ROMS study of biological impact of submesoscale ocean activity changing with climate
Codes for the analysis performed for the following paper: Submesoscale effects on changes to export production under global warming Genevieve Jay Brett1,2, Daniel B Whitt3,4, Matthew C Long4, Frank O. Bryan4, Kate Feloy2, Kelvin J. Richards2
1Johns Hopkins University Applied Physics Laboratory 11100 Johns Hopkins Road, Laurel, MD 20723
2University of Hawai‘i Manoa 1680 East West Road, Honolulu HI 96822
3Ames Research Center, National Aeronautics and Space Administration, Moffett Field, CA
4Climate and Global Dynamics Laboratory, National Center for Atmospheric Research, Boulder, CO,
1 (rms w) plotrmsw.m, make_seasonal_fields.m
2 (N-density BC) nitratepdenchoices.m
3,4 (N, production) plotbioset.m, make_seasonal_fields.m
5 (integrated production) productionsetPub.m
6 (mean vertical fluxes) plotmean100mFlux.m
7,8 (100m fluxes, varied ws or covaried ws and tau) plotFlux100mVariedParameters.m
9,10 (100m fluxes, climate change) plot100mWPclimatechangePub.m
11, 12 (w’P’ and w’b’) filtermethodcompare.m make_seasonal_fields.m
S1 (physical fields 2000s) plotphysics2000.m
S2 (physical fields 2100s) plotphysics2100.m
S3 (KEh spectra) plot_spectra_depth_slice.m
S4 (KEv spectra) plot_seasonal_spectra.m, make_seasonal_spectra.m
S5, S6 (w’P’ and w’b’, different methods) filtermethodcompare.m make_seasonal_fields.m
S7 (100m fluxes, different boundary conditions) plot100mWPclimatechangePub.m