A question regarding the unknown height of the buoy during freeze-in: I understand it can affect the matching between the temp measurements and the snow/ice thickness measurements. But does it also affect the absolute thickness measurements themselves?
I mean, if the sounder is higher or lower above the snow, does the measured value depend on that? Or can the sounder find the thickness regardless of unknown initial conditions?
Great question. The short answer is yes, but whether that matters depends on what you're looking to do.
When plotting SIMB3 data, I typically use a datum set at the snow/ice interface. The position of this datum relative to the SIMB3 depends on the floatation height of the buoy on installation which is primarily determined by the density of the water. The floatation height can vary quite a bit depending on where the buoy is deployed (i.e, salt vs. fresh water).
Once frozen-in, the vertical position of the SIMB3 relative to the ice is fixed and snow accumulation/melt and bottom growth/melt are reflected by increases and decreases in the surface and bottom sounder values. Through the season, we typically interpret increases in surface sounder values as snowmelt until the value reaches the initial (deployment) sounder value + the deployment snow height. Increases beyond this we interpret at surface ice melt.
The reason I say it depends is due to your "absolute thickness measurement" question. The SIMB3 rangefinders always measure the total snow+ice thickness between them. They will do this whether the buoy is floating or fixed. However, in order to demarcate surface vs. bottom melt or surface ice melt vs. snowmelt, the buoy must be frozen in.
I have a figure from my dissertation that explains this well. I'll see if I can dig it up!
