To establish an empirical model of ammonia uptake by duckweed,Lemnaperpusilla under various ammonia concentrations and duckweed densities,anexperiment of a 5×5 factorial arrangement of treatments;5 initial ammonia-Nconcentrations 0.0,0.25,0.5,1.0 and 2.0 mg/l,by 5 duckweed densities 0.0,0.5,1,0,2.0,and 4.0g/l were conducted to measure the ammonia-N concentrationat 9 durations from 0 to 96 hours.In the presence of duckweed,ammonia-Ndecreased in a decaying exponential fashion;C(subscript t)=C(subscript o)×exp(－K×t)and anoptimal second order multiple regression model was obtained as the following:K=9.5242×10^(-3)+2.8252×10^(-3)×ln(C(subscript o))+3.0327×10^(-2)×D－6.1993×10^(-3)×D^(2)(R^(2)=0.7689)where C(subscript t)is the ammonia-N concentration(mg/l)at time t(hr),C(subscript o)the initialammonia concentration,K the uptake coefficient,and D the duckweed density(g/l).The model demonstrated duckweed density at 2.44 g/l was most efficientin ammonia uptake;at densities either higher or lower than 2.44 g/l the uptakecoefficient K decreased.Kincreased with initial ammonia concentration.Thechange of K was most sensitive to ln(C(subscript 0)),followed by D^(2)and D.There wasa 64 to 69% decrease in ammonia when duckweed was placed at a density 2.44g/l in solution of ammonia concentration 0.25 to 2.0 mg/l after 24 hours.