Influences of Land Use/Cover Types on Nitrous Oxide Emissions during Freeze-Thaw Periods from Waterlogged Soils in Inner Mongolia

Influences of Land Use/Cover Types on Nitrous Oxide Emissions during Freeze-Thaw Periods from Waterlogged Soils in Inner Mongolia

Nitrous oxide emissions during freeze/thaw periods contribute significantly to annual soil N2O emissions budgets in middle- and high-latitude areas; however, the freeze/thaw-related N2O emissions from waterlogged soils have hardly been studied in the Hulunber Grassland, Inner Mongolia. For this stud...

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Published in:PloS one Vol. 10; no. 9; p. e0139316
Main Authors: Lu, Zedong, Du, Rui, Du, Pengrui, Qin, Saisai, Liang, Zongmin, Li, Ziming, Wang, Yaling, Wang, Yanfen
Format: Journal Article
Language:English
Published: United States Public Library of Science 25-09-2015
Public Library of Science (PLoS)
Subjects:
Agriculture
Carbon
China
Cores
Ecosystems
Emission
Emission measurements
Emissions
Environment
Fluxes
Freeze thaw cycles
Freeze-thawing
Freezing
Grassland
Grasslands
Grazing
Greenhouse gases
Health aspects
Influence
Laboratories
Land use
Mowing
Nitrogen
Nitrous oxide
Nitrous Oxide - analysis
Nitrous oxide emissions
Nitrous oxides
Production increases
Science
Soil - chemistry
Soil temperature
Soils
Steppes
Studies
Vegetation type
Winter
China
Beijing China
Inner Mongolia China
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Summary:Nitrous oxide emissions during freeze/thaw periods contribute significantly to annual soil N2O emissions budgets in middle- and high-latitude areas; however, the freeze/thaw-related N2O emissions from waterlogged soils have hardly been studied in the Hulunber Grassland, Inner Mongolia. For this study, the effects of changes in land use/cover types on N2O emissions during freeze-thaw cycles were investigated to more accurately quantify the annual N2O emissions from grasslands. Soil cores from six sites were incubated at varying temperature (ranging from -15 to 10°C) to simulate freeze-thaw cycles. N2O production rates were low in all soil cores during freezing periods, but increased markedly after soil thawed. Mean rates of N2O production differed by vegetation type, and followed the sequence: Leymus chinensis (LC) and Artemisia tanacetifolia (AT) steppes > LC steppes ≥ Stipa baicalensis (SB) steppes. Land use types (mowing and grazing) had differing effects on freeze/thaw-related N2O production. Grazing significantly reduced N2O production by 36.8%, while mowing enhanced production. The production of N2O was related to the rate at which grassland was mowed, in the order: triennially (M3) > once annually (M1) ≥ unmown (UM). Compared with the UM control plot, the M3 and M1 mowing regimes enhanced N2O production by 57.9% and 13.0% respectively. The results of in situ year-round measurements showed that large amounts of N2O were emitted during the freeze-thaw period, and that annual mean fluxes of N2O were 9.21 μg N2O-N m-2 h-1 (ungrazed steppe) and 6.54 μg N2O-N m-2 h-1 (grazed steppe). Our results further the understanding of freeze/thaw events as enhancing N2O production, and confirm that different land use/cover types should be differentiated rather than presumed to be equivalent, regarding nitrous oxide emission. Even so, further research involving multi-year and intensive measurements of N2O emission is still needed.
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Competing Interests: The authors have declared that no competing interests exist.
Conceived and designed the experiments: RD. Performed the experiments: SQ PD Z. Lu Z. Li Z. Liang Yaling Wang. Analyzed the data: RD Z. Lu SQ PD Z. Li. Contributed reagents/materials/analysis tools: Yanfen Wang. Wrote the paper: Z. Lu RD.
ISSN:1932-6203
1932-6203
DOI:10.1371/journal.pone.0139316