Modeled snow-water-equivalent, projected seasonal peak values under T4 climate change scenario, Upper Deschutes River Basin, Oregon [full and clipped versions]

Mean modeled snow-water-equivalent (meters) on February 20, the date of peak basin-integrated mean modeled snow-water-equivalent (meters) for the T4 climate change scenario. Reference period: the period 1989 – 2011 for the Upper Deschutes River Basin domain, for which observed historical meteorology is used for model input. T4 scenario: the observed historical (reference period) meteorology is perturbed by adding +4°C to each daily temperature record in the reference period meteorology, and this data is then used as input to the model.

Categories: Data; Types: Downloadable, GeoTIFF, Map Service, Raster; Tags: Northwest CASC, Oregon, Rivers, Streams and Lakes, Upper Deschutes River Basin, Water, Coasts and Ice, All tags... climate change, precipitation, snow water equivalent, Fewer tags

Modeled snow-water-equivalent, percent difference between historical and projected April 1 values under T4 climate change scenario, Upper Deschutes River Basin, Oregon [full and clipped versions]

The percentage difference between mean modeled snow-water-equivalent (meters) on April 1 for the reference (1989-2011) climate period and mean modeled snow-water-equivalent on April 1 for the T4 climate change scenario. Reference period: the period 1989 – 2011 for the Upper Deschutes River Basin domain, for which observed historical meteorology is used for model input. T4 scenario: the observed historical (reference period) meteorology is perturbed by adding +4°C to each daily temperature record in the reference period meteorology, and this data is then used as input to the model.

Categories: Data; Types: Downloadable, GeoTIFF, Map Service, Raster; Tags: Northwest CASC, Oregon, Rivers, Streams and Lakes, Upper Deschutes River Basin, Water, Coasts and Ice, All tags... climate change, precipitation, snow water equivalent, Fewer tags

Modeled snow-water-equivalent, absolute difference in historical and projected seasonal peak values under T4P10 climate change scenario, Upper Deschutes River Basin, Oregon [full and clipped versions]

The absolute difference between mean modeled snow-water-equivalent on March 28 for the reference period and mean modeled snow-water-equivalent on February 20 for the T4P10 climate change scenario, which are the dates of peak basin-integrated SWE for each period, respectively.Reference period: the period 1989 – 2011 for the Upper Deschutes River Basin domain, for which observed historical meteorology is used for model input. T4P10 scenario: the observed historical (reference period) meteorology is perturbed by adding +4°C to each daily temperature record, and +10% precipitation to each daily precipitation record in the reference period meteorology, and this data is then used as input to the model.

Categories: Data; Types: Downloadable, GeoTIFF, Map Service, Raster; Tags: Northwest CASC, Oregon, Rivers, Streams and Lakes, Upper Deschutes River Basin, Water, Coasts and Ice, All tags... climate change, precipitation, snow water equivalent, Fewer tags

Modeled snow-water-equivalent, percent difference between historical and projected April 1 values under T2 climate change scenario, Upper Deschutes River Basin, Oregon [full and clipped versions]

The percentage difference between mean modeled snow-water-equivalent (meters) on April 1 for the reference (1989-2011) climate period and mean modeled snow-water-equivalent on April 1 for the T2 climate change scenario. Reference period: the period 1989 – 2011 for the Upper Deschutes River Basin domain, for which observed historical meteorology is used for model input. T2 scenario: the observed historical (reference period) meteorology is perturbed by adding +2°C to each daily temperature record in the reference period meteorology, and this data is then used as input to the model.

Categories: Data; Types: Downloadable, GeoTIFF, Map Service, Raster; Tags: Northwest CASC, Oregon, Rivers, Streams and Lakes, Upper Deschutes River Basin, Water, Coasts and Ice, All tags... climate change, precipitation, snow water equivalent, Fewer tags

Modeled snow-water-equivalent, projected seasonal peak values under T2 climate change scenario, Upper Deschutes River Basin, Oregon [full and clipped versions]

Mean modeled snow-water-equivalent (meters) on March 13, the date of peak basin-integrated mean modeled snow-water-equivalent (meters) for the T2 climate change scenario. Reference period: the period 1989 – 2011 for the Upper Deschutes River Basin domain, for which observed historical meteorology is used for model input. T2 scenario: the observed historical (reference period) meteorology is perturbed by adding +2oC to each daily temperature record in the reference period meteorology, and this data is then used as input to the model.

Categories: Data; Types: Downloadable, GeoTIFF, Map Service, Raster; Tags: Northwest CASC, Oregon, Rivers, Streams and Lakes, Upper Deschutes River Basin, Water, Coasts and Ice, All tags... climate change, precipitation, snow water equivalent, Fewer tags

Modeled snow-water-equivalent, absolute difference in historical and projected April 1 values under T4P10 climate change scenario, Upper Deschutes River Basin, Oregon [full and clipped versions]

The absolute difference between mean modeled snow-water-equivalent (meters) on April 1 for the reference (1989-2011) climate period and mean modeled snow-water-equivalent on April 1 for the T4P10 climate change scenario. Reference period: the period 1989 – 2011 for the Upper Deschutes River Basin domain, for which observed historical meteorology is used for model input. T4P10 scenario: the observed historical (reference period) meteorology is perturbed by adding +4°C to each daily temperature record, and +10% precipitation to each daily precipitation record in the reference period meteorology, and this data is then used as input to the model.

Categories: Data; Types: Downloadable, GeoTIFF, Map Service, Raster; Tags: Northwest CASC, Oregon, Rivers, Streams and Lakes, Upper Deschutes River Basin, Water, Coasts and Ice, All tags... climate change, precipitation, snow water equivalent, Fewer tags

Modeled snow-water-equivalent, absolute difference in historical and projected seasonal peak values under T2P10 climate change scenario, Upper Deschutes River Basin, Oregon [full and clipped versions]

The absolute difference between mean modeled snow-water-equivalent on March 28 for the reference period and mean modeled snow-water-equivalent on March 13 for the T2P10 climate change scenario, which are the dates of peak basin-integrated SWE for each period, respectively. Reference period: the period 1989 – 2011 for the Upper Deschutes River Basin domain, for which observed historical meteorology is used for model input. T2P10 scenario: the observed historical (reference period) meteorology is perturbed by adding +2°C to each daily temperature record, and +10% precipitation to each daily precipitation record in the reference period meteorology, and this data is then used as input to the model.

Categories: Data; Types: Downloadable, GeoTIFF, Map Service, Raster; Tags: Northwest CASC, Oregon, Rivers, Streams and Lakes, Upper Deschutes River Basin, Water, Coasts and Ice, All tags... climate change, precipitation, snow water equivalent, Fewer tags

Modeled snow-water-equivalent, projected April 1 values under T2 climate change scenario, Upper Deschutes River Basin, Oregon [full and clipped versions]

Mean modeled snow-water-equivalent (meters) on April 1 for the T2 climate change scenario. T2 scenario: the observed historical (reference period) meteorology is perturbed by adding +2°C to each daily temperature record in the reference period meteorology, and this data is then used as input to the model.

Categories: Data; Types: Downloadable, GeoTIFF, Map Service, Raster; Tags: Northwest CASC, Oregon, Rivers, Streams and Lakes, Upper Deschutes River Basin, Water, Coasts and Ice, All tags... climate change, precipitation, snow water equivalent, Fewer tags

Modeled snow-water-equivalent, absolute difference in historical and projected seasonal peak values under T4 climate change scenario, Upper Deschutes River Basin, Oregon [full and clipped versions]

The absolute difference between mean modeled snow-water-equivalent on March 28 for the reference period and mean modeled snow-water-equivalent on February 20 for the T4 climate change scenario, which are the dates of peak basin-integrated SWE for each period, respectively. Reference period: the period 1989 – 2011 for the Upper Deschutes River Basin domain, for which observed historical meteorology is used for model input. T4 scenario: the observed historical (reference period) meteorology is perturbed by adding +4°C to each daily temperature record in the reference period meteorology, and this data is then used as input to the model.

Categories: Data; Types: Downloadable, GeoTIFF, Map Service, Raster; Tags: Northwest CASC, Oregon, Rivers, Streams and Lakes, Upper Deschutes River Basin, Water, Coasts and Ice, All tags... climate change, precipitation, snow water equivalent, Fewer tags

Modeled snow-water-equivalent, projected seasonal peak values under T4P10 climate change scenario, Upper Deschutes River Basin, Oregon [full and clipped versions]

Mean modeled snow-water-equivalent (meters) on February 20, the date of peak basin-integrated mean modeled snow-water-equivalent (meters) for the T4P10 climate change scenario. Reference period: the period 1989 – 2011 for the Upper Deschutes River Basin domain, for which observed historical meteorology is used for model input. T4P10 scenario: the observed historical (reference period) meteorology is perturbed by adding +4°C to each daily temperature record, and +10% precipitation to each daily precipitation record in the reference period meteorology, and this data is then used as input to the model.

Categories: Data; Types: Downloadable, GeoTIFF, Map Service, Raster; Tags: Northwest CASC, Oregon, Rivers, Streams and Lakes, Upper Deschutes River Basin, Water, Coasts and Ice, All tags... climate change, precipitation, snow water equivalent, Fewer tags

Modeled snow-water-equivalent, historical seasonal peak values, Upper Deschutes River Basin, Oregon [full and clipped versions]

Mean modeled snow-water-equivalent (meters) on March 28, the date of peak basin-integrated mean modeled snow-water-equivalent (meters) for the reference climate period. Reference period: the period 1989 – 2011 for the Upper Deschutes River Basin domain, for which observed historical meteorology is used for model input.

Categories: Data; Types: Downloadable, GeoTIFF, Map Service, Raster; Tags: Northwest CASC, Oregon, Rivers, Streams and Lakes, Upper Deschutes River Basin, Water, Coasts and Ice, All tags... climate change, precipitation, snow water equivalent, Fewer tags

Modeled snow-water-equivalent, percent difference between historical and projected April 1 values under T4P10 climate change scenario, Upper Deschutes River Basin, Oregon [full and clipped versions]

The percentage difference between mean modeled snow-water-equivalent (meters) on April 1 for the reference (1989-2011) climate period and mean modeled snow-water-equivalent on April 1 for the T4P10 climate change scenario. Reference period: the period 1989 – 2011 for the Upper Deschutes River Basin domain, for which observed historical meteorology is used for model input. T4P10 scenario: the observed historical (reference period) meteorology is perturbed by adding +4°C to each daily temperature record, and +10% precipitation to each daily precipitation record in the reference period meteorology, and this data is then used as input to the model.

Categories: Data; Types: Downloadable, GeoTIFF, Map Service, Raster; Tags: Northwest CASC, Oregon, Rivers, Streams and Lakes, Upper Deschutes River Basin, Water, Coasts and Ice, All tags... climate change, precipitation, snow water equivalent, Fewer tags

Modeled snow-water-equivalent, percent difference between historical and projected seasonal peak values under T4 climate change scenario, Upper Deschutes River Basin, Oregon [full and clipped versions]

The percentage difference between mean modeled snow-water-equivalent on March 28 for the reference period and mean modeled snow-water-equivalent on February 20 for the T4 climate change scenario, which are the dates of peak basin-integrated SWE for each period, respectively. Reference period: the period 1989 – 2011 for the Upper Deschutes River Basin domain, for which observed historical meteorology is used for model input. T4 scenario: the observed historical (reference period) meteorology is perturbed by adding +4°C to each daily temperature record in the reference period meteorology, and this data is then used as input to the model.

Categories: Data; Types: Downloadable, GeoTIFF, Map Service, Raster; Tags: Northwest CASC, Oregon, Rivers, Streams and Lakes, Upper Deschutes River Basin, Water, Coasts and Ice, All tags... climate change, precipitation, snow water equivalent, Fewer tags

Modeled snow-water-equivalent, absolute difference in historical and projected seasonal peak values under T2 climate change scenario, Upper Deschutes River Basin, Oregon [full and clipped versions]

The absolute difference between mean modeled snow-water-equivalent on March 28 for the reference period and mean modeled snow-water-equivalent on March 13 for the T2 climate change scenario, which are the dates of peak basin-integrated SWE for each period, respectively. Reference period: the period 1989 – 2011 for the Upper Deschutes River Basin domain, for which observed historical meteorology is used for model input. T2 scenario: the observed historical (reference period) meteorology is perturbed by adding +2°C to each daily temperature record in the reference period meteorology, and this data is then used as input to the model.

Categories: Data; Types: Downloadable, GeoTIFF, Map Service, Raster; Tags: Northwest CASC, Oregon, Rivers, Streams and Lakes, Upper Deschutes River Basin, Water, Coasts and Ice, All tags... climate change, precipitation, snow water equivalent, Fewer tags

Modeled snow-water-equivalent, projected April 1 values under T4 climate change scenario, Upper Deschutes River Basin, Oregon [full and clipped versions]

Mean modeled snow-water-equivalent (meters) on April 1 for the T4 climate change scenario. T4 scenario: the observed historical (reference period) meteorology is perturbed by adding +4°C to each daily temperature record in the reference period meteorology, and this data is then used as input to the model.

Categories: Data; Types: Downloadable, GeoTIFF, Map Service, Raster; Tags: Northwest CASC, Oregon, Rivers, Streams and Lakes, Upper Deschutes River Basin, Water, Coasts and Ice, All tags... climate change, precipitation, snow water equivalent, Fewer tags

Modeled snow-water-equivalent, absolute difference in historical and projected April 1 values under T2 climate change scenario, Upper Deschutes River Basin, Oregon [full and clipped versions]

The absolute difference between mean modeled snow-water-equivalent (meters) on April 1 for the reference (1989-2011) climate period and mean modeled snow-water-equivalent on April 1 for the T2 climate change scenario. Reference period: the period 1989 – 2011 for the Upper Deschutes River Basin domain, for which observed historical meteorology is used for model input. T2 scenario: the observed historical (reference period) meteorology is perturbed by adding +2°C to each daily temperature record in the reference period meteorology, and this data is then used as input to the model.

Categories: Data; Types: Downloadable, GeoTIFF, Map Service, Raster; Tags: Northwest CASC, Oregon, Rivers, Streams and Lakes, Upper Deschutes River Basin, Water, Coasts and Ice, All tags... climate change, precipitation, snow water equivalent, Fewer tags

Modeled snow-water-equivalent, projected April 1 values under T2P10 climate change scenario, Upper Deschutes River Basin, Oregon [full and clipped versions]

Mean modeled snow-water-equivalent (meters) on April 1 for the T2P10 climate change scenario. T2P10 scenario: the observed historical (reference period) meteorology is perturbed by adding +2°C to each daily temperature record, and +10% precipitation to each daily precipitation record in the reference period meteorology, and this data is then used as input to the model.

Categories: Data; Types: Downloadable, GeoTIFF, Map Service, Raster; Tags: Northwest CASC, Oregon, Rivers, Streams and Lakes, Upper Deschutes River Basin, Water, Coasts and Ice, All tags... climate change, precipitation, snow water equivalent, Fewer tags

Modeled snow-water-equivalent, percent difference between historical and projected seasonal peak values under T4 climate change scenario, Upper Deschutes River Basin, Oregon [full and clipped versions]

The percentage difference between mean modeled snow-water-equivalent on March 28 for the reference period and mean modeled snow-water-equivalent on February 20 for the T4P10 climate change scenario, which are the dates of peak basin-integrated SWE for each period, respectively. Reference period: the period 1989 – 2011 for the Upper Deschutes River Basin domain, for which observed historical meteorology is used for model input. T4P10 scenario: the observed historical (reference period) meteorology is perturbed by adding +4°C to each daily temperature record, and +10% precipitation to each daily precipitation record in the reference period meteorology, and this data is then used as input to the model.

Categories: Data; Types: Downloadable, GeoTIFF, Map Service, Raster; Tags: Northwest CASC, Oregon, Rivers, Streams and Lakes, Upper Deschutes River Basin, Water, Coasts and Ice, All tags... climate change, precipitation, snow water equivalent, Fewer tags

Modeled snow-water-equivalent, historical April 1 values, Upper Deschutes River Basin, Oregon [full and clipped versions]

Mean modeled snow-water-equivalent (meters) on April 1 for the reference (1989-2011) climate period. Reference period: the period 1989 – 2011 for the Upper Deschutes River Basin domain, for which observed historical meteorology is used for model input.

Categories: Data; Types: Downloadable, GeoTIFF, Map Service, Raster; Tags: Northwest CASC, Oregon, Rivers, Streams and Lakes, Upper Deschutes River Basin, Water, Coasts and Ice, All tags... climate change, precipitation, snow water equivalent, Fewer tags

Modeled snow-water-equivalent, absolute difference in historical and projected April 1 values under T2P10 climate change scenario, Upper Deschutes River Basin, Oregon [full and clipped versions]

The absolute difference between mean modeled snow-water-equivalent (meters) on April 1 for the reference (1989-2011) climate period and mean modeled snow-water-equivalent on April 1 for the T2P10 climate change scenario. Reference period: the period 1989 – 2011 for the Upper Deschutes River Basin domain, for which observed historical meteorology is used for model input. T2P10 scenario: the observed historical (reference period) meteorology is perturbed by adding +2°C to each daily temperature record, and +10% precipitation to each daily precipitation record in the reference period meteorology, and this data is then used as input to the model.

Categories: Data; Types: Downloadable, GeoTIFF, Map Service, Raster; Tags: Northwest CASC, Oregon, Rivers, Streams and Lakes, Upper Deschutes River Basin, Water, Coasts and Ice, All tags... climate change, precipitation, snow water equivalent, Fewer tags