Degradation

Pesticides in both the particulate and dissolved forms are subject to degradation. The amount of pesticide that is removed from the water via degradation is:

pstdeg,wtr=kp,aqpstrchwtrTTpst_{deg,wtr}= k_{p,aq}*pst_{rchwtr}*TT 7:4.1.6

where pstdeg,wtrpst_{deg,wtr} is the amount of pesticide removed from the water via degradation (mg pst), kp,aqk_{p,aq} is the rate constant for degradation or removal of pesticide in the water (1/day), pstrchwtrpst_{rchwtr} is the amount of pesticide in the water at the beginning of the day (mg pst), and TTTT is the flow travel time (days). The rate constant is related to the aqueous half-life:

kp,aq=0.693t1/2,aqk_{p,aq}=\frac{0.693}{t_{1/2,aq}} 7:4.1.7

where kp,aqk_{p,aq} is the rate constant for degradation or removal of pesticide in the water (1/day), and t1/2,aqt_{1/2,aq} is the aqueous half-life for the pesticide (days).

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#1315: katie.mendoza's Oct 3 ET chapter

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