Development of Ocean Acidification Endpoint Characterization Model for Life Cycle Assessment

Development of Ocean Acidification Endpoint Characterization Model for Life Cycle Assessment

Gurdal, Irem (TU Delft Technology, Policy and Management)

Scherer, L.A. (mentor)
van Bodegom, P.M. (graduation committee)

Delft University of Technology
Universiteit Leiden

Industrial Ecology

2021-08-26

With the current trend in emissions, the pH levels of the oceans are expected to decrease from 8.1 to 7.8 by the end of the century. In combination with the other stressors, it is projected that OA will have a wide range of impacts on marine life and its services to humanity. The representation of these implications is limited in environmental assessment tools such as Life Cycle Assessment. This research explores the relationship between the changing acidity of the oceans and marine biodiversity loss. This relation is quantified through utilising the ecotoxicology impact assessment approach for LCA. Following this approach, an endpoint characterization model is developed for ocean acidification. 3 different categorisations (climate zones, calcification, exposure duration) were made to assess their effects on species responses. The results revealed that there is no significant difference in responses based on different exposure durations or climate zones. Calcifying species on the other hand is found to have a higher sensitivity to ocean acidification as the change in carbonate chemistry directly influences the shell and skeleton formation of these organisms. Lastly, these models were integrated into an endpoint characterization model for ocean acidification. From the 3 GHG emissions included within the scope of this research (CO2, CO, CH4), CO2 has the highest (CFCO2 = 4.883 × 104 (𝑃𝐷𝐹)𝑚3/𝑘𝑔𝐺𝐻𝐺) and CH4 has the lowest (CFCH4 = 4.072 × 104 𝑃𝐷𝐹)𝑚3/𝑘𝑔𝐺𝐻𝐺) impact on marine biodiversity loss due to OA. These ecosystem damage indicators can be utilised in the impact assessment phase of the Life Cycle Assessment to translate the inventory results into impact on marine biodiversity. Through the quantification of the impacts of ocean acidification, the effects of this major stressor on marine life can be better understood and targeted strategies can be developed. However, more research is required to increase the robustness of these models through expanding the species scope and incorporating temporal and geographical aspects into the models. Furthermore, the cascading effects of the changing ocean pH are still unknown and its consequences on ecosystems and socio-economic structures are unprecedented. To establish science-based targets and strategies to conserve the species richness in marine life, the extent of our understanding of the damage caused by anthropogenic actions needs to be further explored and estimated.

Ocean Acidification
Life Cycle Assessment
Marine Biodiversity

http://resolver.tudelft.nl/uuid:c9151fdc-d161-4fab-8e56-54c5df2d3844

Student theses

master thesis

© 2021 Irem Gurdal