RESUMEN
The reuse of water in agriculture has become more common in water management worldwide. However, there is very limited information about nutrient retention in water reclamation management. In this study, an improved low impact development (LID) practice was constructed to investigate the synergistic effects of three substrates amendment on nitrogen (N) and phosphorus (P) retention under two irrigation modules: spray and drip irrigation. The orthogonal combination of the three substrates was controlled during four leaching events, with polyacrylamide (PAM), peat soil, and straw biochar application rates of 1, 2, and 4â¯gâ¯kg-1; 5, 10, and 20â¯gâ¯kg-1; and 10, 20, and 40â¯gâ¯kg-1, respectively. Results showed that the optimum treatments for N and P were 2â¯gâ¯kg-1 of PAM; 2â¯gâ¯kg-1 of PAM, 10â¯gâ¯kg-1 of peat soil, and 40â¯gâ¯kg-1 of straw biochar, respectively. The highest amounts of N and P retention under spray and drip irrigation were 83.12â¯mgâ¯N kg-1 and 50.09â¯mgâ¯N·kg-1, and 11.88â¯mgâ¯P·kg-1 and 7.47â¯mgâ¯P·kg-1, respectively. The analysis of variance indicated that PAM, biochar, and peat soil affected the retention of leachate, N, and P differently. PAM application could not only improve the water, N, P retention capacity of soil, but also significantly increase the content of ï¼2â¯mm water-stable soil aggregate (WSA) (pï¼0.05), and there is an advisable linear relation between N, P retention and the content of ï¼2â¯mm WSA (R2â¯=â¯0.79, 0.67, respectively). Overall, this study concludes that a combined application of PAM and biochar could reduce P loss and increase the ï¼2â¯mm WSA under leaching condition.