Exploring Trade Offs and Conflicts between Energy, Biodiversity and Human Livelihoods for Sustainable Development

This study examines the complex interactions and trade-offs among energy development, biodiversity conservation, and human livelihoods within the context of increasing global energy demand and sustainability challenges. Using a mixed-methods approach that integrates literature review, case study analysis, and primary empirical data (n = 120), the study provides both quantitative and qualitative insights into stakeholder perceptions and socio-ecological impacts. Quantitative results indicate that environmental degradation (mean = 4.28) and livelihood disruption (mean = 4.05) are perceived as major consequences of energy development, with statistically significant differences across stakeholder groups (p < 0.05). Correlation analysis further reveals a strong relationship between environmental degradation and livelihood insecurity (r = 0.57, p < 0.01). Qualitative findings reinforce these results, highlighting concerns related to habitat loss, unequal benefit distribution, and limited community participation. The findings demonstrate that trade-offs are highly context-specific and vary across energy types and governance settings. Fossil fuel-based energy systems are associated with greater long-term ecological degradation and pollution, whereas renewable energy projects, although comparatively less harmful, still generate localized impacts such as land-use change and habitat fragmentation. These outcomes are particularly significant in biodiversity-sensitive and resource-dependent regions, where livelihoods are closely linked to ecosystem services. To advance current research, this study introduces an Energy--Biodiversity--Livelihood Trade-off Framework, which integrates energy performance, biodiversity integrity, and livelihood outcomes into a unified analytical model. In addition, a region-specific Energy--Biodiversity--Livelihood Trade-off Index (EBL-TI) is proposed to quantify socio-ecological trade-offs across different contexts. The study further operationalizes the Kunming--Montreal Global Biodiversity Framework for the energy sector by linking global targets to measurable governance and planning indicators. Overall, the results highlight the need for integrated and adaptive governance approaches that incorporate biodiversity-sensitive spatial planning, equitable benefit-sharing mechanisms, and inclusive stakeholder participation. By combining empirical evidence with conceptual innovation, this study contributes to advancing sustainable energy transitions that are not only efficient but also ecologically responsible and socially equitable.