Abstract: A slow infiltration experiment with different hydraulic loads (0, 3, 6, 9, 12, and 15 cm per week) of domestic wastewater was conducted in a ‘Zhonglin 2001’ poplar plantation to study the effects of the wastewater slow infiltration on the growth of the plantation. Comparing with the control (0 cm), the other five treatments increased the soil organic matter, total N, total P, total K, and Na⁺ contents in the plantation averagely by 1.940 g·kg^-1, 0.115 g·kg^-1, 0.029 g·kg^-1, 1.454 g·kg^-1 and 0.030 g·kg^-1, respectively At lower hydraulic loads (3-12 cm per week), the poplar biomass growth and the N, P and Na⁺ contents in different poplar organs averagely increased by 17.583 t·hm^-2·a^-1, 3.086 g·kg^-1, 0.645 g·kg^-1, and 0.121 g·kg^-1, with the maximum (36.252 t·hm^-2·a^-1, 13.162 g·kg^-1, 5.137 g·kg^-1, and 0.361 g·kg^-1, respectively) at hydraulic loads 6-12 cm per week. The further increase of the hydraulic load decreased the poplar biomass growth and the N, P and Na⁺ contents in different poplar organs. The K content in different poplar organs decreased with increasing hydraulic load. Treating with domestic wastewater increased the leaf length, decreased the leaf asymmetry, and delayed leaf- falling. At high hydraulic load (15 cm per week), the higher soil Na⁺ and water contents would threat the poplar growth. The proper domestic wastewater hydraulic loads for the growth of poplar ‘Zhonglin 2001’ plantation would be 3-12 cm per week.

Key words: wastewater slow infiltration, tree biomass growth, nutrient content,  , Na⁺ content, leaf length, leaf asymmetry, wastewater stress