Climate Data for Puruvesi, Finland, used in the OPERANDUM Del 5.2 (Spyrou et al. 2021)

Climate Data for Puruvesi, Finland, used in the OPERANDUM Del 5.2 (Spyrou et al. 2021)

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Climate Data for Puruvesi, Finland, used in the OPERANDUM Del 5.2 (Spyrou et al. 2021) Project: OPEn-air laboRAtories for Nature baseD solUtions to Manage hydro-meteo risks (OPERANDUM, EC Grant Agreement no.: 776848) Current climate data Puruvesi_19810101-20200623.txt Daily values of daily mean temperature, total precipitation, global radiation, and water vapour partial pressure in Lake Vehka-Kuonanjärvi area (coordinates LAT: 61.9, LON: 29.4) between 1st January 1981 and 23rd June 2020. These data have been extracted from the 10 km x 10 km gridded data of the Finnish Meteorological Institute (Aalto et al. 2016). Columns in data file Puruvesi_19810101-20200623.txt 1 time as YYYYMMDD 2 year 3 month 4 day 5 t_mean, daily mean temperature, unit: Celsius 6 precipitation, daily total precipitation, unit: mm 7 radiation, global radiation, unit: kJ/m2 8 hpa, Water vapour partial pressure, unit: hPa Future climate projections Puruvesi_2005_2099HadGEM2_RCA4_QQ.txt Puruvesi_2005_2099MPI-ESM_RCA4_QQ.txt EUROCORDEX (https://euro-cordex.net/060378/index.php.en) climate simulations for years 2006-2099 by the Max-Planck-Institute Earth System Model (Low Resolution, MPI-ESM-LR, hereon MPI-ESM) (Giorgetta et al. 2013) and the Hadley Centre Global Environment Model version 2 (Earth System, HadGEM2-ES, hereon HadGEM2) (Caesar et al. 2013) both forced by the RCP8.5 emission scenario (van Vuuren et al. 2011) and downscaled by regional model RCA4 (Samuelsson et al. 2011). The data here represent Lake Vehka-Kuonanjärvi area (coordinates LAT: 61.9, LON: 29.4). The daily mean temperature, daily precipitation and daily mean humidity (used for calculation of the water vapour partial pressure together with the temperature) of these EUROCORDEX data were bias corrected with the quantile–quantile (Q-Q) mapping method (Veijalainen et al. 2012, Gudmundsson et al. 2012) utilizing the corresponding control simulations representing years 1971-2000 and weather observations of years 1971-2000 (see Spyrou et al. 2021) . For the global radiation, direct model output was used. The climate data is in standard calendar form with 365 days per year in non-leap years, and 366 days per year in leap years. As the direct output of the HadGEM2 (MPI-ESM) model consisted of 360 (365) days per year, the missing days were interpolated. Columns in data files Puruvesi_2005_2099HadGEM2_RCA4_QQ.txt Puruvesi_2005_2099MPI-ESM_RCA4_QQ.txt 1 time as YYYYMMDD 2 year 3 month 4 day 5 t_mean, daily mean temperature, unit: Celsius 6 rainfall, daily total precipitation, unit: mm 7 radiation, global radiation, unit: kJ/m2 8 hpa, Water vapour partial pressure, unit: hPa References Aalto, J., Pirinen, P., and Jylhä, K. (2016): New gridded daily climatology of Finland: Permutation‐based uncertainty estimates and temporal trends in climate. J.Geophys. Res. Atmos., 21,3807–3823, doi:10.1002/2015JD024651. Caesar, J., Palin, E., Liddicoat, S., Lowe, J., Burke, E., Pardaens, A., Sanderson, M., Kahana, R., 2013. Response of the HadGEM2 Earth System Model to Future Greenhouse Gas Emissions Pathways to the Year 2300. J Clim 26, 3275-3284. https://doi.org/10.1175/JCLI-D-12-00577.1. Giorgetta, M.A., Jungclaus, J., Reick, C.H., Legutke, S., Bader, J., Böttinger, M., Brovkin, V., Crueger, T., Esch, M., Fieg, K., Glushak, K., Gayler, V., Haak, H., Hollweg, H., Ilyina, T., Kinne, S., Kornblueh, L., Matei, D., Mauritsen, T., Mikolajewicz, U., Mueller, W., Notz, D., Pithan, F., Raddatz, T., Rast, S., Redler, R., Roeckner, E., Schmidt, H., Schnur, R., Segschneider, J., Six, K.D., Stockhause, M., Timmreck, C., Wegner, J.ö, Widmann, H., Wieners, K., Claussen, M., Marotzke, J., Stevens, B., 2013. Climate and carbon cycle changes from 1850 to 2100 in MPI-ESM simulations for the Coupled Model Intercomparison Project phase 5. J Adv Model Earth Syst 5, 572-597. https://doi.org/10.1002/jame.20038. Gudmundsson et al.: Technical Note: Downscaling RCM precipitation to the station scale using statistical transformations - a comparison of methods. Hydrology and Earth System Sciences, 2012, 16, 3383-3390, doi:10.5194/hess-16-33832012. Samuelsson, P., Jones, C., Willén, U., Ullerstig, A., Gollvik, S., Hansson, U., Jansson, C., Kjellström, E., Nikulin, G., Wyser, K., 2011. The Rossby Centre Regional Climate Model RCA3: model description and performance. Tellus A 63A, 4-23. https://doi.org/10.1111/j.1600-0870.2010.00478.x. Spyrou et al. 2021: OPERANDUM Deliverable 5.2: Multi-impacts assessment for OAL and NBS. https://cordis.europa.eu/project/id/776848/results van Vuuren, D. P., and Coauthors: The representative concentration pathways: an overview. Climatic Change, 109, 5–31, 2011. Veijalainen N., Korhonen, J., Vehviläinen, B., and Koivusalo, H.: 2012 Modelling and statistical analysis of catchment water balance and discharge in Finland in 1951–2099 using transient climate scenarios, Journal of Water and Climate Change, 3 (1), 55-78.
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Year of publication

2022

Authors

Korhonen, Natalia - Creator

Other information

Fields of science

Geosciences

Language

English

Open access

Open

License

Creative Commons Attribution 4.0 International (CC BY 4.0)

Keywords

Climate, Operandum, INSPIRE theme: climatologyMeteorologyAtmosphere, Puruvesi
Climate Data for Puruvesi, Finland, used in the OPERANDUM Del 5.2 (Spyrou et al. 2021) - Research.fi