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Lake and Stream Hydrology 2009 UJ, UH & TPU Timo Huttula UJ/BYTL& SYKE/VTO www.environment.fi.

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Presentation on theme: "Lake and Stream Hydrology 2009 UJ, UH & TPU Timo Huttula UJ/BYTL& SYKE/VTO www.environment.fi."— Presentation transcript:

1 Lake and Stream Hydrology 2009 UJ, UH & TPU Timo Huttula UJ/BYTL& SYKE/VTO www.environment.fi

2 9.6.2015Lake and stream hydrology T.Huttula 2 Contents At UJ&UH Lectures 1-6 Video Field period in Konnevesi Examination To be discussed Lecture notes and copies from books Material distributed during field period Web pages: http://users.jyu.fi/~thuttula/Lake&S tream_Hydrology/ http://users.jyu.fi/~thuttula/Lake&S tream_Hydrology/  At TPU Lectures 1-3 Video Field period in Konnevesi Examination To be discussed Lecture notes Material distributed during field period Webpages: http://users.jyu.fi/~thuttula/Lake&Str eam_Hydrology/ http://users.jyu.fi/~thuttula/Lake&Str eam_Hydrology/

3 9.6.2015Lake and stream hydrology T.Huttula 3 Lectures 1. Lakes and rivers4.9. 2. Basics of hydrological measurements4.9. 3. Three practical examples of lake and stream hydrology = ”Problem of the day” (Huttula& Krogerus) 15.9. and 16.9. 4. Steady and unsteady river flow9.9. 5. Material transport in rivers9.9. 6. River ice25.9. 7. Reports on field measurement results (students give short presentations)30.9

4 9.6.2015Lake and stream hydrology T.Huttula 4 1. Lakes as a part of the hydrological cycle  Hydrological cycle and hydrological processes  The importance ot the lakes  What is a lake?  Lake morphology  What is the role of lakes in hydrological cycle?  Lakes in Finland  Basic hydrological statistical parameters  Human impacts on lakes

5 9.6.2015Lake and stream hydrology T.Huttula 5 Hydrological cycle

6 9.6.2015Lake and stream hydrology T.Huttula 6

7 9.6.2015Lake and stream hydrology T.Huttula 7 Watershed, catchment, river basin…

8 9.6.2015Lake and stream hydrology T.Huttula 8

9 9.6.2015Lake and stream hydrology T.Huttula 9 Units in hydrology  Fluxes are expressed in mm/time or m 3 /s  Flux= mass or volume /(time*surface area)  One liter of water weights about 1 kg  If we put one liter of water on a surface area of A=1 m* 1m, the water height (h) will be 1 mm

10 9.6.2015Lake and stream hydrology T.Huttula 10 Hydrological variables and their units VariableNotationUnit PrecipitationPmm/day, mm/h EvaporationEmm/day, mm/h InfiltrationImm/day, mm/h RunoffRmm/day, mm/h DischargeQm 3 /s, l/s Water levelWm

11 9.6.2015Lake and stream hydrology T.Huttula 11 Why lake hydrology is important in Finland?  In Finland we have 187 888 lakes ( min. size 50 m*10 m)  Sensitive for pollution  More 50 % of Finnish population still drink treated lake water  Important recreational value  Legislative reasons

12 9.6.2015Lake and stream hydrology T.Huttula 12 In global scale  Lakes contain important amount of fresh water  Water storages  Vulnerable in many ways  Important sources of protein  Recreational value  Preserving of their ecosystem

13 9.6.2015Lake and stream hydrology T.Huttula 13 What is a lake?  A mass of still water situated in a depression of the ground without direct communication with sea (Encyclopedia of Britannica, 1962)  Baltic Sea is not a a lake, Aral and Caspian Sea are

14 9.6.2015Lake and stream hydrology T.Huttula 14 Morphological characteristics of lakes  Area, A (km 2 )  Volume, V (km 3 )  Mean depth z mean,(m)  Maximum depth z max,(m)  Length of main axis, l long,(m)  Shore line length l sh,(m)  Inflow I or outflow O, (m 3 /s)  Retention time t r =V/O, (years)

15 9.6.2015Lake and stream hydrology T.Huttula 15 Lake Pääjärvi Area 13.5 km 2

16 9.6.2015Lake and stream hydrology T.Huttula 16 Morphology…  Shore line length l sh,(m)  Inflow I or outflow O, (m 3 /s)  Retention time t r =V/O, (years)  Hypsographic curves  A=f(W)  V=f(W)

17 9.6.2015Lake and stream hydrology T.Huttula 17 Morphology:Fetch  The wind effect length on the lake:  L f = the mean length of the lines from the observation site, when lines are taken in 90 0 angle towards wind direction (=direction from where wind is coming from)  Important for wave and erosion calculations

18 9.6.2015Lake and stream hydrology T.Huttula 18 Lakes in Finland

19 9.6.2015Lake and stream hydrology T.Huttula 19 Typical for Finnish lakes  Shallow: 95*total volume of Finnish lakes = volume of Lake Baikal  Short retention or renewal time  Cover 32700 km 2 (10 %) of Finnish territory  Fragmented and form a river like water course system  Loaded presently by agriculture  Eutrophication is the number one problem  Water budget:  Direct precipitation on lake surface is 14 % of annual water budget  Evaporation from lake surface is 12 % of annual water budget  No ground water flow to lake  Mean annual water level variation is 103 cm (in period of 1961-80)

20 9.6.2015Lake and stream hydrology T.Huttula 20 Lakes in Finland LakeLocation of the outlet Area km 2 SaimaaImatra1147 Inari 1102 PäijänneAsikkala1054 OulunjärviVaala893 PielinenEno868 KallavesiLeppävirta513 KeiteleÄänekoski500 Iso-LängelmävesiKangasala410 PuulavesiHirvensalmi325 LokkaSodankylä317 Mean depth =7.2 m Deepest sites: 1: Lake Päijänne 95.3 m 2: Inari 91.8 m 3: Suvasvesi 89.6 m

21 9.6.2015Lake and stream hydrology T.Huttula 21 Lakes in hydrological cycle  Water storages  Smooth out the water level fluctuation in water course  In upper lakes: Rapid water level change and short duration  Downstream lakes: Lagged response and moderate response  Deep lakes act like sedimentation tanks  The rate of change in water quality is related to retention time t Q Downstream lake An upper lake

22 9.6.2015Lake and stream hydrology T.Huttula 22 Mean and extreme values in time series  MQ = mean annual discharge  MHQ=mean high (flood) discharge during the observation period like 30 years  MNQ =mean low (dry) discharge during the observation period like 30 years  MW = mean annual water level  MHW and MLW like for the discharge

23 9.6.2015Lake and stream hydrology T.Huttula 23 Annua l MonthMQHQNQ Year123456789101112 199011109 332516171819211617339 1991131211132529303122252627223111 1992810911232728292023242520298 19937131213362819202122241920367 19946444810 78997 4 1995387672318111213 1511233 1996131213433321222325272117224312 1997766171613 141314121112176 1998444810 89998 4 199934451097777876 3 2000222355444444452 For periodMQHQNQMHQMNQ 1990- 200014432236

24 9.6.2015Lake and stream hydrology T.Huttula 24 Human impacts on lakes  Regulation  Drainage  Sewage input  Construction like embankments, bridges, piers, …  Dredging  Thermal pollution

25 9.6.2015Lake and stream hydrology T.Huttula 25 Example  Lake area is A=100 km 2. A very heavy rain fall occurs and 100 mm precipitation will fall on the lake in six hours. How much that is in m 3 /s ? We do not consider in and outflows.  Area A=100 km 2 =100*1000*1000 m 2 =1*10 8 m 2  Precipitation P=100 mm=0,1 m. So we put h=0,1 m  Time t=6 h=6*3600s=21600 s  Q=Ah/t=1*10 8 m 2 *0.1 m/(21600s) = 463 m 3 /s

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