subject will be found and punished for not participating in the green transformation of production is reduced, the easier it will be to have violations, and the probability of participating in the green transformation of production will be significantly reduced in this case. Secondly, the greater the loss to the government’s reputation (θ1) due to the environmental regulator’s failure to perform inspections, the greater the tension in the principal–agent relationship between the government and the environmental regulator, which forces the environmental regulator to increase the punishment for the dairy farming subject’s pollution behavior and to increase the frequency of urging the dairy farming subject to participate in the green transformation of production; thus, the probability of the dairy farming subject’s green transformation of production is then significantly increased. Thirdly, the higher the expected benefit (ω1*) of the environmental regulators in the first stage of the game, the higher the probability of the green transition in the production of the dairy farming subject. Essentially, the expected benefits of environmental regulators are a function of the cost of violations and reputation loss of dairy farming subjects, and the higher the cost of violations and the greater the reputation loss would be, the more likely dairy farming subjects can actively engage in the green transformation of production.
In addition, the equilibrium solution of Equation (6) for the probability p3 of “regulation capture” of the environmental regulator in the rent-seeking scenario for dairy farmers shows: First of all, the more bribes dairy farming subjects give for rent-seeking from environmental regulators (μC2), the more they are motivated to take bribes from environmental regulators, and the greater the probability is that they will obtain “regulation capture”. Secondly, the dairy farming subject will weigh the costs of illegal fines collected by the environmental regulator, the costs of the green transformation of production, and the reputational benefits. If the environmental regulator increases the penalty (σ) for the dairy farmers’ pollution behavior, the high penalty (σG) will force the dairy farming subject to transform, and this transformation will reduce the probability of rent-seeking by the dairy farmers; therefore, the probability of the environmental regulator obtaining “regulation capture” will be reduced. This also reflects a real problem: if environmental regulators want to abuse their powers and accept rent-seeking, it is necessary to improve the punishment to restrain the dairy farming subjects, but this punishment also needs to be “perfectly appropriate” as the amount of the fine should be controlled below the cost of the green transformation of production cost while also meeting the need to form environmental pressure on the dairy farming subject.
Fourthly, from Equation (3), the equilibrium solution of the rent-seeking probability p4 of dairy farming subjects in the case of regulation capture by environmental regulators shows: First of all, when the gap between the bribe money (μC2) and the government’s reward money (μτC2) to the environmental regulator is larger, the easier it is for the environmental regulator to be captured by the dairy farming subject, causing it to join with the dairy farming subject to deceive the government. Once this illegal association exists for a long time, it will not only bring serious negative impacts to the ecological environment, but will also seriously damage the credibility of the government, and the probability of rent-seeking for the dairy farming subject in the process will be greatly enhanced. Secondly, when the environmental regulator’s violations bring negative impacts to the government’s credibility, it will certainly be severely criticized and educated by the government; serious cases may face criminal penalties, and thus, when the environmental protection regulator is under pressure from the government’s disciplinary action, the less feasible it is that it will be captured by the dairy farming subject, and the probability of rent-seeking will naturally be reduced. Thirdly, the amount of rent-seeking by dairy farming subjects and the probability of environmental regulators being captured are positively correlated with each other, but since the government, in its capacity as a principal, exerts pressure on environmental regulators, it must be able to restrain environmental regulators from operating in violation of the law and also inhibit rent-seeking by dairy farming subjects.
5. Discussion
A comprehensive analysis of the construction and results of the above-mentioned dynamic game model between environmental regulators and dairy farming subjects shows that environmental pollution of dairy farming cannot be underestimated, and environmental regulation plays a crucial role in this process. However, the “invisible hand” of the market has led to the existence of the risk of rent-seeking by dairy farming subjects and to “regulation capture” of environmental regulators, which also illustrates from another perspective that there are certain defects and dilemmas in the process of environmental regulation in promoting the green transformation of dairy farming subject production. Specifically, some limitations are listed as follows:
First of all, environmental regulation policies are “introduced but not implemented”, increasing the risk of rent-seeking by dairy farming subjects [
47]. It is undeniable that the Chinese government has made great efforts in promoting the green transformation of dairy farming subject production. Especially since the 18th Party Congress, according to incomplete statistics, the National People’s Congress, the State Council, the General Office of the State Council, and national ministries and commissions have introduced nearly more than 30 laws, regulations, and policy documents related to the disposal and resource utilization of livestock and poultry waste. The introduction of these policies certainly laid out important guidance to solve the problem of environmental pollution in dairy farming. These problems are united as the government, in the process of promoting the green transformation of dairy farming, “want to be difficult as” possible, specifically in the regulation policy “more introduction, less implementation” as the green transformation goals do not match the reality of constraints. For example, the “livestock and poultry scale farming pollution prevention and control regulations” mentioned the organic fertilizer production tax incentives, transport preferences, the standard of fertilizer subsidies, biogas power generation to enjoy preferential feed-in tariffs, and new energy preferential policies. However, no nationwide policy implementation rules and standards have been made thus far. In combination, environmental regulation policies ignore the protection of dairy farming subjects, and instead, increase their risk of rent-seeking.
Secondly, the subject of environmental regulation, “decentralization, less inspection”, increases the risk of environmental protection regulators obtaining “regulation capture”. The “environmental decentralization” refers to the gradual decentralization of the environmental governance authority and responsibility moving from the central government to local governments. Local governments are responsible for the implementation and enforcement of the central environmental policy and are subject to the inspection of the central government. Theoretically, local governments are given a certain amount of discretion in environmental matters and are able to tailor their policies to regional developments. However, limiting policies to the dairy farming industry means that they not only cannot bring in financial income for the local government, but also they need to spend a lot of human, material, and financial resources on the main production of the dairy farming green transformation behavior to perform inspections. Therefore, the local government’s division of responsibilities for environmental regulation appears to be cascading down, with most practical work falling to the grassroot village and town level, making grassroots work stressful and costly to regulate, which can easily lead to collusion between grassroot environmental regulators and dairy farming subjects, working together to deceive higher authorities and losing the binding power of environmental regulation itself.
Thirdly, the environmental regulation approach, “results-oriented, light on the process”, reduces the enthusiasm of the dairy farming subjects to be involved in the green transformation of production. The seriousness of environmental pollution in dairy farming forced the government to give administrative orders to take control, but most of this control is to order rectification, discipline, and to shut down, which is mainly concerned about the “treatment”, but there is a lack of awareness of source reduction and the process control of “prevention”. For example, in accordance with the “livestock and poultry scale farming pollution prevention and control regulations” and “water pollution action plan”, the requirements from 2017 were previously around the delineation of the ban area and were introduced one after another, with the ban focused on large-scale farming in the area. However, the national level is not limited to the “scale”, and the right to delegate has been given to the local government; therefore, there is a commanding means of “one size fits all” and “no breeding areas” has become a “no livestock area”. The long-term development of the dairy farming industry cannot be separated from the constraints of environmental regulations, but these constraints must not harm the benefits of the main breeding, must not compete with the political tasks as the goal, and must not be at the expense of the breeding subject. We need to combine “cure” and “prevention”, taking into account the process and results of the industry.
Fourthly, the form of environmental regulation emphasizes “formal regulation, but not informal regulation”, reducing the effect of environmental regulation to “forced transformation”. Environmental regulation encompasses not only formal environmental regulation, but also informal environmental regulation. Under the current Chinese economic system, the former is used frequently. The earliest studies on the environmental regulation of livestock and poultry farming drew conclusions from industry and manufacturing, again with a focus on formal environmental regulation. Compared with the growth cycle curve of industrial and manufacturing industries, the livestock and poultry farming industry, especially the dairy farming industry, has a unique vulnerability and a long growth cycle. Formal environmental regulation can indeed solve the environmental pollution problem of dairy farming in the short term, but it also invariably hinders the development of the industry and increases the pressure on the industry. In addition, compared with the decision-making ability of entrepreneurs in industry and manufacturing, dairy farming subjects are more rooted in rural areas and have grown up as farmers who have been engaged in agricultural production for a long time, and their behavioral decisions are easier to guide and improve. Under the inspection and control of formal environmental regulation, the potential of informal environmental regulation can be properly developed to accelerate the green transformation of dairy farming subject production.
6. Conclusions
The following conclusions were drawn from the study: (1) The green transformation of dairy farming subject production follows the opinion of “subject substitution”, emphasizing “emission reduction” as well as “efficiency enhancement”. (2) Strictly designed environmental regulations are sufficient to drive the green transformation of production by dairy farming subjects, but inevitably, environmental regulators are vulnerable to rent-seeking behavior and “regulation capture”. (3) The introduction of the reputation mechanism has greatly reduced the rent-seeking behavior of dairy farming subjects and the probability of environmental regulators being “captured”, indirectly forcing dairy farming subjects to participate in the green transformation of production. (4) The greater the penalty for non-participation of dairy farming subjects in the green transformation of production, the more it can force them to participate in the green transformation of production, while also reducing the risk of damage to the credibility of the government. (5) Further discussing the shortcomings and dilemmas of environmental regulation, we found that under the current system, environmental regulation policies “emphasize introduction but not implementation”, environmental regulation subjects “emphasize decentralization but not regulation”, environmental regulation methods “emphasize results but not processes”, and environmental regulation forms “emphasize formal regulation but not informal regulation”.
The following policy implications are proposed for the shortcomings of environmental regulation itself: First of all, the environmental regulation policy should be “introduced” and “implemented” to precisely control the time node; to achieve an effective interface between policy and policy, not “introduced for the sake of introduction”; to drive the main production of the green transformation of farming for classification, zoning, and point implementation; and to protect the interests of the main farming and reduce the risk of rent-seeking. Secondly, the subject of environmental regulation should both “focus on power sharing” and “focus on regulation”. Decentralization is meant to tailor policies to local conditions; therefore, the central government must do a good job of inspection while simplifying and decentralizing government to avoid causing collusion between grassroot environmental regulators and dairy farming subjects, as deception and falsification at every level not only does not effectively protect the ecological environment, but also derives from the dual cost of the loss of government credibility. Thirdly, environmental regulation should be both “result-oriented” and “process-oriented”. The result of ecological safety of dairy farming is important, but the result is based on the greening of the whole production process. “Source reduction, process control, terminal treatment” is the essence of the green transformation of dairy farming’s main production, but also the essence of the path should be a specific operation. In addition, the form of environmental regulation must be both “formal and informal”. The remarkable effectiveness of formal environmental regulation already speaks for itself. In theory, informal environmental regulations can also arouse the environmental awareness of dairy farming subjects and motivate them to participate in the green transformation of production; thus, it is reasonable to pay attention to informal environmental regulations, and it is necessary to conduct further theoretical and empirical studies on the effect of informal environmental regulations in driving the green transformation of dairy farming subject production.
In conclusion, we have given the scientific connotation of the green transformation of dairy farming subject production through the research mentioned above, we have also conducted theoretical and empirical studies on the interaction mechanism between the environmental regulation and green transformation of dairy farming subject production, and we have discussed systematically the problems of environmental regulation itself. However, there are still two limitations of the study, which are important directions for further exploration in this area in the future: First, research should be conducted to obtain first-hand data through field visits, and to review and assess the development level of the green transformation of dairy farming subject production in order to test the scientificalness of the theoretical connotation of dairy farming subjects. Second, we need to use fieldwork data to empirically test the impact of environmental regulations on the green transformation of dairy farming subject production in order to test the reality of the interaction mechanism between environmental regulations and the green transformation of dairy farming subject production.