Nitrous oxide from urine patches 鈥 it鈥檚 no laughing matter!

Common grazing land often supports a range of different vegetation.Common grazing land often supports a range of different vegetation.Commonly known as 鈥榣aughing gas鈥 and currently used both in anaesthetics and as a 鈥榣egal high鈥, nitrous oxide (N2O) is a powerful greenhouse gas produced in the soil by micro-organisms, especially so on land grazed by animals.

Researchers from 麻豆传媒高清版 are to lead an international team to explore the interaction between sheep grazing behaviour, urine composition and subsequent nitrous oxide (N2O) emissions from urine patches, which are 鈥榟ot spots鈥 for N2O production and emission. The results will provide an important element in understanding the UK鈥檚 overall greenhouse gas production.

Professor Dave Chadwick from 麻豆传媒高清版鈥檚 School of Environment, Natural Resources and Geography will be leading the team of researchers from 麻豆传媒高清版, Rothamsted Research, Swansea University (in collaboration with Texas A&M University-Kingsville) and Leicester University in the Natural Environment Research Council funded 3 year research project.

Previous studies have been limited to measuring N2O emissions from controlled plot experiments where urine has been 鈥榓pplied鈥 to soil, or have investigated emissions under lowland conditions i.e. of urine composition, soil types, and climate. But in the new Upland-N2O project the research team will explore the effects of grazing and livestock movement in more extensive pastures, in upland areas where sheep have the opportunity to range and select herbage. This could influence urine composition and subsequent N2O emission. Where urine is deposited could also influence emissions, and is predicted to vary with soil pH, water balance and local climate. In the uplands, soils are often more acidic and wetter than in lowland grazed pastures, and the climate is often much harsher. The team will explore the effects of these vegetation, urine composition and climate factors on N2O emissions to get a better understanding of how much greenhouse gas is generated in upland pastures.

The monitoring equipment carried by the sheep will look similar to this. The monitoring equipment carried by the sheep will look similar to this.Professor Chadwick said: 鈥淭he project will be based at Henfaes, 麻豆传媒高清版鈥檚 Research Station, where the team will collate 鈥榣ayers鈥 of information known to affect N2O production in soils, and subsequent emission, for example the climate, topography, soil type, vegetation composition, sheep movement, urine deposition patterns and urine composition. We will also be conducting some controlled experiments to determine what factors are important in controlling N2O production and emission from urine patches, such as the urine nitrogen content, level of soil compaction. 

鈥淪heep will be fitted with collars that include a variety of state-of-the-art sensors to track their movement and behaviour in extensively grazed pastures on the enclosed hill land and the open common land on the University鈥檚 heft.

鈥淜nowledge of the geographical location of the sheep will indicate the type of vegetation they are grazing, which can then be linked to their urine composition. The sheep鈥檚 urine will be collected and applied to these upland soils and the N2O emissions measured using static and automated chambers. These 鈥榣ayers鈥 of information will be integrated using modelling approaches, and will allow the research team to assess not only the link between animal grazing, urine composition and N2O emissions, but to use the information to estimate if upland sheep generate more or less N2O than sheep in the lowlands.鈥  

Publication date: 1 September 2015