In-vitro method and model to estimate methane emissions from liquid manure management on pig and dairy farms in four countries

Methane (CH4) emissions from manure management on livestock farms are a key source of greenhouse gas emissions in some regions and for some production systems, and the opportunities for mitigation may be significant if emissions can be adequately documented. We investigated a method for estimating CH4 emissions from liquid manure (slurry) that is based on anaerobic incubation of slurry collected from commercial farms. Methane production rates were used to derive a parameter of the Arrhenius temperature response function, lnA', representing the CH4 production potential of the slurry at the time... Mehr ...

Verfasser: Petersen, S. O.
Ma, C.
Hilgert, J. E.
Mjöfors, Kristina
Sefeedpari, P.
Amon, B.
Aarnink, A.
Francó, B.
Dragoni, F.
Groenestein, K.
Gyldenkærne, S.
Herrmann, C.
Hutchings, N. J.
Kristensen, I. S.
Liu, J.
Olesen, J. E.
Rodhe, Lena
Dokumenttyp: article in journal
Erscheinungsdatum: 2024
Verlag/Hrsg.: RISE Research Institutes of Sweden
Jordbruk och livsmedel
Schlagwörter: Dairy cattle / Empirical model / Finishing pigs / Manure management / Methane emission / Denmark / Germany / Netherlands / Sweden / Dairies / Farm buildings / Fertilizers / Greenhouse gases / Manures / Methane / Ventilation / Cattle slurry / CH 4 / Dairy cattles / Dairy farms / Finishing pig / In-vitro / Methane emissions / Pig farms / empirical analysis / greenhouse gas / laboratory method / manure / pig / slurry / agricultural land / agricultural slurry / air conditioning / air sampling / Article / controlled study / gas chromatography / in vitro study / liquid / microbial community / model / nonhuman / storage / temperature / volume / waste management / Gas emissions / Animal and Dairy Science / Husdjursvetenskap
Sprache: Englisch
Permalink: https://search.fid-benelux.de/Record/base-29183952
Datenquelle: BASE; Originalkatalog
Powered By: BASE
Link(s) : http://urn.kb.se/resolve?urn=urn:nbn:se:ri:diva-71937

Methane (CH4) emissions from manure management on livestock farms are a key source of greenhouse gas emissions in some regions and for some production systems, and the opportunities for mitigation may be significant if emissions can be adequately documented. We investigated a method for estimating CH4 emissions from liquid manure (slurry) that is based on anaerobic incubation of slurry collected from commercial farms. Methane production rates were used to derive a parameter of the Arrhenius temperature response function, lnA', representing the CH4 production potential of the slurry at the time of sampling. Results were used for parameterization of an empirical model to estimate annual emissions with daily time steps, where CH4 emissions from individual sources (barns, outside storage tanks) can be calculated separately. A monitoring program was conducted in four countries, i.e., Denmark, Sweden, Germany and the Netherlands, during a 12-month period where slurry was sampled to represent barn and outside storage on finishing pig and dairy farms. Across the four countries, lnA' was higher in pig slurry compared to cattle slurry (p < 0.01), and higher in slurry from barns compared to outside storage (p < 0.01). In a separate evaluation of the incubation method, in-vitro CH4 production rates were comparable with in-situ emissions. The results indicate that lnA' in barns increases with slurry age, probably due to growth or adaptation of the methanogenic microbial community. Using lnA' values determined experimentally, empirical models with daily time steps were constructed for finishing pig and dairy farms and used for scenario analyses. Annual emissions from pig slurry were predicted to be 2.5 times higher than those from cattle slurry. Changing the frequency of slurry export from the barn on the model pig farm from 40 to 7 d intervals reduced total annual CH4 emissions by 46 %; this effect would be much less on cattle farms with natural ventilation. In a scenario with cattle slurry, the empirical model was ...