The image shown to the left is one of our climatological sites that constitute the UV radiation monitoring network within the USDA UV-B Monitoring and Research Program. Each site has a suite of instruments that measure downwelling radiation in various agriculturally important regions between 280 and 1040 nanometers. Detailed information about each instrument and each location can be found under the above Monitoring Network link.

UV Index for Sep 20, 2019 Local Time
Graph of UV Index is not available for this location

Latest News
September 2019

UVMRP and Dr. Chelsea Corr hosted a workshop UV Radiation Research and Ecosystem-Climate Interactions on Aug 8-9, 2019. Presentations included Climate changeand UV-B effects on agricultural crops, Impacts of wildfire smoke on surface shortwave radiation in the California Sacramento Valley in Summer 2018 and Impacts of stratospheric sulfate geoengineering on UV and visible radiation reaching the surface. Presentations were followed by a round table discussion of emerging ideas and questions in effects research, ecosystem modeling and climatological data collection.

Dr. Maosi Chen and Coloradoview student intern Ben Newell attended the SPIE — Applications of Machine Learning conference between August 12-14, 2019. Dr. Chen presented the work titled Reconstruct missing pixels of Landsat land surface temperature product using a CNN with partial convolution during the conference.

Dr. Yan'an Liu visited the Department of Atmospheric and Oceanic Science, University of Maryland in College Park to discuss the incorporation of UVMRP's UV radiation data in Dr. Xin-Zhong Liang's climate model and how UV radiation would impact crop yields.

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Picture of our instruments at various locations
Town:
Baton Rouge
State:
Louisiana
Opened:
1996-02-09
Latitude(Deg):
30.36 N
Longitude(Deg):
91.17 W
Elevation(m):
6


Introduction

Ultraviolet radiation is an important component of Earth’s environment. Over time, all life on Earth has slowly evolved under the influence of UV radiation. In addition to its effects on humans, this UV energy has been studied on small and large organisms alike, from powdery mildew on wine-grape crops to large-scale rangeland grasses and forests.

Because Earth’s ecosystems have evolved slowly in concert with global climate change, any abrupt modification of UV levels must be taken seriously by the scientific community. Such an abrupt impulse was detected in the mid-to-late period of the last century, when it was discovered that chemicals harmful to the Earth’s protective ozone layer were being emitted by societies across the globe. Satellite measurements soon pointed to significant ozone depletions over Antarctic regions, and later measurements showed similar, though less dramatic and more infrequent, ozone depletions over the Arctic region.

Since then, scientists in many disciplines have been investigating possible ramifications of changing UV levels. In 1991, as part of this response, the United States Department of Agriculture (USDA) investigated the need for a nationwide UV monitoring activity. Positive responses from the scientific community prompted USDA to initiate the UV-B Monitoring and Research Program. The program is tasked with establishing a UV climatology and studying the effects of UV radiation on a wealth of agricultural interests including crop plants, animals, rangelands, forests, and people involved in agricultural industries.

Located within Colorado State University’s Natural Resource Ecology Laboratory, the USDA UV-B Monitoring and Research Program (UVMRP):

  • provides high-quality, geographically distributed ultraviolet-B (UV-B) radiation measurements in support of agricultural science research that studies UV-B effects on crops, forests, plants, ecosystems, humans, animals, and aquatic systems;
  • conducts UV-B impact studies on economically important crops and works with researchers nationwide to study the response of crops to UV-B radiation and other environmental stress factors; and
  • collaborates on developing the Climate-Agroecosystem- UV Interactions and Economic (CAIE) system, a comprehensive climate-crop model that assists with predicting effects of climate change on agriculture for the benefit of policymakers.