The Cooperative Institute for Mesoscale Meteorological Studies (CIMMS) expenditures in CY 12 were a record $14.17M. This is a record for both CIMMS and any OU unit, and culminated a more than 11-fold increase over the last 20 years.
2013 Great Lakes Summer Student Fellowship Program
The Cooperative Institute for Limnology and Ecosystems Research (CILER), located at the University of Michigan, announces the 2013 Great Lakes Summer Student Fellowship Program. This year’s program is hosted by the National Oceanic and Atmospheric Administration’s Great Lakes Environmental Research Lab (GLERL). The CILER summer fellowship program exposes students to a broad range of fields and provides an exciting opportunity for students to conduct research in the Great Lakes region under the mentorship of a researcher or working professional.
2013 Great Lakes Summer Student Fellowship Program
The National Severe Storms Laboratory (NSSL) is looking for young, old, and in-between volunteers to make observations for the research project Precipitation Identification Near the Ground project (PING) using the mobile apps.
CICS Researchers Develop Tools for Monitoring Drought from Space
Researchers at the Cooperative Institute for Climate and Satellites led by Christopher Hain, along with colleagues from the National Oceanic and Atmospheric Administration (NOAA) and the United States Department of Agriculture (USDA) Agricultural Research Service, developed a unique satellite based methodology for mapping drought over the United States. The tool is currently being evaluated for use as a part of the decision making process at the National Drought Mitigation Center in support of their monthly drought briefing.
Background:
The Evaporative Stress Index (ESI) provides objective, high-resolution information related to evaporation of water from land surface. Anomalies in how much water is used by crops and vegetation are especially important during conditions of drought. Signatures of vegetation stress can be detected by determining how fast the land surface heats up before any deterioration in vegetation occurs, in contrast to others methods which only look at how “green” vegetation is to determine its health. ESI can also provide an effective early warning signal of impending “flash droughts”, which can be brought on by extended periods of hot, dry and windy conditions leading to a rapid loss of soil moisture. This has been demonstrated by the ability of ESI to capture the 2012 “flash drought” over the central United States, where ESI showed developing drought conditions before it was shown in other drought indicators.
Significance:
ESI provides additional assessment of current drought conditions, supplementing precipitation and modeling-based indices and provides an invaluable resource to decision-makers who usually depend on a convergence of information in the decision making process. This work supports NOAA’s goal of climate adaptation and mitigation, improved freshwater resource management and reducing loss of life, property, and disruption from high-impact events. ESI maps are distributed during the growing season through the Drought Portal (www.drought.gov) maintained by the National Integrated Drought Information Service.
Researchers at the Cooperative Institute for Climate and Satellites led by Christopher Hain, along with colleagues from NOAA and the USDA Agricultural Research Service have developed a unique satellite based methodology for mapping drought over the United States.
CICS Researchers Develop Tools for Monitoring Drought from Space
Researchers at the Cooperative Institute for Climate and Satellites led by Christopher Hain, along with colleagues from the National Oceanic and Atmospheric Administration (NOAA) and the United States Department of Agriculture (USDA) Agricultural Research Service, developed a unique satellite based methodology for mapping drought over the United States. The tool is currently being evaluated for use as a part of the decision making process at the National Drought Mitigation Center in support of their monthly drought briefing.
Background:
The Evaporative Stress Index (ESI) provides objective, high-resolution information related to evaporation of water from land surface. Anomalies in how much water is used by crops and vegetation are especially important during conditions of drought. Signatures of vegetation stress can be detected by determining how fast the land surface heats up before any deterioration in vegetation occurs, in contrast to others methods which only look at how “green” vegetation is to determine its health. ESI can also provide an effective early warning signal of impending “flash droughts”, which can be brought on by extended periods of hot, dry and windy conditions leading to a rapid loss of soil moisture. This has been demonstrated by the ability of ESI to capture the 2012 “flash drought” over the central United States, where ESI showed developing drought conditions before it was shown in other drought indicators.
Significance:
ESI provides additional assessment of current drought conditions, supplementing precipitation and modeling-based indices and provides an invaluable resource to decision-makers who usually depend on a convergence of information in the decision making process. This work supports NOAA’s goal of climate adaptation and mitigation, improved freshwater resource management and reducing loss of life, property, and disruption from high-impact events. ESI maps are distributed during the growing season through the Drought Portal (www.drought.gov) maintained by the National Integrated Drought Information Service.
Researchers at the Cooperative Institute for Climate and Satellites led by Christopher Hain, along with colleagues from NOAA and the USDA Agricultural Research Service have developed a unique satellite based methodology for mapping drought over the United States.