Browse > Article
http://dx.doi.org/10.7745/KJSSF.2012.45.1.020

Determination of Initial Denitrification in Intact Cores under Various Freshwater Wetland Types  

Seo, Dong-Cheol (Department of Bio-Environmental Sciences, Sunchon National University)
Delaune, R.D. (Department of Oceanography and Coastal Sciences, School of the Coast and Environment, Louisiana State University)
Lane, Robert R. (Department of Oceanography and Coastal Sciences, School of the Coast and Environment, Louisiana State University)
Day, John W. (Department of Oceanography and Coastal Sciences, School of the Coast and Environment, Louisiana State University)
Publication Information
Korean Journal of Soil Science and Fertilizer / v.45, no.1, 2012 , pp. 20-24 More about this Journal
Abstract
Denitrification rate was determined for various freshwater wetland types in the Mississippi River Coastal delta plain. Site 1 and 4 were collected from forested-tupelo dominated wetland, and site 2 and 3 were from floating emergent marsh. The maximum $N_2O$ emission was $7.47mg\;N\;m^{-2}$ for site 1 at day 6 after the addition of nitrate, $6.96mg\;N\;m^{-2}$ for site 2 at day 4, $6.63mg\;N\;m^{-2}$ for site 3 at day 3, and $9.64mg\;N\;m^{-2}$ for site 4 at day 4. The denitrification rate was determined using the acetylene inhibition method $1.24mg\;N\;m^{-2}d^{-1}$ for site 1, $1.93mg\;N\;m^{-2}d^{-1}$ for site 2, $2.24mg\;N\;m^{-2}d^{-1}$ for site 3, and $2.78mg\;N\;m^{-2}d^{-1}$ for site 4. The maximum denitrification rate was in the order of site 4 > site 3 > site 2 > site 1.
Keywords
Denitrification; Nitrous oxide emission; Intact core; Acetylene inhibition;
Citations & Related Records
연도 인용수 순위
  • Reference
1 Firestone, M.K., R.B. Firestone, and J.M. Tiedje. 1980. Nitrous oxide from soil denitrification: factors controlling its biological production. Science 208:749-751.   DOI
2 Gale, P.M., I. Devai, K.R. Reddy, and D.A. Graetz. 1993. Denitrification potential of soils from constructed and natural wetland. Ecol. Eng. 2:119-130.   DOI
3 Herrman, K.S. and J.R. White. 2008. Denitrification in intact sediment cores from a constructed wetland: Examining the isotope pairing technique. Appl. Geochem. 23:2105-2112.   DOI
4 Knowles, R. 1982. Denitrification. Microbiology Reviews 46:43-70.
5 LDEQ. 2004. Bayou Boeuf, Halpin Canal, and Theriot Canal and Lake Boeuf: TMDLs for biochemical oxygen-demanding substances. Subsegments 020102 and 020103. Louisiana Department of Environmental Quality. Baton Rouge, LA.
6 Miao, S., R.D. Delaune, and A. Jugsujinda. 2006. Significance of coupling of nitrification and nitrate reduction on water quality of a coastal lake that receives nitrate in diverted Mississippi River water. Aquatic Ecosystem Health & Management 9(3):1-6.   DOI
7 Seo, D.C. and R.D. DeLaune. 2010. Fungal and bacterial mediated denitrification in wetlands: Influence of sediment redox condition. Wat. Res. 44:2441-2450.   DOI
8 Swarzenski, C.M., E.M. Swenson, C.E. Sasser, and J.G. Gosselink. 1991. Marsh mat flotation in the Louisiana delta plain. Journal of Ecology 79:999-1011.   DOI
9 Tiedje, J.M. 1982. Denitrification. In: Page, A.L., Miller, R.H., Keeney, D.R. (Eds.), Methods of Soil Analysis. Part 2: Chemical and Microbiological Properties, second ed. American Society of Agronomy, Soil Science Society of America, Madison, WI, pp. 1011-1026.
10 Yoshinari, T., R. Hynes, and R. Knowles. 1977. Acetylene inhibition of nitrous oxide reduction and measurement of denitrification and nitrogen fixation in soil. Soil Biology & Biochemistry 9:177-183.   DOI   ScienceOn
11 Yu, K.W. and W.H. Patrick. 2003. Redox range with minimum nitrous oxide and methane production in a rice soil under different pH. Soil Sci. Soc. Am. J. 67:1952-1958.   DOI
12 Yu, K.W. and W.H. Patrick. 2004. Redox window with minimum global warming potential contribution from rice soils. Soil Sci. Soc. Am. J. 68:2086-2091.   DOI