Limnology 3-2 (3) PDF
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School of Environment and Geomatics
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This document provides information about various aspects of lake science, including definitions, measurements, and the potential for biological reproduction.
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School of Environment and Geomatics ENVR 150 What is a lake? Lake vs. pond? No official difference Does light reach the bottom at the deepest point? Is the water body relatively uniform? Waves smaller than 30 cm in height? Lake vs. river? Loti...
School of Environment and Geomatics ENVR 150 What is a lake? Lake vs. pond? No official difference Does light reach the bottom at the deepest point? Is the water body relatively uniform? Waves smaller than 30 cm in height? Lake vs. river? Lotic vs. lentic Not always easy to distinguish Lake vs. reservoir? Reservoir can be combination of lake, river, reservoir Artificial lake filled by river inflow Alignment NW to SE Williston Reservoir 1773 km2 Quesnel Lake 610m depth Lakes Size (Morphometry) Surface Area Maps or remote sensing Caspian Sea largest salt-water body Aral Sea Lake Superior largest fresh water Lakes Size (Morphometry) Surface Area Maps or remote sensing Caspian Sea largest salt Lake Superior largest fresh water Depth Soundings (weighted line) Sonar Bathymetry (map of bottom) Mean Depth(z) Volume = (Surface Area)(Mean Depth) More accurate as sum of area x depth of horizontal segments Hypsographic Curve (depth-area curve) Shows how much of each depth zone is present and therefore the potential for biological reproduction. Surface Area At Depth (m2) Creating a Bathymetric Map Crater Lake, Oregon Mt. Mazama Skaha Lake Bathymetry https://webapp.navi onics.com/?lang=en #boating@6&key=wz %7BkHreemU Okanagan Lake Bathymetry www.ijc.org/ Vanessa Langhorn Kootenay Lake SGRC Kootenay River Basin 50, 298 km2 Selkirk College Stream Order of Kootenay River 7 Kootenay Lake Basin 31, 264 km2 Inlets 174 Outlets 1 (Kootenay River) Discharge of Kootenay River @ KL is 782 m3/s average Kootenay Lake Data Length 104 km /Width 3-5 km Surface Area = 421 km2 or 421,730,000 m2 Perimeter = 405 km or 405082 m Deepest 150 m Main lake- Average depth 94 West Arm - Average depth 10 m Google Earth Kootenay Lake Calculations Volume = Area x Mean Depth Volume=421,730,000 m2x 94 m Volume = 39,642,620,000 m3 Foreshore Land lying between the high and low watermarks, including beaches. In BC, foreshore is unceded Indigenous lands or public land (it is not private land) Shoreline Characteristics Reservoirs can have a jagged shoreline because they consist of flooded river valleys Shoreline Regularity Index (SRI) Measures how the shape of a lake deviates from that of a circle Minimum is SRI 1.0 Circular lake has the least shoreline Higher is SRI 4+ Convoluted shoreline of Reservoir Shoestring shape Lots of shoreline + shallow = significant littoral zone Kootenay Lake SRI = Shoreline length/Circumference of Area 405,082𝑚𝑚 SRI = 2 𝐴𝐴𝜋𝜋 405,082𝑚𝑚 SRI = 2√421730,000𝜋𝜋 SRI = 405,082𝑚𝑚⁄72780𝑚𝑚 SRI = 5.56 Hydraulic Residence Time Flushing Rate Approximate time any molecule of water spends in a lake. Important for pollution studies and nutrient regimes HRT (yrs) = Volume (m3) x 1yr Q m3/s 31,536,000 s/yr Or HRT(yrs) = Volume (Lake) (m3) Basin Area (m2) x Avg. Precip (m/yr)x(.85) Kootenay Lake HRT (yrs) = Volume/Q x 1yr/31,536,000 s/yr HRT = 39,642,620,000m3/782 m3/s x 1yr/31,536,000 s/yr HRT = 1.6 years HRT = Volume/Basin area x precip yr x.85 HRT = 39,642,620,000m3/31,264,000,000m2 x.9m x.85 HRT = 1.66 years Light Penetration Photic Zone Surface down to where about 1% of light penetrates Zone of net oxygen production Photosynthesis > Respiration Depth depends on the clarity of the water Aphotic Zone Bottom of the photic zone to the bottom of the lake More carbon dioxide is produced than oxygen Respiration > Photosynthesis Crater Lake Transparency Secchi Disk Depth Avg 1-10 m Crater Lake 43m D1 – disappearance D2 – reappearance Photic Zone is 2.5 x Secchi Disk Depth
