Checking for non-preferred file/folder path names (may take a long time depending on the number of files/folders) ...

SnowClim: Pre-industrial Climate Data
Authors:
Owners: This resource does not have an owner who is an active HydroShare user. Contact CUAHSI (help@cuahsi.org) for information on this resource.
Type: Resource
Storage: The size of this resource is 6.6 GB
Created: Oct 25, 2021 at 10:40 p.m.
Last updated: Jul 04, 2022 at 2:19 p.m.
DOI: 10.4211/hs.0c852b12f668438fb9f0188a1cc6e8a9
Citation: See how to cite this resource
Content types: Multidimensional Content  Geographic Raster Content 
Sharing Status: Published
Views: 814
Downloads: 119
+1 Votes: Be the first one to 
 this.
Comments: No comments (yet)

Abstract

This resource is part of the larger SnowClim Dataset (https://www.hydroshare.org/resource/acc4f39ad6924a78811750043d59e5d0/). This resource contains pre-industrial climate metrics. Climate metrics were created by first downscaling outputs of the Weather Research and Forecasting Model (WRF; Rasmussen and Liu, 2017) for the present-day period (1 Oct 2000 to 30 Sep 2013) using a combination of local lapse rates and terrain corrections for solar radiation as described in Lute et al., (in prep). Downscaled data was then perturbed by the multi-model mean delta from CMIP5 to create climate date reflecting pre-industrial conditions (1850-1879). Climate metrics are available on a ~210 m grid for the western United States in both netCDF and GeoTiff formats.

Additional information is available in:
Lute, A. C., Abatzoglou, J., and Link, T.: SnowClim v1.0: high-resolution snow model and data for the western United States, Geosci. Model Dev., 15, 5045–5071, https://doi.org/10.5194/gmd-15-5045-2022, 2022.

Subject Keywords

Coverage

Spatial

Coordinate System/Geographic Projection:
WGS 84 EPSG:4326
Coordinate Units:
Decimal degrees
Place/Area Name:
Contiguous Western United States
North Latitude
50.0007°
East Longitude
-101.9979°
South Latitude
28.9987°
West Longitude
-125.0007°

Temporal

Start Date:
End Date:

Content

README.txt 

Readme file for: SnowClim: Pre-industrial Climate Data
(https://www.hydroshare.org/resource/0c852b12f668438fb9f0188a1cc6e8a9/)


This .txt file was generated on 4 Nov 2021 by A.C. Lute.


Summary:
------------------------------------------------------------------------
This directory contains climate metrics for the pre-industrial period
and represents a subset of the SnowClim Dataset
(https://www.hydroshare.org/resource/acc4f39ad6924a78811750043d59e5d0/).
The SnowClim Dataset was developed following the methods presented in
Lute et al., (in prep). The pre-industrial climate data was created by
downscaling 4 km climate forcings from the Weather Research and
Forecasting (WRF) model (Rasmussen and Liu, 2017) over a thirteen year
period (1 Oct 2000 to 30 Sep 2013) and then perturbing the downscaled
data using multi-model mean deltas from CMIP5 to create climate data
that reflects conditions during 1850-1879. Climate data was summarized
into climate metrics at ~210 m spatial resolution for the western US.
Additional details about the downscaling approach can be found in Lute
et al., (in prep).


File Organization:
------------------------------------------------------------------------
Climate metrics are available in separate files. For accessibility,
metrics are available in both GeoTiff and netCDF format. The suffix
'_PRE' indicates that the data represents conditions under
pre-industrial climate. Metrics with values for each month have values
for January through December.


Metrics:
------------------------------------------------------------------------
- downwelling shortwave

	units: W m-2

	Monthly mean downwelling shortwave radiation at the surface,
	downscaled from WRF (Rasmussen and Liu, 2017; which accounts for
	cloud cover) using the R insolvent package to correct for aspect,
	self-shading, and shading by adjacent terrain.

- minimum air temperature (tmin)

	units: °C

	Monthly mean of daily minimum 2m air temperatures, downscaled from 
	WRF (Rasmussen and Liu, 2017) using local lapse rates.

- maximum air temperature (tmax)

	units: °C

	Monthly mean of daily maximum 2m air temperatures, downscaled from 
	WRF (Rasmussen and Liu, 2017) using local lapse rates.

- mean air temperature (tmean)

	units: °C

	Monthly mean of daily mean 2m air temperatures, downscaled from WRF
	(Rasmussen and Liu, 2017) using local lapse rates.

- mean dew point temperature (tdmean)

	units: °C

	Monthly mean of daily mean 2m dewpoint temperatures, downscaled 
	from WRF (Rasmussen and Liu, 2017) using local lapse rates.

- precipitation (ppt)

	units: meters (m)

	Monthly total precipitation, downscaled from WRF (Rasmussen and 
	Liu, 2017) using local lapse rates and bias corrected using PRISM
	precipitation data (PRISM Climate Group, 2015).

- number of temperature sign changes (tschange)

	units: count

	Annual number of times that temperature (°C) changes sign. 
	Calculated from 4-hourly air temperatures downscaled from WRF 
	(Rasmussen and Liu, 2017) using local lapse rates.


Sharing and access information:
------------------------------------------------------------------------
1. Licenses/restrictions placed on the data: 
This resource is shared under the Creative Commons Attribution CC BY.

2. Links to publications that cite or use the data: 
none yet

3. Links to other publicly accessible locations of the data: 
none

4. Links/relationships to ancillary data sets: 
SnowClim Model and Dataset
(https://www.hydroshare.org/resource/acc4f39ad6924a78811750043d59e5d0/)
SnowClim Model Code
(https://www.hydroshare.org/resource/dc3a40e067bf416d82d87c664d2edcc7/)
SnowClim Pre-industrial Snow Data
(https://www.hydroshare.org/resource/fc621d75985c4695b6758ade312241c6/)
SnowClim Present Climate Data
(https://www.hydroshare.org/resource/7e3678f00ad74bfd881f91d6f6f81494/)
SnowClim Present Snow Data
(https://www.hydroshare.org/resource/2dbd6e849a754c0981b99ee7c09031eb/)
SnowClim Future Climate Data
(https://www.hydroshare.org/resource/36895c3a2c53409893f5ba02ee142767/)
SnowClim Future Snow Data
(https://www.hydroshare.org/resource/96cba44cd74843639f855d7c9e22024b/)

5. Was data derived from another source? 
yes. Climate data was downscaled from the dataset of Rasmussen and Liu,
2017.

6. To cite this data, please reference both of the following:

Lute, A., J. Abatzoglou, T. Link (2021). SnowClim Model and Dataset,
	HydroShare,
	http://www.hydroshare.org/resource/acc4f39ad6924a78811750043d59e5d0
Lute, A.C., John Abatzoglou, and Timothy Link (in prep), SnowClim:
	high-resolution snow model and 	data for the Western United States.
	In preparation for submission to Geoscientific Model Development.


Authors:
------------------------------------------------------------------------
A.C. Lute, University of Idaho 
John Abatzoglou, University of California, Merced 
Timothy Link, University of Idaho


Contact Information:
------------------------------------------------------------------------
Please contact A.C. Lute with questions, concerns, or comments. Current
contact information is available on the webpage this file was downloaded
from.


References:
------------------------------------------------------------------------
Lute, A.C., John Abatzoglou, and Timothy Link (in prep), SnowClim:
	high-resolution snow model and 	data for the Western United States.
	In preparation for submission to Geoscientific Model Development. 
PRISM Climate Group, Oregon State University, http://prism.oregonstate.edu,
	created 27 May 2015. 
Rasmussen, R., and C. Liu. 2017. High Resolution WRF Simulations of the 
	Current and Future Climate of North America. Research Data Archive at 
	the National Center for Atmospheric Research, Computational and 
	Information Systems Laboratory. https://doi.org/10.5065/D6V40SXP. 
	Accessed 24 Sep 2018.

Data Services

The following web services are available for data contained in this resource. Geospatial Feature and Raster data are made available via Open Geospatial Consortium Web Services. The provided links can be copied and pasted into GIS software to access these data. Multidimensional NetCDF data are made available via a THREDDS Data Server using remote data access protocols such as OPeNDAP. Other data services may be made available in the future to support additional data types.

Web Map Service

https://geoserver.hydroshare.org/geoserver/HS-0c852b12f668438fb9f0188a1cc6e8a9/wms?request=GetCapabilities

Web Coverage Service

https://geoserver.hydroshare.org/geoserver/HS-0c852b12f668438fb9f0188a1cc6e8a9/wcs?request=GetCapabilities

THREDDS Data Service

https://thredds.hydroshare.org/thredds/catalog/hydroshare/resources/0c852b12f668438fb9f0188a1cc6e8a9/data/contents/catalog.html

THREDDS Documentation    OPeNDAP Documentation

Related Resources

The content of this resource is derived from Rasmussen, R., and C. Liu. 2017. High Resolution WRF Simulations of the Current and Future Climate of North America. Research Data Archive at the National Center for Atmospheric Research, Computational and Information Systems Laboratory. https://doi.org/10.5065/D6V40SXP. Accessed 24 Sep 2018.
This resource belongs to the following collections:
Title Owners Sharing Status My Permission
SnowClim Model and Dataset A. Lute  Published Open Access

Credits

Funding Agencies

This resource was created using funding from the following sources:
Agency Name Award Title Award Number
Consortium of Universities for the Advancement of Hydrologic Science, Inc. (CUAHSI) Hydroinformatics Innovation Fellowship NSF Cooperative Agreement No. EAR-1849458
National Science Foundation Integrative Graduate Education and Research Traineeship (IGERT) Program 1249400

How to Cite

Lute, A., J. Abatzoglou, T. Link (2022). SnowClim: Pre-industrial Climate Data, HydroShare, https://doi.org/10.4211/hs.0c852b12f668438fb9f0188a1cc6e8a9

This resource is shared under the Creative Commons Attribution CC BY.

 http://creativecommons.org/licenses/by/4.0/
CC-BY

Comments

There are currently no comments

New Comment

required