Abstract This paper investigates how adopting environmental management standards, specifically ISO 14001, influences corporate energy performance—an area often overlooked in empirical research. Using a dynamic system Generalized Method of Moments (GMM) model, we examine the effects of ISO 14001 certification on energy intensity, greenhouse gas (GHG) emissions, and renewable energy use. Our analysis draws on a panel dataset of international manufacturing companies over 2013–2022. The results show that greater ISO 14001 adoption is associated with lower energy intensity and reduced GHG emission rates, as well as increased use of renewable energy. However, we find no statistically significant effect on carbon intensity related to non-renewable energy sources. The dynamic model reveals strong persistence in all dependent variables, highlighting the cumulative nature of these effects and the limitations of static approaches that ignore temporal dynamics. These findings indicate that ISO 14001 adoption is not merely a symbolic initiative but can serve as an effective mechanism for enhancing energy-related performance. Firms should therefore view certification as a strategic investment in long-term energy efficiency and sustainability, integrating it into organizational processes to maximize gradual and cumulative benefits. From a policy perspective, our results point to opportunities for targeted interventions aimed at encouraging the adoption and effective implementation of voluntary environmental management systems. Moreover, the dynamic nature of the observed impacts underscores the need for policymakers and researchers to account for time-lagged and cumulative learning effects when assessing the effectiveness of such voluntary standards.
Rodrigo Cestau-Oyhantçabal (Mon,) studied this question.