Quantifying and constraining terrestrial biosphere model uncertainty and global carbon dynamics via model-data integration
A large body of my research to date has been focused on reducing this uncertainty in terrestrial biosphere model projections of vegetation and carbon dynamics from site to global scales using statistical model-data integration, or data assimilation (DA), in combination with a wide range of data streams. These include eddy covariance net CO2 and latent heat (LE) flux measurements, chamber-based CH4 fluxes, atmospheric CO2 concentration data, biomass observations and satellite-derived FAPAR/NDVI and fluorescence data.
- MacBean et al. (2015) Using satellite data to improve the leaf phenology of a global terrestrial biosphere model, Biogeosciences, 12, 7185-7208.
- Bacour et al. (2015), Joint assimilation of eddy-covariance flux measurements and satellite observations within a process-oriented biosphere model, Journal of Geophysical Research Biogeosciences, 120, 1839–1857.
- MacBean et al. (2016) Consistent assimilation of multiple data streams in a carbon cycle data assimilation system, Geoscientific Model Development, 9, 3569-3588.
- Peylin et al. (2016) A new step-wise Carbon Cycle Data Assimilation System using multiple data streams to constrain the simulated land surface carbon cycle, Geoscientific Model Development, 9, 3321-3346.
- Thum et al. (2017) The potential benefit of using forest biomass data in addition to carbon and water flux measurements to constrain ecosystem model parameters: case studies at two temperate forest sites, Agricultural and Forest Meteorology, 234, 48-65.
- Li et al. (2017), Reducing the uncertainty of parameters controlling seasonal carbon and water fluxes in Chinese forests, and its implication for simulated climate sensitivities, Global Biogeochemical Cycles, 31.
- MacBean et al. (2018), Strong constraint on modeled global carbon uptake using solar-induced chlorophyll fluorescence data, Scientific Reports, 8, 1973.
This work ultimately results in an improvement in the predicted land carbon sink as well as a reduction and better quantification of its uncertainty into the future. In addition, DA methods allow us to identify model processes that are not well represented or missing if there is still a misfit between the model and the data. As such, this work has led to my interest in improving the representation of coupled carbon-water-vegetation dynamics in semi-arid ecosystems in models.
This work was/is funded by:
- MULTIPLY: a European Union H2020 project that will provide a platform for retrieval of multiscale land surface information from European Space Agency SENTINEL satellite data.
- ESA FLEX Bridge: a preparatory scientific study for Solar Induced Fluorescence retrieval from satellites and applications in assessment of photosynthesis and stress status in terrestrial vegetation. The final report contributed to the scientific basis leading to the selection of the FLEX satellite as ESA’s 8th Earth Explorer mission.
- CARBONES: European Union 7th Framework project aiming to provide a 30-year long re-analysis of carbon fluxes and pools over Europe and the globe, in form of a user-friendly on-line interface.
- GEOCARBON: European Union 7th Framework project with the ultimate aim to lay the foundations for an operational Global Carbon Observing and Analysis System in support to both science and policy.
- ExpeER: a major European Union Infrastructure project in the field of Ecosystem Research. ExpeER integrated existing national infrastructures to improve their research capacity whilst at the same time facilitating access to key experimental and observational platforms as well as analytical and modelling facilities for the benefit of the international research community.
- UKPopNet: a UK Natural Environment Research Council (NERC) and English Nature funded project to study how changes in biodiversity will affect the sustainability of ecosystems, landscapes and livelihoods. Part of this work was focused on how to model and upscale CO2 and CH4 fluxes at an upland peatland site in Wales.