Potential of biochar soil amendments to reduce N leaching in boreal field conditions estimated using the resin bag method

• Published in: Agriculture, ecosystems & environment Vol. 316; p. 107452
• Main Authors: Karhu, Kristiina, Kalu, Subin, Seppänen, Aino, Kitzler, Barbara, Virtanen, Eetu
• Format: Journal Article
• Language: English
• Published: Elsevier B.V 15.08.2021
• Subjects: agriculture; Ammonium; Biochar; environment; Finland; ion exchange; Microbial biomass; N leaching; Nitrate; Nitrate retention; nitrates; nitrogen; soil; soil treatment; summer; winter; Finland; Ammonium; Nitrate; N leaching; Nitrate retention; Biochar; Microbial biomass
• ISSN: 0167-8809; 1873-2305
• DOI: 10.1016/j.agee.2021.107452

Addition of biochar to soil has been shown to reduce nitrogen (N) leaching in pot experiments, but direct field measurements are scarce, and data is lacking especially from colder, boreal conditions. We studied the effect of soil organic amendments on nitrate (NO3-) and ammonium (NH4+) leaching using the resin bag method, by placing the bags containing ion-exchange resins under the plough layer. We compared N leaching under five different treatments at the Päästösäästö project site (Soilfood Oy) in Parainen, south-western Finland: non-fertilized control, fertilized control, and three different organic amendments: spruce biochar, willow biochar and nutrient fiber. During the 2017 growing season, resin bags were changed monthly between the end of May and beginning of September, extracted with 1 M NaCl, and analyzed for inorganic N. The daily leaching rate of NO3- was greatest at the beginning of the growing season, right after fertilization. Ammonium leaching was generally lower, and independent of the time since fertilization. The spruce biochar reduced cumulative NO3- leaching by 68% compared to the fertilized control. The NH4+ leaching in the organic amendment treatments did not statistically significantly differ from the fertilized control in pairwise comparisons. In October 2017, after harvesting, the resin bags were placed under soil columns again, and left in the soil over winter to accumulate N leached during the plant-free period. Cumulative NO3- leaching during winter was consistent with the corresponding summer results, and average leaching decreased in the order: willow biochar > fertilized control > nutrient fiber > non-fertilized control > spruce biochar. Thus, we show here, for the first time in a field study from boreal conditions that spruce biochar soil application decreased nitrate leaching, while increasing its retention in the surface layer of the biochar-amended soil. •Potential of biochars to reduce N leaching was studied using the resin bag method.•Spruce biochar decreased NO3- leaching in boreal field conditions.•Spruce biochar increased retention of NO3- in the surface soil.•There was a trend of reduced NH4+ leaching in the willow biochar treatment.•There was a tendency of increased NH4+ retention in willow biochar amended soil.