Each section (ocean, sea-ice, land-ice, coastal, coupler) get 15 minutes
Goal of each 15 minute segment is:
to ID the most important v2 feature(s)
ocean (Mark Petersen)
non-Boussinseq / TEOS-10
wetting-drying / massless layers
high-order pressure gradient
quasi-Lagrangian vertical coordinate
super-cycling of tracer transport
Mesoscale eddy closure
Thin-wall approach for bottom bathymetry
Improved vertical turbulence scheme
Prognostic SW penetration model
sea-ice (Adrian Turner)
improved snow model
Icebergs
Unified ridging and form drag
Improved radiation extinction in snow (SNCR)
MPAS-seaIce buoy simulator
Improve salinity coupling btw ocean and sea ice
land-ice (Stephen Price)
- Improved calving
- spin up initialization
- Sub-glacial hydrology and basal processes
- Spatially-temporally varying sea-level forcing at land ice front
coupler (Jeremy Fyke (Unlicensed))
- Couple icebergs from land ice to sea ice via coupler
- time-variable footprint of land / ocean / sea-ice
- Self-attraction for regional SLR
coastal ocean / coastal BGC (Phillip Wolfram (Unlicensed))
- Tides
- variable time step
- Surface wave model
- Coastal BGC - Coupled river-estuary-coastal ocean reaction eqs.
- Sediment transport
- inorganic carbon chemistry