On top of that and regardless of any absorption /
emission properties there is thermal radiation that is only due to the fact that charges that compose the molecules accelerate by vibration and collision and this property is general for any form of matter.
Not exact matches
Ricke said: «Our results show that if we continue on our current
emissions path, by the end of the century
there will be no water left in the ocean with the chemical
properties that have supported coral reef growth in the past.
Professor Rob Lamb of the JBA Trust and Lancaster University said: «Each of these steps reflects different sources of uncertainty, but we find overall that
there is a substantial chance of more
properties having been placed at flood risk because of past greenhouse gas
emissions, leading to potential damages that could be part of the losses incurred in 2013/14.»
Temperature tends to respond so that, depending on optical
properties, LW
emission will tend to reduce the vertical differential heating by cooling warmer parts more than cooler parts (for the surface and atmosphere); also (not significant within the atmosphere and ocean in general, but significant at the interface betwen the surface and the air, and also significant (in part due to the small heat fluxes involved, viscosity in the crust and somewhat in the mantle (where
there are thick boundary layers with superadiabatic lapse rates) and thermal conductivity of the core) in parts of the Earth's interior) temperature changes will cause conduction / diffusion of heat that partly balances the differential heating.
Once permafrost starts melting,
there are feedbacks from changes in albedo, methane
emissions, the thermal
properties of surface water, and increases in atmospheric water vapor.
«Our results show that if we continue on our current
emissions path, by the end of the century
there will be no water left in the ocean with the chemical
properties that have supported coral reef growth in the past.