The Journal of
the Korean Society on Water Environment

The Journal of
the Korean Society on Water Environment

Bimonthly
  • ISSN : 2289-0971 (Print)
  • ISSN : 2289-098X (Online)
  • KCI Accredited Journal

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  3. 2020-11 (Vol. 36, No. 6)
  4. 10.15681/KSWE.2020.36.6.508
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References

1 
Arhonditsis G., Neumann A. G., Shimoda Y., Kim D. K., Dong F., Onandia G., Yang C., Javed A., Brady M., Visha A., Ni F., Cheng V., 2019, Castles built on sand or predictive limnology in action? Part A: Evaluation of an integrated modelling framework to guide adaptive management implementation in lake Erie,, 100968., Ecological Informatics,, Vol. 53Google Search
2 
Ballantyne A. P., Andres R., Houghton R., Stocker B. D., Wanninkhof R., Anderegg W., Cooper L. A., DeGrandpre M., Tans P. P., Miller J. B., Alden C., White J. W. C., 2015, Audit of the global carbon budget: estimate errors and their impact on uptake uncertainty,, Biogeosciences,, Vol. 12, pp. 2565-2584Google Search
3 
Bastien J., Demarty M., Tremblay A., 2011, CO2 and CH4 diffusive and degassing fluxes from 2003 to 2009 at Eastmain 1 reservoir, Québec, Canada,, Inland Waters,, Vol. 1, No. 2, pp. 113-123Google Search
4 
Battin T. J., Luyssaert S., Kaplan L. A., Aufdenkampe A. K., Richter A., Tranvik L. J., 2009, The boundless carbon cycle,, Nature Geoscience,, Vol. 2, pp. 598-600Google Search
5 
Beaulieu J. J., Nietch C. T., Young J. L., 2014, Controls on nitrous oxide production and consumption in reservoirs of the Ohio river basin,, Journal of Geophysical Research: Biogeosciences,, Vol. 120, pp. 1995-2010Google Search
6 
Bocaniov S. A., Smith R. E. H., Spillman C. M., Hipsey M. R., Leon L. F., 2014, The near-shore shunt and the decline of the phytoplankton spring bloom in the Laurentian Great Lakes: insights from a three-dimensional lake model,, Hydrobiologia,, Vol. 731, pp. 151-172Google Search
7 
Chung S. W., Oh J. K., 2006, Calibration of CE-QUAL-W2 for a monomictic reservoir in monsoon climate area,, Water Science and Technology,, Vol. 54, No. 12, pp. 29-37Google Search
8 
Chung S. W., Oh J. G., Ko I. H., 2005, Simulations of temporal and spatial distributions of rainfall-induced turbidity flow in a reservoir using CE-QUAL-W2,, Journal of Korea Water Resources Association,, Vol. 38, No. 8, pp. 655-664Google Search
9 
Chung S. W., Park J. H., Kim Y. K., Yoon S. W., 2007, Application of CE-QUAL-W2 to Daecheong reservoir for eutrophication simulation,, [Korean literature], Journal of Korean Society on Water Environment,, Vol. 23, No. 1, pp. 52-63Google Search
10 
Cole J. J., Caraco N. F., Kling G. W., Kratz T. K., 1994, Carbon dioxide supersaturation in the surface waters of lakes,, Science,, Vol. 265, pp. 1568-1570Google Search
11 
Cole J. J., Prairie Y. T., Caraco N. F., McDowell W. H., Tranvik L. J., Striegl R. G., Duarte C. M., Kortelainen P., Downing J. A., Middelburg J. J., Melack J., 2007, Plumbing the global carbon cycle: Integrating inland waters into the terrestrial carbon budget,, Ecosystems,, Vol. 10, pp. 171-184Google Search
12 
Cole T. M., Tillman D. H., 1999, Water quality modeling of lake Monroe using CE-QUAL-W2,, Environmental Science,, Elsevier.Google Search
13 
Cole T. M., Tillman D. H., 2001, Water quality modeling of Allatoona and West point reservoir using CE-QUAL-W2,, Army Corps of Engineers.
14 
Cole T. M., Wells S. A., 2017, CE-QUAL-W2: a two-dimensional, later ally averaged, hydrodynamic and water quality model, Version 4.1 User Manual,, Department of Civil and Environmental Engineering,, Potland University.Google Search
15 
Curtarelli M. P., Ogashawara I., Araújo C. A. S., Lorenzzetti J. A., Leão J. A. D., Alcântara E., Stech J. L., 2016, Carbon dioxide emissions from Tucuruí reservoir (Amazon biome): New findings based on three-dimensional ecological model simulations,, Science of Total Environment,, Vol. 551, No. 552, pp. 676-694Google Search
16 
Deemer B. R., Harrison J. A., Li S., Beaulieu J. J., DelSontro T., Barros N., Bezerra-neto J. F., Powers S. M., Santos M., Vonk J. A., 2016, Greenhouse gas emissions from reservoir water surfaces: A new global synthesis,, Bioscience,, Vol. 66, No. 11, pp. 949-964Google Search
17 
DelSontro T., Beaulieu J. J., Downing J. A., 2018, Greenhouse gas emissions from lakes and impoundments: Upscaling in the face of global change,, Limnology and Oceanography letters,, Vol. 3, No. 3, pp. 64-75Google Search
18 
Demarty M., Bastien J., Tremblay A., 2011, Annual follow-up of gross diffusive carbon dioxide and methane emissions from a boreal reservoir and two nearby lakes in Québec, Canada,, Biogeosciences,, Vol. 8, pp. 41-53Google Search
19 
Downing J. A., Cole J. J., Middelburg J. J., Striegl R. G., Duarte C. M., Kortelainen P., Prairie Y. T., Laube K. A., 2008, Sediment organic carbon burial in agriculturally eutrophic impoundments over the last century,, GB1018., Global Biogeochemical Cycles,, Vol. 22Google Search
20 
Eugster W., Kling G., Jonas T., McFadden J. P., Wüest A., MacIntyre S., Chapin F. S., 2003, CO2 exchange between air and water in an Arctic Alaskan and midlatitude Swiss lake: Importance of convective mixing,, 4362, Journal of Geophysical Research: Atmospheres,, Vol. 108Google Search
21 
Gelda R. K., Auer M. T., Effler S. W., Chapra S. C., Storey M. L., 1996, Determination of reaeration coefficients: A whole lake approach,, Journal of Environmental Engineering,, Vol. 122, No. 4, pp. 269-275Google Search
22 
Golub M., 2016, Controls on temporal variation in ecosystem-atmosphere carbon dioxide exchange in lakes and reservoirs, Department of Freshwater and Marine Sciences, Doctoral dissertation, Ph.D.,, University of Wisconsin-Madison.Google Search
23 
Imberger J., Patterson J. C., 1989, Physical limnology,, Advances in applied mechanics,, Vol. 27, pp. 303-475Google Search
24 
Kortelainen P., Rantakari M., Huttunen J. T., Mattsson T., Alm J., Juutinen S., Larmola T., Silvola J., Martikainen P. J., 2006, Sediment respiration and lake trophic state are important predictors of large CO2 evasion from small boreal lakes,, Global Change Biology,, Vol. 12, pp. 1554-1567Google Search
25 
Lombardo C. P., Gregg M. C., 1989, Similarity scaling of viscous and thermal dissipation in a convective surface boundary layer,, Journal of Geophysical Research,, Vol. 94, No. C5, pp. 6273-6284Google Search
26 
MacIntyre S., Jonsson A., Jansson M., Aberg J., Turney D. E., Miller S. D., 2010, Buoyancy flux, turbulence, and the gas transfer coefficient in a stratified lake,, L24604., Geophysical Research Letters,, Vol. 37, No. 24Google Search
27 
Martin J., Mccutcheon S., 1999, Hydrodynamics and transport for water quality modeling,, CRC Press.
28 
McClure R. P., Hamre K. D., Niederlehner B. R., Munger Z. W., Chen S., Lofton M. E., Schreiber M. E., Carey C. C., 2018, Metalimnetic oxygen minima alter the vertical profiles of carbon dioxide and methane in a managed freshwater reservoir,, Science of The Total Environment,, Vol. 636, pp. 610-620Google Search
29 
McCullough I. M., Dugan H. A., Farrell K. J., Morales-Williams A. M., Ouyang Z., Roberts D., Scordo F., Bartlett S. L., Burke S. M., Doubek J. P., Krivak-Tetley F. E., Skaff N. K., Summers J. C., Weathers K. C., Hanson P. C., 2018, Dynamic modeling of organic carbon fates in lake ecosystems,, Ecological Modelling,, Vol. 386, pp. 71-82Google Search
30 
McDonald C. P., Stets E. G., Striegl R. G., Butman D., 2013, Inorganic carbon loading as a primary driver of dissolved carbon dioxide concentrations in the lakes and reservoirs of the contiguous United States,, Global Biogeochemical Cycles,, Vol. 27, pp. 285-295Google Search
31 
Park H. S., Chung S. W., 2018, pCO2 dynamics of stratified reservoir in yemperate zone and CO2 pulse emissions during turnover events,, Water,, Vol. 10, pp. 1347Google Search
32 
Prairie Y., Alm J., Beaulieu J., Barros N., Battin T., Cole J., Giorgio P., DelSontro T., Guérin F., Harby A., Harrison J., Mercier-Blais S., Serça D., Sobek S., Vachon D., 2018, Greenhouse gas emissions from freshwater reservoirs: What does the atmosphere see?,, Ecosystems,, Vol. 21, pp. 1058-1071DOI
33 
Tan Z., Zhuang Q., Shurpali N., Marushchak M., Biasi C., Eugster W., Katey W. A., 2017, Modeling CO2 emissions from Arctic lakes: Model development and site-level study,, Journal of Advances in Modeling Earth Systems,, Vol. 9Google Search
34 
Tranvik L. J., Downing J. A., Cotner J. B., Loiselle S. A., Striegl R. G., Ballatore T. J., Dillon P., Finlay K., Fortino K., Knoll L. B., Kortelainen P. L., Kutser T., Larsen S., Laurion I., Leech D. M., McCallister S. L., McKnight D. M., Melack J. M., Overholt E., Porter J. A., Prairie Y., Renwick W. H., Roland F., Sherman B. S., Schindler D. W., Sobek S., Tremblay A., Vanni M. J., Verschoor A. M., von Wachenfeldt E., Weyhenmeyer G. A., 2009, Lakes and reservoirs as regulators of carbon cycling and climate,, Limnology Oceanography,, Vol. 54, pp. 2298-2314DOI
35 
Verhamme E. M., Redder T. M., Schlea D. A., Grush J., Bratton J. F., DePinto J. V., 2016, Development of the Western Lake Erie Ecosystem Model (WLEEM): application to connect phosphorus loads to cyanobacteria biomass,, Journal of Great Lakes Research,, Vol. 42, No. 6, pp. 1193-1205DOI
36 
Wang W., Roulet N. T., Kim Y. I., Strachan I. B., Giorgio P., Prairie Y. T., Tremblay A., 2018, Modelling CO2 emissions from water surface of a boreal hydroelectric reservoir,, Science of The Total Environment,, Vol. 612, pp. 392-404DOI
37 
Wetzel R. G., 1983, Periphyton of freshwater ecosystems, Developments in hydrobiology: Hydrobioogia.Google Search
38 
Winslow L. A., Read J. S., Hanson P. C., Stanley E. H., 2013, Lake shoreline in the contiguous United States: Quantity, distribution and sensitivity to observation resolution,, Freshwater biology,, Vol. 59, No. 2, pp. 213-223DOI
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