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ARS Home » Plains Area » Clay Center, Nebraska » U.S. Meat Animal Research Center » Nutrition and Environmental Management Research » People & Locations » Bobbi Stromer

Bobbi Shanyelle Stromer
Nutrition and Environmental Management Research
Post Doc (Chemist)

Phone: (402) 762-3054
Fax:

U.S. MEAT ANIMAL RESEARCH CENTER
SPUR 18D
CLAY CENTER , NE 689330166

Publications (Clicking on the reprint icon Reprint Icon will take you to the publication reprint.)
Development of a cost-effective treatment process for removing antimicrobials from agricultural wastewater -
Woodbury, B.L., Stromer, B.S., Williams, C.F., Woodward, K.A., Hakk, H., Lupton, S.J. 2019. Development of a cost-effective treatment process for removing antimicrobials from agricultural wastewater. In: Proceedings of Waste to Worth Conference, April 22-26, 2019, Minneapolis, Minnesota. Available: https://lpelc.org/development-of-a-cost-effective-treatment-process-for-removing-antimicrobials-from-agricultural-wastewater/
Physical interactions of antibiotics and metabolites with solids: elucidating fate, transportation and mitigation methods -
Tylosin sorption to diatomaceous earth: Investigation of physical processes of tylosin in natural systems and development of mitigation methods -
Stromer, B.S., Woodbury, B.L., Williams, C.F. 2018. Tylosin sorption to diatomaceous earth: Investigation of physical processes of tylosin in natural systems and development of mitigation methods [abstract]. American Chemical Society 255th National Meeting, March 17-22, 2018, New Orleans, LA. ENVR511. Available at: https://plan.core-apps.com/acsnola2018/abstract/e1650562-b0a4-4f93-984d-1e2c44d42ffb
Tylosin sorption to diatomaceous earth described by Langmuir isotherm and Freundlich isotherm models Reprint Icon -
Stromer, B.S., Woodbury, B.L., Williams, C.F. 2018. Tylosin sorption to diatomaceous earth described by Langmuir isotherm and Freundlich isotherm models. Chemosphere. 193:912-920. https://doi.org/10.1016/j.chemosphere.2017.11.083.
Greenhouse gas emissions from beef feedlot surface materials as affected by diet, moisture, temperature, and time -
Woodbury, B.L., Gilley, J.E., Parker, D.B., Stromer, B.S. 2018. Greenhouse gas emissions from beef feedlot surface materials as affected by diet, moisture, temperature, and time. Transactions of the ASABE. 61(2):571-582. https://doi.org/10.13031/trans.12483.