ABSTRACT

Large amount of agriculturl wastewater containing high level nitrate-nitrogen (NO₃ ^--N) is produced from modern intensive agricultural production management due to the excessive use of chemical fertilizers and livestock scale farming. The hydroponic experiment of water hyacinth was conducted for analyzing the content of NO₃ ^--N, soluble sugar content, N-transported the amino acid content and growth change in water hyacinth to explore its purification ability to remove NO₃ ^--N from agriculture eutrophic wastewater and physiological and biochemical mechanism of this plant to remove NO₃ ^--N. The results showed that the water hyacinth could effectively utilize the NO₃ ^--N from agriculture eutrophic wastewater. Compared with the control, the contents of NO₃ ^-change to NO₃ ^--N in the root, leaf petiole and leaf blade of water hyacinth after treatment in the wastewater for a week was significantly higher than that in the control plants treated with tap water, and also the biomass of water hyacinth increased significantly, indicating that the accumulation of biomass due to the rapid growth of water hyacinth could transfer some amount of NO₃ ^--N.¹³C-NMR analysis confirmed that water hyacinth would convert the part nitrogen absorbed from agriculture eutrophic wastewater to ammonia nitrogen, which increased the content of aspartic acid and glutamic acid, decreased the content of soluble sugar, sucrose and fructose and the content of N-storaged asparagine and glutamine, lead to enhance the synthesis of plant amino acids and promote the growth of plants. These results indicate that the nitrate in agriculture eutrophic wastewater can be utilized by water hyacinth as nitrogen nutrition, and can promote plant growth by using soluble sugar and amide to synthesis amino acids and protein.

Key words:
water hyacinth; nitrate-nitrogen removal; nitrate conversion; N-transported amino acids