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Inserted citation to relevant paper.
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dfosterhill authored Dec 17, 2019
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# snowdensity

We have prepared scripts in Matlab, Jupyter Notebook, and Python that will calculate snow water
equivalent based on day, month, year, lat, lon, and snow depth at the observation point. In this
repo you will find a single matlab (.m) function file, a single jupyter notebook (.ipynb) file,
equivalent based on day, month, year, lat, lon, and snow depth at the observation point.

These scripts are associated with:
Hill, D.F., Burakowski, E.A., Crumley, R.L., Keon, J., Hu, J.M., Arendt, A.A., Wikstrom Jones, K., Wolken G.J., 2019, "Converting snow depth to snow water equivalent using climatological variables," The Cryosphere, v.13, pp.1767-1784 https://doi.org/10.5194/tc-13-1767-2019

In this repo you will find a single matlab (.m) function file, a single jupyter notebook (.ipynb) file,
a single python (.py) file, two zipped ESRI ASCII grid files, and one (.rtf) file with information
about the grid files. The grids contain climatological normals of winter precipitation (Dec-Jan-Feb)
and temperature difference (diff between mean T of warmest month and mean T of coldest month).
Expand All @@ -26,7 +30,6 @@ DOY - day of water year (Oct 1 is the origin, i.e. DOY=1)

Specific script information is below.


### Matlab function

function [SWE,DOY] = dfhill_swe_calculator(Y,M,D,H,LAT,LON)
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