Image Metadata File

Person Submitting Metadata/Point of Contact:

Name: Laura Stevens
Physical Address: 151 Patton Ave Asheville, NC 28801
Organization: CICSNC

Image Info:

Image Title:
Projections of decadal mean precipitation by calendar month for Fort Yukon
Image Description:
Simulations of decadal mean precipitation (inches) by calendar month for Fort Yukon for the B1 (top) and A2 (bottom) scenarios. Color coding for decades is given above bar graphs; deeper blues indicate increasing range of simulations. Across-model spread is indicated by thin black lines at tops of bars. These are downscaled multi-model means from 5 CMIP3 global climate simulations.
Attributes (variables name, description and units):
Decadal mean precipitation (inches / month)
Temporal domain:
Start Time: 1961-01-01 00:00:00.0
End Time: 2099-12-31 00:00:00.0
Spatial domain:
Max latitude:
Min latitude:
Max longitude:
Min longitude:
Fort Yukon, Simulated, CMIP3, Precipitation
Usage Limitations/Constraints:
Citation of image source:

Panels within image: 2

Image Description:
B1 Scenario
Image Description:
A2 Scenario

Image Creation:

When was image created (YYYY-MM-DD): 2012-12-18 00:00:00.0

Data Sources:

Dataset #1
Dataset Name: CMIP3
Dataset Version:
Dataset Description: Coupled Model Intercomparison Project Phase 3
Dataset ID:
Dataset Release/Publication Date:
Affiliated Organization Name and Role: The Program for Climate Model Diagnosis and Intercomparison (PCMDI)
Date Accessed: 2012-08-30 00:00:00.0
Dataset Location (ftp, URL, etc):
Data qualifier (QA/QC, etc):
The denominator of the scale of the source/output:
Spatial Reference system used by the source/output:
Citation to metadata:
Description of the scope of a resource, quality report, or process:
Spatial Extent of the source/output (polygon, box or region name): All grids; 1971 - 1999 for 20th Century runs; 2021 - 2050, 2041 - 2070, and 2070 - 2099 for 21st Century runs
Temporal extent of the source/output:
Vertical extent of the source/output:
Identifier of the processing level of the source/input:
Spatial resolution of the source/output: