Climate Data for Latitude 50.25 Longitude 67.25

Köppen climate classification: Dfa (Climate: snow; Precipitation: fully humid; Temperature: hot summer)
 

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Zharkol Lakes

Averages (English) Metric

TypeUnitsJanFebMarAprMayJunJulAugSepOctNovDecPeriod
Min Temp-6.2-5.86.730.744.754.258.754.643.229.514.1-0.2104 years
Mean Temp2.13.215.741.557.667.571.567.455.939.821.87.7109 years
Max Temp10.112.224.752.370.580.884.480.368.750.129.415.5109 years
FrostDays31.028.331.030.010.36.15.52.213.231.030.031.019 years
WetDays9.98.16.44.85.25.75.94.54.38.48.29.5109 years
Precipitationin0.70.40.50.70.80.91.20.70.60.80.70.6109 years
Potential Evapotranspirationin0.20.20.62.95.66.97.16.14.21.90.50.245 years
Yearly Average Temperatures 2010 - 2009 (English) Latitude 50.25 Longitude 67.25
Monthly Mean Temperatures 1901 - 2009 (English) Latitude 50.25 Longitude 67.25
Yearly Total Frost Days 1901 - 2009 Latitude 50.25 Longitude 67.25
Yearly Total Precipitation 1901 - 2009 (English) Latitude 50.25 Longitude 67.25
Yearly Total Wet Days 1901 - 2009 Latitude 50.25 Longitude 67.25
Yearly Total Potential Evapotranspiration 1903 - 2009 (English) Latitude 50.25 Longitude 67.25

Climate data provided by CRU TS 3.1 - University of East Anglia Climate Research Unit (CRU). [Phil Jones, Ian Harris]. CRU Time Series (TS) high resolution gridded datasets, [Internet]. NCAS British Atmospheric Data Centre, 2008, Accessed: 28-July-2011
Charting software provided by pChart - a PHP class to build charts.
Köppen climate classification provided by Kottek, M., J. Grieser, C. Beck, B. Rudolf, and F. Rubel, 2006: World Map of Köppen-Geiger Climate Classification updated. Meteorol. Z., 15, 259-263
The calculation method for the potential evapotranspiration is the FAO grass reference equation (Ekstrom et al., 2007, which is based on Allen et al., 1994). It is a variant of the Penman Monteith method using TMP, TMN, TMX, VAP, CLD.