Constraining uncertainty in projected gross primary production (GPP) with machine learning¶
Overview¶
These recipes reproduce the analysis of Schlund et al. (2020). In this paper, a machine learning regression (MLR) approach (using the MLR algorithm Gradient Boosted Regression Trees, GBRT) is proposed to constrain uncertainties in projected gross primary production (GPP) in the RCP 8.5 scenario using observations of process-based diagnostics.
Available recipes and diagnostics¶
Recipes are stored in recipes/
schlund20jgr/recipe_schlund20jgr_gpp_abs_rcp85.yml
schlund20jgr/recipe_schlund20jgr_gpp_change_1pct.yml
schlund20jgr/recipe_schlund20jgr_gpp_change_rcp85.yml
Diagnostics are stored in diag_scripts/
General information (including an example and more details) on machine learning regression (MLR) diagnostics is given here. The API documentation is available here.
Variables¶
co2s (atmos, monthly, longitude, latitude, time)
gpp (land, monthly, longitude, latitude, time)
gppStderr (land, monthly, longitude, latitude, time)
lai (land, monthly, longitude, latitude, time)
pr (atmos, monthly, longitude, latitude, time)
rsds (atmos, monthly, longitude, latitude, time)
tas (atmos, monthly, longitude, latitude, time)
Observations and reformat scripts¶
CRU (pr, tas)
ERA-Interim (rsds)
LAI3g (lai)
MTE (gpp, gppStderr)
Scripps-CO2-KUM (co2s)
References¶
Schlund et al., JGR: Biogeosciences, accepted (2020). TBA