The driving path and mode of enterprises’ biodiversity conservation

doi:10.17520/biods.2025246

Abstract

Abstract:

Background & Aims: Global conservation of biodiversity is currently confronting severe challenges, among which the funding gap is particularly pronounced. There is an urgent need for innovative mechanisms to channel market-based capital into conservation efforts and to stimulate corporate initiative. However, there is a significant structural imbalance exists within the current academic literature. Research at the macro level, focusing on conservation governance philosophies and development models, is relatively abundant. In contrast, studies at the micro level, particularly those investigating the driving mechanisms of corporate behavior, remain scarce. A systematic understanding of the specific pathways and models through which enterprises can enhance their biodiversity conservation performance has yet to be fully developed. Consequently, there is a critical imperative to conduct in-depth research at the micro enterprise level. Such research is essential to systematically unravel the intrinsic driving mechanisms behind corporate biodiversity conservation, thereby providing a theoretical foundation for Chinese enterprises to deepen their practical engagement in biodiversity protection.

Methods: In light of this research gap, this study undertakes dual efforts at both theoretical and methodological levels. First, through a theoretical extension and contextual adaptation of the traditional technology-organization-environment (TOE) framework, we construct a three-dimensional integrated analytical framework termed “technical resource endowment-organizational governance structure-environmental context-driven”. This framework provides a systematic antecedent explanation for corporate biodiversity conservation behaviors. Second, leveraging panel data from 1,714 A-share listed companies on the Shanghai and Shenzhen Stock Exchanges’ (2006-2022), we empirically dissect the multiple driving pathways for corporate biodiversity conservation. This is achieved by applying the fuzzy set qualitative comparative analysis (fsQCA) method, which allows for an examination from a configurational perspective of causal conditions.

Results: (1) Within the modified TOE theoretical framework, the synergistic interaction of technical resource endowment, organizational governance structure, and environmental context-driven constituted a necessary condition for forming effective pathways driving high levels of corporate biodiversity conservation. No single dimension of these conditions was sufficient to effectively promote corporate biodiversity conservation on its own. (2) We identified several typical configurations leading to high levels of corporate biodiversity conservation. These archetypes included the corporate governance guided model, the financial condition driven model, the market pressure forced model, and the natural endowment reliant model. These configurations could explain the biodiversity conservation strategies of approximately 14%, 16%, 18%, and 23% of the sampled enterprises, respectively. (3) The current state of corporate biodiversity conservation in China was characterized by a distinct predominance of external drivers, with proactive leadership playing a supplementary role. Specifically, enterprises that were passively adapting, driven primarily by market pressures or natural resource endowments, collectively accounted for about 41% of the sample. In contrast, systematically proactive enterprises, characterized by active governance improvements or dedicated financial investments, constituted only 30%. (4) A significant “asymmetry” existed between the pathways that drive high levels of biodiversity conservation and those associated with low levels. Enterprises demonstrating low levels of biodiversity protection were primarily constrained by two specific situational configurations: the internal environment constrained type and the environmental guidance ineffective type.

Implications & Contributions: The differentiated driving pathways identified in this research offer a scientific basis for government agencies to formulate categorized guidance policies for biodiversity conservation. This enables more precise and targeted incentives to encourage corporate participation, moving beyond a one-size-fits-all approach. This study makes significant theoretical contributions by extending the TOE framework and employing a configurational perspective. The construction of the three-dimensional analytical framework systematically uncovers the multiple, concurrent driving mechanisms of corporate biodiversity conservation. This deepens the theoretical understanding of environmental responsibility behaviors at the micro-enterprise level, highlighting the complex interplay of factors that shape corporate action in this critical domain.

Key words: biodiversity, corporate conservation behavior, driving pathways, technology-organization-environment theory, configuration analysis

Renjia Meng, Tao Qin, Xinmeng Tang. The driving path and mode of enterprises’ biodiversity conservation[J]. Biodiv Sci, 2026, 34(1): 25246.

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URL: https://www.biodiversity-science.net/EN/10.17520/biods.2025246

https://www.biodiversity-science.net/EN/Y2026/V34/I1/25246

Figures/Tables 7

References 68

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变量类型 Variable type	变量名称 Variable name	缩写 Symbols	变量描述 Variable description	来源 Data sources
结果变量 Result variable	企业生物多样性保护指数 Enterprise biodiversity conservation index	BDI	企业生物多样性保护表现 The performance of enterprises in biodiversity conservation	汤心萌和秦涛, 2025
前因变量 Antecedent variable	企业资产规模 Enterprise asset scale	SIZE	年末资产总额(亿元)取自然对数 The total assets at the end of the year (hundred million yuan) are taken as the natural logarithm	https://data.csmar.com/
	企业财务风险 Enterprise financial risk	LEV	年末资产负债率(%) Year-end asset-liability ratio (%)	https://data.csmar.com/
	董事会规模 Board size	BSIZE	董事会年末在职人数(人) The number of people on the board of directors at the end of the year	https://data.csmar.com/
	董事会独立性 Board independence	BI	独立董事年末在职人数占董事会年末在职人数的比例(%) The proportion of independent directors in service at the end of the year to the total number of directors in service at the end of the year (%)	https://data.csmar.com/
	市场认可度 Market recognition	EPS	税后利润比股本总数(%) After-tax profit ratio to total share capital (%)	https://data.csmar.com/
	区域经济水平 Regional economic level	PGDP	各省年度人均地区生产总值(亿元) Annual per capita regional GDP of each province (hundred million yuan)	https://data.csmar.com/
	环境规制强度 Intensity of environmental regulation	ER	工业污染治理投资总额比第二产业增加值(%) Total investment in industrial pollution control to the added value of the secondary industry (%)	https://data.csmar.com/
	国家公园建设 National park construction	NP	以2021年为分界点的5个正式设立国家公园的0-1变量 The 0-1 variable of the five officially established national parks with 2021 as the dividing point	https://www.stats.gov.cn/; https://www.mee.gov.cn/
	自然保护区面积 Area of nature reserve	NRA	各省市当年统计本地各级自然保护区面积总和(10⁴ha) The total area of nature reserves at all levels in each province and municipality as tallied in the current year (10⁴ha)	https://www.stats.gov.cn/; https://www.mee.gov.cn/

变量类型 Variable type	变量名称 Variable name	缩写 Symbols	变量描述 Variable description	来源 Data sources
结果变量 Result variable	企业生物多样性保护指数 Enterprise biodiversity conservation index	BDI	企业生物多样性保护表现 The performance of enterprises in biodiversity conservation	汤心萌和秦涛, 2025
前因变量 Antecedent variable	企业资产规模 Enterprise asset scale	SIZE	年末资产总额(亿元)取自然对数 The total assets at the end of the year (hundred million yuan) are taken as the natural logarithm	https://data.csmar.com/
	企业财务风险 Enterprise financial risk	LEV	年末资产负债率(%) Year-end asset-liability ratio (%)	https://data.csmar.com/
	董事会规模 Board size	BSIZE	董事会年末在职人数(人) The number of people on the board of directors at the end of the year	https://data.csmar.com/
	董事会独立性 Board independence	BI	独立董事年末在职人数占董事会年末在职人数的比例(%) The proportion of independent directors in service at the end of the year to the total number of directors in service at the end of the year (%)	https://data.csmar.com/
	市场认可度 Market recognition	EPS	税后利润比股本总数(%) After-tax profit ratio to total share capital (%)	https://data.csmar.com/
	区域经济水平 Regional economic level	PGDP	各省年度人均地区生产总值(亿元) Annual per capita regional GDP of each province (hundred million yuan)	https://data.csmar.com/
	环境规制强度 Intensity of environmental regulation	ER	工业污染治理投资总额比第二产业增加值(%) Total investment in industrial pollution control to the added value of the secondary industry (%)	https://data.csmar.com/
	国家公园建设 National park construction	NP	以2021年为分界点的5个正式设立国家公园的0-1变量 The 0-1 variable of the five officially established national parks with 2021 as the dividing point	https://www.stats.gov.cn/; https://www.mee.gov.cn/
	自然保护区面积 Area of nature reserve	NRA	各省市当年统计本地各级自然保护区面积总和(10⁴ha) The total area of nature reserves at all levels in each province and municipality as tallied in the current year (10⁴ha)	https://www.stats.gov.cn/; https://www.mee.gov.cn/

条件变量 Condition variable	高水平企业生物多样性保护指数 High-level of enterprise biodiversity conservation index		低水平企业生物多样性保护指数 Low-level of enterprise biodiversity conservation index
条件变量 Condition variable	一致性 Consistency	覆盖率 Coverage rate	一致性 Consistency	覆盖率 Coverage rate
企业资产规模 Enterprise asset scale	0.6527	0.8281	0.6667	0.5267
~企业资产规模 ~ Enterprise asset scale	0.6269	0.7514	0.7824	0.5838
企业财务风险 Enterprise financial risk	0.6434	0.7930	0.6993	0.5365
~企业财务风险 ~ Enterprise financial risk	0.6240	0.7693	0.7301	0.5603
董事会规模 Board size	0.6680	0.8511	0.7605	0.6032
~董事会规模 ~ Board size	0.6886	0.8220	0.8123	0.6036
董事会独立性 Board independence	0.5268	0.7680	0.5686	0.5160
~董事会独立性 ~ Board independence	0.6679	0.7132	0.7443	0.4947
市场认可度 Market recognition	0.6187	0.8156	0.6612	0.5426
~市场认可度 ~ Market recognition	0.6530	0.7559	0.7753	0.5587
区域经济水平 Regional economic level	0.6093	0.8097	0.6661	0.5510
~区域经济水平 ~ Regional economic level	0.6621	0.7611	0.7699	0.5509
环境规制强度 Intensity of environmental regulation	0.6253	0.7707	0.7489	0.5746
~环境规制强度 ~ Intensity of environmental regulation	0.6548	0.8073	0.7011	0.5380
国家公园建设 National park construction	0.0351	0.6447	0.0310	0.3539
~国家公园建设 ~ National park construction	0.9648	0.6153	0.9689	0.3846
自然保护区面积 Area of nature reserve	0.6032	0.7825	0.6841	0.5524
~自然保护区面积 ~Area of nature reserve	0.6549	0.7690	0.7306	0.5340

条件变量 Condition variable	高水平企业生物多样性保护指数 High-level of enterprise biodiversity conservation index		低水平企业生物多样性保护指数 Low-level of enterprise biodiversity conservation index
条件变量 Condition variable	一致性 Consistency	覆盖率 Coverage rate	一致性 Consistency	覆盖率 Coverage rate
企业资产规模 Enterprise asset scale	0.6527	0.8281	0.6667	0.5267
~企业资产规模 ~ Enterprise asset scale	0.6269	0.7514	0.7824	0.5838
企业财务风险 Enterprise financial risk	0.6434	0.7930	0.6993	0.5365
~企业财务风险 ~ Enterprise financial risk	0.6240	0.7693	0.7301	0.5603
董事会规模 Board size	0.6680	0.8511	0.7605	0.6032
~董事会规模 ~ Board size	0.6886	0.8220	0.8123	0.6036
董事会独立性 Board independence	0.5268	0.7680	0.5686	0.5160
~董事会独立性 ~ Board independence	0.6679	0.7132	0.7443	0.4947
市场认可度 Market recognition	0.6187	0.8156	0.6612	0.5426
~市场认可度 ~ Market recognition	0.6530	0.7559	0.7753	0.5587
区域经济水平 Regional economic level	0.6093	0.8097	0.6661	0.5510
~区域经济水平 ~ Regional economic level	0.6621	0.7611	0.7699	0.5509
环境规制强度 Intensity of environmental regulation	0.6253	0.7707	0.7489	0.5746
~环境规制强度 ~ Intensity of environmental regulation	0.6548	0.8073	0.7011	0.5380
国家公园建设 National park construction	0.0351	0.6447	0.0310	0.3539
~国家公园建设 ~ National park construction	0.9648	0.6153	0.9689	0.3846
自然保护区面积 Area of nature reserve	0.6032	0.7825	0.6841	0.5524
~自然保护区面积 ~Area of nature reserve	0.6549	0.7690	0.7306	0.5340

条件组态 Conditional configuration	H1	H2	H3	H4
条件组态 Conditional configuration	H1	H2	H3	H4a	H4b
企业资产规模 Enterprise asset scale	☒	●	☒	●	●
企业财务风险 Enterprise financial risk	⚪	●	☒	●	●
董事会规模 Board size	●	⚪	⚪	●	●
董事会独立性 Board independence	☒	⚪	⚪	☒	■
市场认可度 Market recognition	☒	●	●	☒	●
区域经济水平 Regional economic level	■	■	☒	■	■
环境规制强度 Intensity of environmental regulation	☒	⊗	■	☒	☒
国家公园建设 National park construction	⚪	⊗	☒	⚪	⚪
自然保护区面积 Area of nature reserve	☒	☒	☒	■	■
原始覆盖度 Raw coverage	0.1443	0.1634	0.1754	0.1272	0.0936
唯一覆盖度 Unique coverage	0.0010	0.0020	0.0024	0.0015	0.0006
解的覆盖度 Overall solution coverage	0.8898
解的一致性 Overall solution consistency	0.8238