Press release, 22 April 2014

UV-radiation data to help ecological research

Researchers at the Helmholtz Centre for Environmental Research (UFZ) have processed existing data on global UV-B radiation in such a way that scientists can use them to find answers to many ecological questions. According to the paper published in Methods in Ecology and Evolution, an online journal of the British Ecological Society, this data set allows drawing new conclusions about the global distribution of animal and plant species.

Average intensity of global UV-B radiation – mean UV-B of highest month. (Quelle: Tomáš Václavík/UFZ)

Average intensity of global UV-B radiation – mean UV-B of highest month. (Tomáš Václavík/UFZ)

Zoom

Average intensity of global UV-B radiation – mean UV-B of lowest month. (Quelle: Tomáš Václavík/UFZ)

Average intensity of global UV-B radiation – mean UV-B of lowest month. (Tomáš Václavík/UFZ)

Zoom

Many research projects study the effects of temperature and precipitation on the global distribution of plant and animal species. However, an important component of climate research, the UV-B radiation, is often neglected. The landscape ecologists from UFZ in collaboration with their colleagues from the Universities in Olomouc (Czechia), Halle and Lüneburg have processed UV-B data from the U.S. NASA space agency in such a way that they can be used to study the influence of UV-B radiation on organisms.

The basic input data were provided by a NASA satellite that regularly, since 2004, orbits the Earth at an altitude of 705 kilometres and takes daily measurements of the UV-B radiation. “For us, however, not daily but the long-term radiation values are crucial, as these are relevant for organisms”, says the UFZ researcher Michael Beckmann, the lead author of the study. The researchers therefore derived six variables from the UV-B radiation data. These include annual average, seasonality, as well as months and quarters with the highest or lowest radiation intensity.

In order to process the enormous NASA data set, the UFZ researchers developed a computational algorithm, which not only removed missing or incorrect readings, but also summed up the daily measurements on a monthly basis and determined long-term averages. The processed data are currently available for the years 2004-2013 and will be updated annually.

With this data set, scientists can now perform macro-ecological analyses on the effects of UV-B radiation on the global distribution of animal and plant species. “While there are still many uncertainties”, says Michael Beckmann, “the UV radiation is another factor that may explain why species are present or absent at specific sites.” The data set can also help addressing other research questions. Material scientists can identify strategies to provide better protection to UV-sensitive materials, such as paints or plastics, in specific regions of the world. Human medicine could use the data set to better explain the regional prevalence of skin diseases. “There are no set limits as to how researchers can use these data”, says Beckmann.

The data are now freely available for download on the internet and visually presented in the form of maps. These maps show, for example, that in countries in the southern hemisphere, such as New Zealand, the UV-B radiation is up to 50 percent higher than in the countries in the northern hemisphere, such as Germany. In general, the UV irradiation in winter is lower than in summer due to a shorter daily sunshine duration.

Background: Unlike the rather harmless UV-A radiation, the high-energy UV-B radiation causes health problems to humans, animals and plants. Well known is the higher risk of skin cancer in the New Zealand and Australia population if unprotected and exposed to sun for an extended period of time. Skin damage was also documented in whales and amphibians. In amphibians, UV-B radiation may also reduce survival rates of tadpoles and spawn eggs. In plants, the radiation reduces performance of photosynthesis, a process of using solar energy to convert carbon dioxide and water into sugars and oxygen. This inhibits production of biomass and thus reduces e.g. yields of agricultural crops.

Publication

Beckmann, M., Václavík, T., Manceur, A. M., Šprtová, L., von Wehrden, H., Welk, E., Cord, A. F. (2014), glUV: a global UV-B radiation data set for macroecological studies. Methods in Ecology and Evolution. doi: 10.1111/2041-210X.12168
http://onlinelibrary.wiley.com/doi/10.1111/2041-210X.12168/abstract

Link

The data set (global UV-B data set for macroecology: glUV) is freely available for download at: www.ufz.de/gluv

Contact information

Helmholtz Centre for Environmental Research – UFZ
Michael Beckmann
Phone: +49-(0)341-235-1946
michael.beckmann@ufz.de

or

Tilo Arnhold / Susanne Hufe (UFZ-Public Relations)
Phone: +49-(0)341-235-1635, -1630
presse@ufz.de

At the Helmholtz Centre for Environmental Research (UFZ) scientists are interested in the wide-ranging causes and impacts of environmental change. They conduct research on water resources, biodiversity, the impacts of climate change and adaptation strategies, environmental and biotechnologies, bioenergy, the behaviour of chemicals in the environment and their effects on health, modelling and sociological issues. Their guiding motto: our research serves the sustainable use of natural resources and helps towards long-term food and livelihood security in the face of global change. The UFZ has over 1,100 employees working in Leipzig, Halle und Magdeburg. It is funded by the federal government, as well as by the State of Saxony and Saxony Anhalt.

The Helmholtz Association contributes to finding solutions for large and pressing issues in society, science and the economy through excellence in the following six areas of research: energy, earth and the environment, health, key technologies, structure of matter, transport and aerospace. With almost 35,000 employees and coworkers in 18 research centres and an annual budget of approx. 3.8 billion Euros the Helmholtz Association is the largest scientific organization in Germany. Work is conducted in the tradition of the renowned natural scientist Hermann von Helmholtz (1821-1894).