Development of Method for the Measurement of Dermal Exposure on a Lifelike Cow Dummy to Assess the Risk of Using a Urease Inhibitor (Atmowell®) to Reduce NH3 Emissions in Cattle Farming

Author:

Ehmke Annika1ORCID,Wegener Jens Karl1,Melfsen Andreas2ORCID,Hartung Eberhard2ORCID

Affiliation:

1. Julius Kühn-Institute (JKI), Federal Research Centre for Cultivated Plants, Institute for Application, 38108 Braunschweig, Germany

2. Institute of Agricultural Engineering, Max-Eyth-Straße 6, Kiel University, 24118 Kiel, Germany

Abstract

Up to 58% of NH3 emissions can be reduced through the use of the urease inhibitor Atmowell® in cattle farming. Automated manure scraper and drag hose systems should be used to apply urease inhibitors (UIs) to stable floors. Proof of safe use is also needed. A risk assessment of the urease inhibitor PPDA was conducted utilising estimated and calculated exposure data along with established and verified model calculation tools. Risk assessment models can be improved using measured dermal exposure data. The fluorescent dye pyranine and a Tyvek® collector were used to measure exposure. Tyvek® was attached to a lifelike cow dummy. Regarding the drag hose system, two worst-case scenarios were considered: over the cow and passing the cow. Regarding the robot application system, a 0 m frontal scenario was considered. The over the cow scenario exhibited the highest dermal exposure, with 1.5 mg of PPDA/cow per application run. The robot scenario exhibited the smallest amount, with 0.8 mg of PPDA/cow per application run. The risk of using PPDA was already excluded by model calculation tools in a risk assessment. Compared with the estimated and calculated dermal exposure values, the measured dermal exposure levels were reduced by a factor of two to six.

Funder

Federal Office for Agriculture and Food

Publisher

MDPI AG

Reference24 articles.

1. Umwelt Bundesamt (2022, July 28). Ammoniak-Emissionen. Available online: https://www.umweltbundesamt.de/daten/luft/luftschadstoff-emissionen-in-deutschland/ammoniak-emissionen.

2. Haenel, H.-D., Rösemann, C., Dämmgen, U., Döring, U., Wulf, S., Eurich-Menden, B., Freibauer, A., Döhler, H., Schreiner, C., and Osterburg, B. (2020). Thünen Report, Johann Heinrich von Thünen-Institut.

3. Ammonia in the atmosphere: A review on emission sources, atmospheric chemistry and deposition on terrestrial bodies;Behera;Environ. Sci. Pollut. Res. Int.,2013

4. Agency for Toxic Substances and Disease Registry (ATSDR) (2023, December 12). Toxicological Profile for Ammonia. US Department of Health and Human Services, Agency for Toxic Substances and Disease Registry, Available online: https://www.atsdr.cdc.gov/toxprofiles/tp126.pdf.

5. EC. [European Commission] (2023, December 12). Directive (EU) 2016/2284 of the European Parliament and of the Council of 14 December 2016 on the Reduction of National Emissions of Certain Atmospheric Pollutants, Amending Directive 2003/35/EC and repealing Directive 2001/81/EC. 2016, Vol. 59. Available online: https://eur-lex.europa.eu/legal-content/EN/TXT/PDF/?uri=OJ:L:2016:344:FULL&from=EN.

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