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Methane emissions from above ground open manure slurry tanks
Author(s) -
Kaharabata S. K.,
Schuepp P. H.,
Desjardins R. L.
Publication year - 1998
Publication title -
global biogeochemical cycles
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 2.512
H-Index - 187
eISSN - 1944-9224
pISSN - 0886-6236
DOI - 10.1029/98gb01866
Subject(s) - slurry , environmental science , manure , methane , environmental engineering , liquid manure , environmental chemistry , hydrology (agriculture) , zoology , chemistry , geology , ecology , geotechnical engineering , organic chemistry , biology
Estimates of methane (CH 4 ) emissions from slurry tanks or lagoons in the past have been made primarily by using chamber techniques, which are point specific and interfere with conditions at the slurry‐atmosphere interface. This study is based on the use of sulphur hexafluoride (SF 6 ) as a tracer gas to estimate CH 4 transport from the slurry surface. The tracer was released from the surface of the swine slurry, and air samples were taken at the downwind rim of the tank over a 165 day period from June 12 to November 20, 1995, at the McGiIl University ‐ Macdonald Campus Farm, Ste‐Anne‐de‐Bellevue, Quebec, and analyzed for CH 4 and SF 6 concentrations ( C ). Knowing the SF 6 source strength ( Q ), CH 4 source strength was then determined from the measured downwind concentrations using the C/Q ratio. Using this method, annual CH 4 emission from the swine slurry tank was estimated at 56.5 kg CH 4 m −2 tank surface yr −1 (± 20%). Assuming that diffusion processes at the nearby dairy tank were similar to those at the swine tank, the same C/Q ratio was used to determine CH 4 emissions from the dairy slurry based on downwind CH 4 concentrations measured over the same period as at the swine tank. Annual methane emission from the dairy tank was estimated at 74 kg CH 4 m −2 tank surface yr − 1 (± 45%). On the basis of these estimates, CH 4 emissions from outdoor holding tanks for swine and dairy slurry in Canada were approximated at 0.71 Tg CH 4 yr −1 (± 40%) and 0.24 Tg CH 4 yr −1 (± 70%), respectively, giving a combined annual emission of approximately 0.95 Tg yr −1 (± 50%).

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