Total Kjeldahl Nitrogen
Water Quality Measurement | Chemical Parameter
Lake Pend Oreille | Pend Oreille River
Nitrogen is an essential plant nutrient but in high quantities it can cause increased plant and algae growth, low dissolved oxygen (DO) levels, and increased temperature. Nitrogen in aquatic systems is found in many forms, including ammonia, nitrates and nitrites. Nitrogen sources include soil erosion, organic matter and debris, sewage and failing septic systems, fertilizers, animal waste, and agricultural runoff.
Total Kjeldahl Nitrogen (TKN) is the sum of organic nitrogen, ammonia, and ammonium in a water body. High TKN concentrations can indicate sewage and manure discharges are present in the water body.
How to use the graph: View data for only one month by clicking on that month in the legend. Supplemental information is provided by hovering over a data point.
*NOTE – The data for this graph has been log-transformed for visual aid purposes!!!
Additionally, our lab only measures TKN at and above 0.5 mg/L. Thus, results here reflect that our analysis do not detect TKN below 0.5 mg/L.
Nitrogen is an essential plant nutrient but in high quantities can cause excessive plant growth. Microbial metabolism can decompose organic nitrogen (e.g., plants) into ammonia, which may be oxidized into nitrite then further oxidized to nitrate. All forms are soluble in water and are closely related. High nitrogen levels can cause increased plant and algae growth, which is sometimes associated with low dissolved oxygen (DO) levels, and increased temperature.
Nitrogen has higher solubility in water than phosphorus (P) and quickly travels into rivers and streams. This property is one reason why phosphorus, rather than nitrogen, is the limiting nutrient for plant growth. When sampling for nutrients, it is advisable to include both phosphorus and nitrogen testing to determine the nitrogen to phosphorus ratio (N:P). The EPA mandates nitrogen and phosphorus limits through National Pollutant Discharge Elimination System (NPDES) permits, which are often based on the assessed ability for dilution by the receiving waters.
Some sources of nitrogen
- Soil erosion
- Organic matter/debris (decomposing leaves & plants)
- Sewage/failing septic systems
- Animal waste/agricultural runoff
Support this Program!
Laboratory analysis of water samples are very expensive totalling about $1,000 per station per field season. Your donation helps cover the costs of collecting & analyzing water samples.
Become a Citizen Scientist!
Become a trained citizen scientist. Collecting water samples is a great way to enjoy time on the water & get involved in active stewardship of our local waterways!