In previous work, the researchers have uncovered key stages of the Madden - Julian Oscillation that affect far - off weather,
including atmospheric rivers.
Not exact matches
These
included model structure complexity,
atmospheric forcing and the human influences on streamflow reflected in the observed streamflow in regulated
rivers.
Day 15 Tour of Lijiang
includes the Jade Dragon Snow Mountain and the
atmospheric old quarter with its cobbled streets, walkways and
rivers that reflect the Han, Bai and Naxi local architecture.
Everything is fully deterministic —
including the «
atmospheric rivers» that transport moisture from oceanic hot - spots to drop it on land — but so complex and dynamic as to be seemingly random and unpredictable.
Scientists have found several indicators that point to human - caused warming,
including melting of glaciers and ice sheets, ocean heat content, rainfall patterns,
atmospheric moisture,
river runoff, stratospheric cooling, and the extent of Arctic sea ice.
The emissions and their partitioning only
include the fluxes that have changed since 1750, and not the natural CO2 fluxes (e.g.,
atmospheric CO2 uptake from weathering, outgassing of CO2 from lakes and
rivers, and outgassing of CO2 by the ocean from carbon delivered by
rivers) between the atmosphere, land and ocean reservoirs that existed before that time and still exist today.
These OMITTED / POORLY Represented processes
include the following: oceanic eddies, tides, fronts, buoyancy - driven coastal and boundary currents, cold halocline, dense water plumes and convection, double diffusion, surface / bottom mixed layer, sea ice — thickness distribution, concentration, deformation, drift and export, fast ice, snow cover, melt ponds and surface albedo,
atmospheric loading, clouds and fronts, ice sheets / caps and mountain glaciers, permafrost,
river runoff, and air — sea ice — land interactions and coupling.