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Greenhouse gas emissions from gradually-filled liquid dairy manure storages with different levels of inoculant
Liquid dairy manure storages emit large amounts of methane (CH 4 ), nitrous oxide (N 2 O) and ammonia (NH 3 ). Gradually filling manure storages is a standard practice, however, most studies have batch filling approaches. Gradual manure filling may emit different GHGs when inoculum is present, as it...
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Published in: | Nutrient cycling in agroecosystems 2019-12, Vol.115 (3), p.455-467 |
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Main Authors: | , , , , , , |
Format: | Article |
Language: | English |
Subjects: | |
Citations: | Items that this one cites Items that cite this one |
Online Access: | Get full text |
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Summary: | Liquid dairy manure storages emit large amounts of methane (CH
4
), nitrous oxide (N
2
O) and ammonia (NH
3
). Gradually filling manure storages is a standard practice, however, most studies have batch filling approaches. Gradual manure filling may emit different GHGs when inoculum is present, as it changes the substrate/microorganism ratio, manure temperature, and distribution of solids. This study compared CH
4
, N
2
O and NH
3
emissions from gradually-filled and batch-filled 11.9 m
3
capacity liquid dairy manure tanks with 0%, 10% or 20% inoculum over 122 day of storage. On average, gradually-filled tanks had 1.8 °C higher manure temperature, which may have contributed to a 12% increase in total CH
4
emissions to 6.26 kg m
−3
and 28% increase in total NH
3
emissions to 328 g m
−3
. The absence of inoculum reduced CH
4
emissions by 25% and 23% compared to the 10% inoculum tanks (6.48 kg m
−3
) and 20% inoculum tanks (6.31 kg m
−3
), respectively. Absence of inoculum had no effect on N
2
O and NH
3
emissions. Gradual filling of tanks containing inoculum increased CH
4
emissions by 27% to 7.38 kg m
−3
, while in the absence of inoculum CH
4
emissions were reduced by 29% to 4.03 kg m
−3
. Our results suggest that research using inoculant in batch-filled manure storage systems may underestimate GHG emissions. Future research should further characterize the effects of gradual filling on solids and temperature profiles, and substrate availability linked to production of GHGs. |
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ISSN: | 1385-1314 1573-0867 |
DOI: | 10.1007/s10705-019-10023-2 |