Heterogeneity of O2 dynamics in soil amended with animal manure and implications for greenhouse gas emissions

Soil Biology and Biochemistry

Volumn 84, Issue , 2015, Pages 96-106

  Zhu, Kun ^a   Bruun, Sander ^a   Larsen, Morten ^b   Glud, Ronnie N ^b   Jensen, Lars Stoumann ^a  

^a UNIVERSITY OF COPENHAGEN   (Denmark)

^b UNIVERSITY OF SOUTHERN DENMARK   (Denmark)

Author keywords

Manure distribution; Nitrification; Nitrous oxide emission; Oxygen dynamics; Oxygen optode

Indexed keywords

CARBON DIOXIDE; DENITRIFICATION; DYNAMICS; FERTILIZERS; GAS EMISSIONS; GREENHOUSE GASES; MAMMALS; MANURES; NITRIFICATION; NITROGEN OXIDES; SOILS;

HIGH TEMPORAL RESOLUTION; HIGH-RESOLUTION IMAGING; NITRIFICATION ACTIVITY; NITRIFICATION AND DENITRIFICATION; NITROUS OXIDE EMISSIONS; OXYGEN DYNAMICS; SPATIAL AND TEMPORAL RESOLUTIONS; WATER-FILLED PORE SPACE;

SOIL SURVEYS;

ANIMAL; GREENHOUSE GAS; HETEROGENEITY; MANURE; NITRIFICATION; NITROUS OXIDE; OXYGEN; SOIL AMENDMENT; SOIL WATER POTENTIAL;

ANIMALIA; SUIDAE;

EID: 84924091156     PISSN: 00380717     EISSN: None     Source Type: Journal    
DOI: 10.1016/j.soilbio.2015.02.012     Document Type: Article

References (38)

1. 2O source partitioning in soils: recent progress, remaining challenges and future considerations. Rapid Communications in Mass Spectrometry 2008, 22:1664-1672.
2. Blossfeld S., Gansert D. Anovel non-invasive optical method for quantitative visualization of pH dynamics in the rhizosphere of plants. Plant, Cell & Environment 2007, 30(2):176-186.
3. Butterbach-Bahl K., Baggs E.M., Dannenmann M., Kiese R., Zechmeister-Boltenstern S. Nitrous oxide emissions from soils: how well do we understand the processes and their controls?. Philosophical Transactions of the Royal Society B: Biological Sciences 2013, 368.
4. 2O emissions due to agricultural activities in a changing climate. Current Opinion in Environmental Sustainability 2011, 3(5):389-395.
5. Clemens J., Huschka A. The effect of biological oxygen demand of cattle slurry and soil moisture on nitrous oxide emissions. Nutrient Cycling in Agroecosystems 2001, 59(2):193-198.
6. 4 fluxes. Environmental Science & Technology 2011, 45(8):3393-3399.
7. Fierer N., Schimel J.P. Aproposed mechanism for the pulse in carbon dioxide production commonly observed following the rapid rewetting of a dry soil. Soil Science Society of America Journal 2003, 67(3):798-805.
8. Firestone M.K., Firestone R.B., Tiedje J.M. Nitrous oxide from soil denitrification: factors controlling its biological production. Science 1980, 208:749-751.
9. Frederiksen M.S., Glud R.N. Oxygen dynamics in the rhizosphere of Zostera marina: a two-dimensional planar optode study. Limnology and Oceanography 2006, 51(2):1072-1083.
10. 2 distribution in benthic communities. Marine Ecology Progress Series 1996, 140(1-3):217-226.
11. Heller H., Bar-Tal A., Tamir G., Bloom P., Venterea R.T., Chen D., Zhang Y., Clapp C.E., Fine P. Effects of manure and cultivation on carbon dioxide and nitrous oxide emissions from a corn field under Mediterranean conditions. Journal of Environmental Quality 2010, 39(2):437-448.
12. Hjorth M., Christensen K.V., Christensen M.L., Sommer S.G. Solid-liquid separation of animal slurry in theory and practice. A review. Agronomy for Sustainable Development 2010, 30(1):153-180.
13. 2 concentration. Soil Biology and Biochemistry 2004, 36(4):687-699.
14. Larsen M., Borisov S.M., Grunwald B., Klimant I., Glud R.N. Asimple and inexpensive high resolution color ratiometric planar optode imaging approach: application to oxygen and pH sensing. Limnology and Oceanography - Methods 2011, 9:348-360.
15. Laughlin R.J., Stevens R.J. Evidence for fungal dominance of denitrification and codenitrification in a grassland soil. Soil Science Society of America Journal 2002, 66:1540-1548.
16. Levin L.A., Ekau W., Gooday A.J., Jorissen F., Middelburg J.J., Naqvi S.W.A., Neira C., Rabalais N.N., Zhang J. Effects of natural and human-induced hypoxia on coastal benthos. Biogeosciences 2009, 6(10):2063-2098.
17. Loecke T.D., Robertson G.P. Soil resource heterogeneity in terms of litter aggregation promotes nitrous oxide fluxes and slows decomposition. Soil Biology and Biochemistry 2009, 41(2):228-235.
18. Magid J., De Neergaard A., Brandt M. Heterogeneous distribution may substantially decrease initial decomposition, long-term microbial growth and N-immobilization from high C-to-N ratio resources. European Journal of Soil Science 2006, 57(4):517-529.
19. 2 depletion in soil after liquid manure injection. European Journal of Soil Science 2011, 62(4):541-550.
20. 2O production and consumption during denitrification in an arable soil. European Journal of Soil Science 2010, 61:364-374.
21. Meyer R.L., Kjær T., Revsbech N.P. Nitrification and denitrification near a soil-manure interface studied with a nitrate-nitrite biosensor. Soil Science Society of America Journal 2002, 66(2):498-506.
22. Montes F., Meinen R., Dell C., Rotz A., Hristov A.N., Oh J., Waghorn G., Gerber P.J., Henderson B., Makkar H.P.S., Dijkstra J. Mitigation of methane and nitrous oxide emissions from animal operations: II. A review of manure management mitigation options. Journal of Animal Science 2013, 91(11):5070-5094.
23. 2 production during nitrate reduction. Soil Biology and Biochemistry 2010, 42(10):1864-1871.
24. 2O. Biogeosciences 2010, 7(7):2159-2190.
25. Nielsen T.H., Nielsen L.P., Revsbech N.P. Nitrification and coupled nitrification-denitrification associated with a soil-manure interface. Soil Science Society of America Journal 1996, 60(6):1829-1840.
26. Norton J.M., Stark J.M. Regulation and measurement of nitrification in terrestrial systems. Methods in Enzymology 2011, 486:343-368.
27. Parkin T.B., Kaspar H.F., Sexstone A.J., Tiedje J.M. Agas-flow soil core method to measure field denitrification rates. Soil Biology and Biochemistry 1984, 16:323-330.
28. 2 uptake, C metabolism and denitrification associated with manure hot-spots. Soil Biology & Biochemistry 1996, 28(3):341-349.
29. 2O from the nitrogen cycle - could enzymic regulation hold the key?. Trends in Biotechnology 2009, 27(7):388-397.
30. Robertson L.A., Cornelisse R., De Vos P., Hadioetomo R., Kuenen J.G. Aerobic denitrification in various heterotrophic nitrifiers. Antonie van Leeuwenhoek 1989, 56:289-299.
31. Smith K.A. Amodel of the extent of anaerobic zones in aggregated soils, and its potential application to estimates of denitrification. Journal of Soil Science 1980, 31(2):263-277.
32. Stahl H., Glud A., Schroder C.R., Klimant I., Tengberg A., Glud R.N. Time-resolved pH imaging in marine sediments with a luminescent planar optode. Limnology and Oceanography - Methods 2006, 4:336-345.
33. Uchida Y., von Rein I., Akiyama H., Yagi K. Contribution of nitrification and denitrification to nitrous oxide emissions in Andosol and from Fluvisol after coated urea application. Soil Science and Plant Nutrition 2012, 59:46-55.
34. Walker M., Zhang Y., Heaven S., Banks C. Potential errors in the quantitative evaluation of biogas production in anaerobic digestion processes. Bioresource Technology 2009, 100(24):6339-6346.
35. Wood P.M. Nitrification as a bacterial energy source. Nitrification 1986, 39-62. IRL Press, Oxford. J.I. Prosser (Ed.).
36. Wulf S., Maeting M., Clemens J. Application technique and slurry co-fermentation effects on ammonia, nitrous oxide, and methane emissions after spreading. Journal of Environmental Quality 2002, 31(6):1795-1801.
37. Zhu K., Larsen M., Glud R.N., Bruun S., Jensen L.S. Spatial oxygen distribution and nitrous oxide emissions from soil after manure application - a novel approach using planar optodes. Journal of Environmental Quality 2014, 43(5):1809-1812.
38. 2 distributions and dynamics in marine sediments. Limnology and Oceanography - Methods 2010, 8:326-336.