Dear Alison cc Steve, Paul Sorry for slow response. I've read Steve's edited version and I agree with your and Steve's proposals. Thanks. Changing all the integral_of_X_wrt_Y to integration_wrt_Y_of_X will make them more readable, I think, and it's a neater construction. In fact people sometimes write \int dy X intead of \int Y dx in mathematical formulae, because it's natural to think of \int dy as an operator.
Regarding the residual_mean_advection names, I agree that this is what we want for OMIP and FAFMIP. However if you search for due_to_advection you will find quite a few existing ocean ones e.g. tendency_of_sea_water_temperature_due_to_advection (K s-1). Is it clear in the definitions what sort of advection this is (I am offline and cannot check)? I believe that in these existing names we mean resolved advection i.e. not including parametrised eddy advection. We do not mean residual mean advection. Maybe it would be a good idea to change due_to_advection to due_to_resolved_advection and say in the definition that this means advection by the model's sea water velocity field, not including any parametrised subgridscale advection. In the atmos we also have some due_to_ advection names, but models don't have parametrised advection in the atmos, so there's not the same issue. If you agree with that, I would also advocate including new standard names like 3n,o,p but with resolved_advection. They are not needed for the CMIP6 request, but they probably are useful. I'd use them for NEMO and UM ocean model diagnostics, for example! Best wishes Jonathan _______________________________________________ CF-metadata mailing list [email protected] http://mailman.cgd.ucar.edu/mailman/listinfo/cf-metadata
