 What is Limnology?
Originally the word limnology was used in reference to the study of
lakes and is derived from the Greek word limnos, meaning pool, lake, or
swamp. Though the field of limnology has largely developed through the
study of lakes, the scope has broadened over the years to embrace any
fresh or salt waters, which are contained within continental boundaries.
This includes lakes, reservoirs, rivers, streams, estuaries, and often
overlooked microhabitats like springs, fens, and bogs. Limnology
involves the physical, chemical, and biological characteristics and
processes of aquatic systems and their watersheds
Iowa's Water Resources
Iowa has several large flood control reservoirs and many small
impoundments. Some natural lakes occur in northwest and north central
Iowa (30 lakes over 100 acres). However, the state's network of rivers
and streams represent the vast majority of our water resources. Our
rivers provide drinking water, water for crops and livestock, industry,
cooling, cleaning, and production of electric power,
transportation/navigation routes and, unfortunately, often must carry
away the wastes produced by these activities. The aesthetic and
recreational value of our streams is also important for Iowa's water
resources.
 Evaluating Water Quality
The Limnology Section devotes most of their time sampling Iowa's surface
waters (usually rivers and streams) and evaluating water quality and the
impact of human activity. Iowa's water quality standards are largely
based on chemical criteria- that is the concentrations of various
chemical compounds cannot exceed certain levels under certain conditions
in our surface waters. As a result, water sampling and chemical analyses
are vital to evaluating water quality. However, chemical monitoring is
really just a snapshot of the conditions at the time of sampling. For
example, most of the fish kills in the state are related to very
short-term events, often associated with a manure/chemical spill or
precipitation event. The slug of polluted water may be present at a
location on a stream for only several hours, and is likely to be missed
by routine chemical monitoring. Incorporating biological monitoring into
the evaluation process helps to complete the picture of a stream's
condition. The fish, aquatic insects, and other invertebrates in a
stream are continuously exposed to what is in the water and species
display varying water quality tolerances. Some require clean, nearly
pristine conditions while some tolerate, and even thrive, in somewhat
poor water quality. Stream inhabitants (fish and bugs) also reflect the
physical (habitat) quality of a stream. Water quality assessments
typically involve one or more of the following:
- Water chemistry
- Quantifying physical/structural (habitat) aspects of a waterbody
- Characterizing biological communities present (fish, benthic
macroinvertebrate, and algae & macrophyte surveys)
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