... | @@ -17,15 +17,19 @@ The complete **model archive** with sample input data: |
... | @@ -17,15 +17,19 @@ The complete **model archive** with sample input data: |
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* [LAKE3.1.zip](uploads/b7f18f096b38c23ffd371377bbf3b0d8/LAKE3.1.zip) (commit 16cfe649 in repository; bug in LAKE3.0 related to methane fixed, cmake compilation added)
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* [LAKE3.1.zip](uploads/b7f18f096b38c23ffd371377bbf3b0d8/LAKE3.1.zip) (commit 16cfe649 in repository; bug in LAKE3.0 related to methane fixed, cmake compilation added)
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* [LAKE3.2.zip](uploads/b0ecb4455c5340c063d1be290608e492/LAKE3.2.zip) (commit 69ba4cc1 in repository; multiple fixes and improvements in biogeochemical scheme)
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* [LAKE3.2.zip](uploads/b0ecb4455c5340c063d1be290608e492/LAKE3.2.zip) (commit 69ba4cc1 in repository; multiple fixes and improvements in biogeochemical scheme)
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When **publishing** results using LAKE2.0 please refer to:
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When **publishing** results using please refer to:
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Stepanenko, V., Mammarella, I., Ojala, A., Miettinen, H., Lykosov, V., & Vesala, T. (2016). LAKE 2.0: a model for temperature, methane, carbon dioxide and oxygen dynamics in lakes. *Geoscientific Model Development*, 9(5), 1977–2006. http://doi.org/10.5194/gmd-9-1977-2016
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* for LAKE2.x:
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- Stepanenko, V., Mammarella, I., Ojala, A., Miettinen, H., Lykosov, V., & Vesala, T. (2016). LAKE 2.0: a model for temperature, methane, carbon dioxide and oxygen dynamics in lakes. *Geoscientific Model Development*, 9(5), 1977–2006. http://doi.org/10.5194/gmd-9-1977-2016
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* for LAKE 3.x:
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- Lomov V., Stepanenko V., Grechushnikova M., and Repina I. (2024). Mechanistic modeling of the variability of methane emissions from an artificial reservoir. Water, 16(1):76. http://dx.doi.org/10.3390/w16010076
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- V. M. Stepanenko, M. G. Grechushnikova, and I. A. Repina (2022). Numerical simulation of methane emission from an artificial reservoir. *Izvestiya - Atmospheric and Oceanic Physics*, 58(6):649–659. http://dx.doi.org/10.1134/S0001433822060159
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Any **questions** regarding LAKE model please address to Victor Stepanenko (stepanen(at)srcc.msu.ru)
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Any **questions** regarding LAKE model please address to Victor Stepanenko (stepanen(at)srcc.msu.ru)
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**References**
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**References**
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* Lomov V., Stepanenko V., Grechushnikova M., and Repina I. (2024). Mechanistic modeling of the variability of methane emissions from an artificial reservoir. Water, 16(1):76. http://dx.doi.org/10.3390/w16010076
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* Lomov V., Stepanenko V., Grechushnikova M., and Repina I. (2024). Mechanistic modeling of the variability of methane emissions from an artificial reservoir. *Water*, 16(1):76. http://dx.doi.org/10.3390/w16010076
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* Clark Jason A., Elchin E. Jafarov, Ken D. Tape, Benjamin M. Jones, and Victor Stepanenko (2022). Thermal modeling of three lakes within the continuous permafrost zone in alaska using the lake 2.0 model. Geoscientific Model Development, 15:7421–7448. http://dx.doi.org/10.5194/gmd-15-7421-2022
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* Clark Jason A., Elchin E. Jafarov, Ken D. Tape, Benjamin M. Jones, and Victor Stepanenko (2022). Thermal modeling of three lakes within the continuous permafrost zone in alaska using the LAKE 2.0 model. Geoscientific Model Development, 15:7421–7448. http://dx.doi.org/10.5194/gmd-15-7421-2022
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* Iakunin, Maksim, Victor Stepanenko, Rui Salgado, Miguel Potes, Alexandra Penha, Maria Helena Novais, and Gonçalo Rodrigues (2020). Numerical study of the seasonal thermal and gas regimes of the largest artificial reservoir in western europe using the LAKE 2.0 model. *Geoscientific Model Development*, 13(8):3475–3488. http://dx.doi.org/10.5194/gmd-13-3475-2020
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* Iakunin, Maksim, Victor Stepanenko, Rui Salgado, Miguel Potes, Alexandra Penha, Maria Helena Novais, and Gonçalo Rodrigues (2020). Numerical study of the seasonal thermal and gas regimes of the largest artificial reservoir in western europe using the LAKE 2.0 model. *Geoscientific Model Development*, 13(8):3475–3488. http://dx.doi.org/10.5194/gmd-13-3475-2020
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* Heiskanen, J. J., Mammarella, I., Ojala, A., Stepanenko, V., Erkkilä, K.-M., Miettinen, H., … Nordbo, A. (2015). Effects of water clarity on lake stratification and lake-atmosphere heat exchange. *Journal of Geophysical Research*, 120(15). http://doi.org/10.1002/2014JD022938
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* Heiskanen, J. J., Mammarella, I., Ojala, A., Stepanenko, V., Erkkilä, K.-M., Miettinen, H., … Nordbo, A. (2015). Effects of water clarity on lake stratification and lake-atmosphere heat exchange. *Journal of Geophysical Research*, 120(15). http://doi.org/10.1002/2014JD022938
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* Gladskikh, D. S., V. M. Stepanenko, and E. V. Mortikov (2021). The effect of the horizontal dimensions of inland water bodies on the thickness of the upper mixed layer. *Water Resources*, 48(2):226–234. http://dx.doi.org/10.1134/S0097807821020068
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* Gladskikh, D. S., V. M. Stepanenko, and E. V. Mortikov (2021). The effect of the horizontal dimensions of inland water bodies on the thickness of the upper mixed layer. *Water Resources*, 48(2):226–234. http://dx.doi.org/10.1134/S0097807821020068
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