Measurement of dissolved CO2 transport by snowmelt runoff in paddy fields
The quantity of CO2 carried away by snowmelt during the thawing of a deposited snow layer was measured in an area subject to seasonal accumulation of snow. The concentration of dissolved CO2 was measured in snowmelt discharged from the outlet of a paddy field with heavy clay soil in Joetsu City, Nii...
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| Published in | Journal of Agricultural Meteorology Vol. 67; no. 1; pp. 13 - 20 |
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| Main Author | |
| Format | Journal Article |
| Language | English |
| Published |
Tokyo
The Society of Agricultural Meteorology of Japan
01.01.2011
Japan Science and Technology Agency |
| Subjects | |
| Online Access | Get full text |
| ISSN | 0021-8588 1881-0136 |
| DOI | 10.2480/agrmet.67.1.3 |
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| Abstract | The quantity of CO2 carried away by snowmelt during the thawing of a deposited snow layer was measured in an area subject to seasonal accumulation of snow. The concentration of dissolved CO2 was measured in snowmelt discharged from the outlet of a paddy field with heavy clay soil in Joetsu City, Niigata Prefecture, Japan. Samples were taken every few hours over a period of three days. The CO2 flux Fwater transported by the snowmelt was estimated from changes in the concentration of dissolved CO2, with the CO2 concentration continuously measured at the bottom of the deposited snow layer, and the quantity of snowmelt estimated from heat balance measurements. The ratio of the CO2 concentration, Csnow, to that dissolved in the snowmelt, Cwater, gradually decreased as the quantity of snow melted per unit time increased. Therefore, assuming this ratio to be proportional to the inverse of the snowmelt flow speed, a regression was carried out, based on the fact the flow speed is proportional to the quantity of melted snow per unit time raised to a power of 2/3. To assess the validity of the estimated Fwater, we studied the balance of CO2 in the deposited snow layer by using the CO2 store in the deposited snow. The quantity value of the soil respiration flux estimated from the balance of CO2 in the deposited snow layer was close to the average soil respiration flux during the snow-covered period estimated by the CO2 concentration gradient and the volume fraction of air in the snow layer previously deposited in the same paddy field. |
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| AbstractList | The quantity of CO2 carried away by snowmelt during the thawing of a deposited snow layer was measured in an area subject to seasonal accumulation of snow. The concentration of dissolved CO2 was measured in snowmelt discharged from the outlet of a paddy field with heavy clay soil in Joetsu City, Niigata Prefecture, Japan. Samples were taken every few hours over a period of three days. The CO2 flux Fwater transported by the snowmelt was estimated from changes in the concentration of dissolved CO2, with the CO2 concentration continuously measured at the bottom of the deposited snow layer, and the quantity of snowmelt estimated from heat balance measurements. The ratio of the CO2 concentration, Csnow, to that dissolved in the snowmelt, Cwater, gradually decreased as the quantity of snow melted per unit time increased. Therefore, assuming this ratio to be proportional to the inverse of the snowmelt flow speed, a regression was carried out, based on the fact the flow speed is proportional to the quantity of melted snow per unit time raised to a power of 2/3. To assess the validity of the estimated Fwater, we studied the balance of CO2 in the deposited snow layer by using the CO2 store in the deposited snow. The quantity value of the soil respiration flux estimated from the balance of CO2 in the deposited snow layer was close to the average soil respiration flux during the snow-covered period estimated by the CO2 concentration gradient and the volume fraction of air in the snow layer previously deposited in the same paddy field. |
| Author | KOMINAMI, Yasuhiro |
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| CitedBy_id | crossref_primary_10_1016_j_agrformet_2012_06_012 |
| Cites_doi | 10.2480/agrmet.63.139 10.5331/seppyo.62.117 10.1016/B978-0-12-021811-0.50008-5 10.3739/rikusui.33.16 10.1256/smsqj.44706 10.5331/seppyo.60.357 10.1029/2004GB002259 |
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| References | Hirano, T., 2001: Diffusive CO2 efflux from the soil surface of a deciduous broad-leaved forest in Hokkaido, Japan. Proceedings of International Warkshop for Advanced Flux Network and Flux Evaluation (CGER-REPORT), M-011, 113-118. Kominami, Y., 2005: Study on CO2 concentration under the snowpack at a warm part of snowy region. Bull. Natl. Agric. Res. Cent., 6, 15-49. Hirano, T., 2005: Seasonal and diurnal variations in topsoil and subsoil respiration under snowpack in a temperate deciduous forest. Global Biogeochem. Cycles, 19, p. GB2011. Yoshida, Z., 1965: Infiltration of water in snow covers. Low Temp. Sci., A, 23, 1-16. Colbeck, S. C., 1978: The physical aspects of water flow through snow. Advances in Hydroscience, 11, 165-206. Ono, K., Hirata, R., Mano, M., Miyata, A., Saigusa, N., and Inoue, Y., 2007: Systematic differences in CO2 fluxes Measured by open- and closed-path eddy covariance systems: Influence of air fluctuations resulting from temoerature and water vapor transfer. J. Agric. Meteorol., 63, 139-155. Nomura, M., Ishi, Y., Kodama, Y., and Kobayashi, D., 1990: Lag process in snowmelt runoff I Propagation of meltwater in snow pack. Low Temp. Sci., A, 49, 1-14. Webb, E. K., Pearman, G. I., and Leuning, R., 1980: Correction of flux measurements for density effects due to heat and water-vapor transfer. Q. J. R. Meteorol. Soc., 106, 85-100. Sugie, S., and Naruse, R., 2000: Measurements of unsaturated hydraulic conductivity of snow. Seppyo, 62(2), 117-127. Satake, K., Saijo, Y., and Tominaga, T., 1972: Determination of small quantities of carbon dioxide in natural waters. Jpn. J. Limnol., 33, 16-20. Kominami, Y., Takami, S., Yokoyama, K., and Inoue, S., 1998: Carbon dioxide concentration under a seasonal snow cover occurring on a coastal plain in the central Japan. Seppyo, 60(5), 357-366. 11 2 3 4 5 6 7 8 9 (1) 1978; 11 10 |
| References_xml | – reference: Nomura, M., Ishi, Y., Kodama, Y., and Kobayashi, D., 1990: Lag process in snowmelt runoff I Propagation of meltwater in snow pack. Low Temp. Sci., A, 49, 1-14. – reference: Satake, K., Saijo, Y., and Tominaga, T., 1972: Determination of small quantities of carbon dioxide in natural waters. Jpn. J. Limnol., 33, 16-20. – reference: Sugie, S., and Naruse, R., 2000: Measurements of unsaturated hydraulic conductivity of snow. Seppyo, 62(2), 117-127. – reference: Hirano, T., 2005: Seasonal and diurnal variations in topsoil and subsoil respiration under snowpack in a temperate deciduous forest. Global Biogeochem. Cycles, 19, p. GB2011. – reference: Kominami, Y., 2005: Study on CO2 concentration under the snowpack at a warm part of snowy region. Bull. Natl. Agric. Res. Cent., 6, 15-49. – reference: Ono, K., Hirata, R., Mano, M., Miyata, A., Saigusa, N., and Inoue, Y., 2007: Systematic differences in CO2 fluxes Measured by open- and closed-path eddy covariance systems: Influence of air fluctuations resulting from temoerature and water vapor transfer. J. Agric. Meteorol., 63, 139-155. – reference: Webb, E. K., Pearman, G. I., and Leuning, R., 1980: Correction of flux measurements for density effects due to heat and water-vapor transfer. Q. J. R. Meteorol. Soc., 106, 85-100. – reference: Kominami, Y., Takami, S., Yokoyama, K., and Inoue, S., 1998: Carbon dioxide concentration under a seasonal snow cover occurring on a coastal plain in the central Japan. Seppyo, 60(5), 357-366. – reference: Colbeck, S. C., 1978: The physical aspects of water flow through snow. Advances in Hydroscience, 11, 165-206. – reference: Yoshida, Z., 1965: Infiltration of water in snow covers. Low Temp. Sci., A, 23, 1-16. – reference: Hirano, T., 2001: Diffusive CO2 efflux from the soil surface of a deciduous broad-leaved forest in Hokkaido, Japan. Proceedings of International Warkshop for Advanced Flux Network and Flux Evaluation (CGER-REPORT), M-011, 113-118. – ident: 2 – ident: 7 doi: 10.2480/agrmet.63.139 – ident: 5 – ident: 9 doi: 10.5331/seppyo.62.117 – volume: 11 start-page: 165 issn: 0065-2768 year: 1978 ident: 1 doi: 10.1016/B978-0-12-021811-0.50008-5 – ident: 6 – ident: 8 doi: 10.3739/rikusui.33.16 – ident: 11 doi: 10.1256/smsqj.44706 – ident: 4 doi: 10.5331/seppyo.60.357 – ident: 10 – ident: 3 doi: 10.1029/2004GB002259 |
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| Title | Measurement of dissolved CO2 transport by snowmelt runoff in paddy fields |
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