Difference between revisions of "Phosphorus"
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| − | + | ==Reducing discharged phosphorus== | |
| − | + | In many forms of LID practice, the dominant mechanism reducing the loading of phosphorus, is the significant volume reduction achieved. | |
| − | + | *[[Bioretention: Performance]] | |
| − | + | *Others... | |
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For infiltration practices an 'amendment' can help to retain even further P. | For infiltration practices an 'amendment' can help to retain even further P. | ||
{{:Amendments}} | {{:Amendments}} | ||
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| − | + | ==Phosphorous testing== | |
| − | + | To help ensure LID BMPs sustain healthy vegetation cover while not contributing substantially to nutrient loading of receiving waters, the quantity of extractable (i.e., available) P in the soil component needs to be measured and compared to design specifications or acceptance criteria. | |
{{:Phosphorus testing}} | {{:Phosphorus testing}} | ||
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Revision as of 19:48, 4 September 2017
Reducing discharged phosphorus[edit]
In many forms of LID practice, the dominant mechanism reducing the loading of phosphorus, is the significant volume reduction achieved.
- Bioretention: Performance
- Others...
For infiltration practices an 'amendment' can help to retain even further P. Amendments
Phosphorous testing[edit]
To help ensure LID BMPs sustain healthy vegetation cover while not contributing substantially to nutrient loading of receiving waters, the quantity of extractable (i.e., available) P in the soil component needs to be measured and compared to design specifications or acceptance criteria. Phosphorus testing