A platform for research: civil engineering, architecture and urbanism
A platform for research: civil engineering, architecture and urbanism
Nitrous oxide flux to the atmosphere from two coastal tundra wetlands in eastern Antarctica
AbstractOnly few estimates of nitrous oxide (N2O) emissions are available from Antarctic tundra ecosystems. During the summer of 2005/2006, for the first time field measurements of N2O emissions were conducted by a static chamber technique in two coastal marshes (Wolong Marsh and Tuanjie Marsh) of eastern Antarctica. In Wolong Marsh, the N2O fluxes ranged from −20.6 to 85.6μgN2O-Nm−2h−1, −5.3 to 50.8μgN2O-Nm−2h−1 and 6.4 to 27.1μgN2O-Nm−2h−1 at the wet, mesic and dry sites, respectively. In Tuanjie Marsh, the fluxes ranged from −5.9 to 12.6μgN2O-Nm−2h−1, −3.6 to 12.1μgN2O-Nm−2h−1 and 12.8 to 59.8μgN2O-Nm−2h−1 at the ponds, shallow fens and dry tundra sites, respectively. The seasonal pattern of N2O fluxes followed the warming of the sediment/soil, indicating that the variation of ground temperatures had an important effect on N2O emissions. The freezing–thawing cycle seemed to increase the N2O emissions from the wetlands, and water table was the major parameter for spatial variations of controlling N2O fluxes. There was a consistent diurnal pattern in the N2O emission rates from two wetlands and a good correlation with ground temperatures. The sparse data in this study hint at the potential importance of coastal tundra wetlands in the total local atmospheric N2O load in eastern Antarctica.
Nitrous oxide flux to the atmosphere from two coastal tundra wetlands in eastern Antarctica
AbstractOnly few estimates of nitrous oxide (N2O) emissions are available from Antarctic tundra ecosystems. During the summer of 2005/2006, for the first time field measurements of N2O emissions were conducted by a static chamber technique in two coastal marshes (Wolong Marsh and Tuanjie Marsh) of eastern Antarctica. In Wolong Marsh, the N2O fluxes ranged from −20.6 to 85.6μgN2O-Nm−2h−1, −5.3 to 50.8μgN2O-Nm−2h−1 and 6.4 to 27.1μgN2O-Nm−2h−1 at the wet, mesic and dry sites, respectively. In Tuanjie Marsh, the fluxes ranged from −5.9 to 12.6μgN2O-Nm−2h−1, −3.6 to 12.1μgN2O-Nm−2h−1 and 12.8 to 59.8μgN2O-Nm−2h−1 at the ponds, shallow fens and dry tundra sites, respectively. The seasonal pattern of N2O fluxes followed the warming of the sediment/soil, indicating that the variation of ground temperatures had an important effect on N2O emissions. The freezing–thawing cycle seemed to increase the N2O emissions from the wetlands, and water table was the major parameter for spatial variations of controlling N2O fluxes. There was a consistent diurnal pattern in the N2O emission rates from two wetlands and a good correlation with ground temperatures. The sparse data in this study hint at the potential importance of coastal tundra wetlands in the total local atmospheric N2O load in eastern Antarctica.
Nitrous oxide flux to the atmosphere from two coastal tundra wetlands in eastern Antarctica
Zhu, Renbin (author) / Liu, Yashu (author) / Ma, Jing (author) / Xu, Hua (author) / Sun, Liguang (author)
Atmospheric Environment ; 42 ; 2437-2447
2007-12-04
11 pages
Article (Journal)
Electronic Resource
English
Methane emissions from two tundra wetlands in eastern Antarctica
| Elsevier | 2007
Selenium volatilization from tundra soils in maritime Antarctica
| Elsevier | 2020
Nitrous oxide emission from polyculture constructed wetlands: Effect of plant species
| Online Contents | 2008
Nitrous oxide emission from polyculture constructed wetlands: Effect of plant species
| Online Contents | 2008