Manure amendments for mitigation of dairy ammonia and greenhouse gas emissions: preliminary screening

Eileen Fabian Wheeler; M. Arlene A. Adviento-Borbe; Robin C. Brandt; Patrick A. Topper; Deborah A. Topper; Herschel A. Elliott; Robert E. Graves; Alexander N. Hristov; Virginia A. Ishler; Mary Ann V. Bruns

Authors

Eileen Fabian Wheeler Pennsylvania State University
M. Arlene A. Adviento-Borbe Pennsylvania State University
Robin C. Brandt Pennsylvania State University
Patrick A. Topper Pennsylvania State University
Deborah A. Topper Pennsylvania State University
Herschel A. Elliott Pennsylvania State University
Robert E. Graves Pennsylvania State University
Alexander N. Hristov Pennsylvania State University
Virginia A. Ishler Pennsylvania State University
Mary Ann V. Bruns Pennsylvania State University

Abstract

Amendments can be practical and cost-effective for reducing ammonia [NH₃] and greenhouse gas [GHG] emissions from dairy manure. In this study, the effect of 22 amendments on NH₃ and GHG carbon dioxide [CO₂], methane [CH₄] and nitrous oxide [N₂O] emissions from dairy manure were simultaneous investigated at room temperature (20℃). Dairy manure slurry (2 kg; 1:1.7 urine: feces; 12% total solids) was treated with various amendments, representing different classes of product, following the suppliers’ recommended rates. In this screening of products, one sample of each amendment was evaluated along with untreated manure slurry with repeated measurements over 24 h. Gas emissions were measured after short (3 d) and medium (30 d) storage duration using a photoacoustic multi-gas analyzer. Six amendment products that acted as microbial digest, oxidizing agent, masking agent or adsorbent significantly reduced NH₃ by >10% (P = 0.04 to <0.001) after both 3 and 30 d. Microbial digest/enzymes with nitrogen substrate appeared effective in reducing CH₄ fluxes for both storage times. Most of the masking agents and disinfectants significantly increased CH₄ in both storage periods (P = 0.04 to <0.001). For both CH₄ and CO₂ fluxes, aging the manure slurry for 30 d significantly reduced gas production by 11 to 100% (P<0.001). While some products reduced emissions at one or both storage times, results showed that the ability of amendments to mitigate emissions from dairy manure is finite and re-application may be required even for a static amount of manure. Simultaneous measurement of gases identified glycerol as a successful NH₃reduction agent while increasing CH₄in contrast to a digestive-microbial product that significantly reduced CH₄while enhancing NH₃release.

Keywords: methane, greenhouse gas, emission, amendment, additive, dairy manure, ammonia, mitigation

Author Biographies

Eileen Fabian Wheeler, Pennsylvania State University

Professor, Air Quality

M. Arlene A. Adviento-Borbe, Pennsylvania State University

Post Doctorate Scholar

Robin C. Brandt, Pennsylvania State University

Lecturer

Patrick A. Topper, Pennsylvania State University

Senior Agricultural Research Technologist

Deborah A. Topper, Pennsylvania State University

Agricultural Research Technician

Herschel A. Elliott, Pennsylvania State University

Professor

Robert E. Graves, Pennsylvania State University

Professor

Alexander N. Hristov, Pennsylvania State University

Associate Professor

Virginia A. Ishler, Pennsylvania State University

Nutrient Management Specialist and Complex Manager

Mary Ann V. Bruns, Pennsylvania State University

Associate Professor, Crop and Soil Sciences