MPeat—A fully coupled mechanical-ecohydrological model of peatland development

Mahdiyasa, Adilan W.; Large, David J.; Muljadi, Bagus P.; Icardi, Matteo; Triantafyllou, Savvas

doi:10.1002/eco.2361

All Outputs (3)

Fluid-rock interaction experiments with andesite at 100°C for potential carbon storage in geothermal reservoirs (2024)
Journal Article
Belshaw, G. E., Steer, E., Ji, Y., Azis, H., Sapiie, B., Muljadi, B., & Vandeginste, V. (2024). Fluid-rock interaction experiments with andesite at 100°C for potential carbon storage in geothermal reservoirs. Deep Underground Science and Engineering, https://doi.org/10.1002/dug2.12097

Geothermal energy extraction often results in the release of naturally occurring carbon dioxide (CO2) as a byproduct. Research on carbon storage using volcanic rock types other than basalt under both acidic and elevated temperature conditions has bee... Read More about Fluid-rock interaction experiments with andesite at 100°C for potential carbon storage in geothermal reservoirs.

Modelling the influence of mechanical-ecohydrological feedback on the nonlinear dynamics of peatlands (2023)
Journal Article
Mahdiyasa, A. W., Large, D. J., Muljadi, B. P., & Icardi, M. (2023). Modelling the influence of mechanical-ecohydrological feedback on the nonlinear dynamics of peatlands. Ecological Modelling, 478, Article 110299. https://doi.org/10.1016/j.ecolmodel.2023.110299

Peatlands are complex systems that exhibit nonlinear dynamics due to internal and external feedback mechanisms. However, the feedback of vegetation on peat volume changes that potentially affect peatland dynamics is not well understood. Here, we anal... Read More about Modelling the influence of mechanical-ecohydrological feedback on the nonlinear dynamics of peatlands.

MPeat—A fully coupled mechanical-ecohydrological model of peatland development (2021)
Journal Article
Mahdiyasa, A. W., Large, D. J., Muljadi, B. P., Icardi, M., & Triantafyllou, S. (2022). MPeat—A fully coupled mechanical-ecohydrological model of peatland development. Ecohydrology, 15(1), Article e2361. https://doi.org/10.1002/eco.2361

Mathematical models of long-term peatland development have been produced to analyse peatland behaviour. However, existing models ignore the mechanical processes that have the potential to provide important feedback. Here, we propose a one-dimensional... Read More about MPeat—A fully coupled mechanical-ecohydrological model of peatland development.