Dep. of Agronomy and Horticulture, Univ. of Nebraska-Lincoln, Lincoln, NE, 68588, USA.
USDA-ARS, Central Great Plains Research Station, Akron, CO, 80720, USA.
J Environ Qual. 2020 Mar;49(2):256-267. doi: 10.1002/jeq2.20023. Epub 2020 Mar 16.
Fertilizer N losses from agricultural systems have economic and environmental implications. Soil amendment with high C materials, such as coal char, may mitigate N losses. Char, a coal combustion residue, obtained from a sugar factory in Scottsbluff, NE, contained 29% C by weight. A 30-d laboratory study was conducted to evaluate the effects of char addition on N losses via nitrous oxide (N O) emission, ammonia (NH ) volatilization, and nitrate (NO -N) leaching from fertilized loam and sandy loam soils. Char was applied at five different rates (0, 6.7, 10.1, 13.4, and 26.8 Mg C ha ; char measured in C equivalent) to soils fertilized with urea ammonium nitrate (UAN) at 200 kg N ha . In addition, there were two negative-UAN control treatments: no char (no UAN) and char at 26.8 Mg C ha (no UAN). Treatment applied at 6.7 and 10.1 Mg C ha in fertilized sandy loam reduced NH volatilization by 26-37% and at 6.7, 10.1, and 13.4 Mg C ha in fertilized loam soils by 24% compared with no char application. Nitrous oxide emissions and NO -N leaching losses were greater in fertilized compared with unfertilized soil, but there was no effect of char amendment on these losses. Because NO -N leaching loss was greater in sandy loam than in loam, soil residual N was twofold higher in loam than in sandy loam. This study suggests that adding coal char at optimal rates may reduce agricultural reactive N to the atmosphere by decreasing NH volatilization from fertilized soils.
农业系统中肥料氮的损失具有经济和环境方面的影响。用高碳材料(如煤焦)改良土壤可能会减少氮的损失。煤焦是一种煤炭燃烧的残留物,从内布拉斯加州斯科茨布拉夫的一家糖厂获得,其含碳量为 29%(按重量计)。进行了一项为期 30 天的实验室研究,以评估添加煤焦对施肥壤土和砂壤土中通过氧化亚氮(N 2 O)排放、氨(NH 3 )挥发和硝酸盐(NO 3 - -N)淋失损失氮的影响。将煤焦以 5 种不同的用量(0、6.7、10.1、13.4 和 26.8 Mg C ha -1 ;以碳当量计的煤焦)施加到用尿素-硝酸铵(UAN)施肥的土壤中,施肥量为 200 kg N ha -1 。此外,还有两个对照处理,即无煤焦(无 UAN)和 26.8 Mg C ha -1 煤焦(无 UAN)。在施肥砂壤土中,用量为 6.7 和 10.1 Mg C ha -1 的处理减少了 26-37%的氨挥发,在施肥壤土中,用量为 6.7、10.1 和 13.4 Mg C ha -1 的处理减少了 24%的氨挥发,与无煤焦应用相比。与未施肥土壤相比,施肥土壤中氮氧化物排放量和硝酸盐淋失损失更大,但煤焦添加对这些损失没有影响。由于砂壤土中硝酸盐淋失损失大于壤土,因此壤土中土壤残留氮是砂壤土的两倍。这项研究表明,在最佳用量下添加煤焦可能会通过减少施肥土壤中氨的挥发来减少农业活性氮向大气中的排放。
