Effectiveness of dicyandiamide as a nitrification inhibitor in biochar-amended soil  被引量：2

作　　者：Simeng LI Gang CHEN 

机构地区：[1]Department of Civil Engineering,California State Polytechnic University,3801 West Temple Avenue,Pomona CA 91709-2557(USA [2]Department of Civil and Environmental Engineering,FAMU-FSU College of Engineering,2525 Pottsdamer Street,Tallahassee FL 32310-6046(USA

出　　处：《Pedosphere》2020年第3期352-362,共11页土壤圈（英文版）

基　　金：This research was supported by the National Institute of Food and Agriculture(NIFA)of the United States Department of Agriculture(USDA)through Grant No.2016-67020-25275 to the Florida Agricultural and Mechanical University.

摘　　要：Overuse of nitrogen(N) fertilizers may lead to many environmental issues via N leaching into groundwater and agricultural runoff into surface water.Biochar, a sustainable soil amendment agent, has been widely studied because of its potential to retain moisture and nutrients. However, recent studies have shown that biochar has a very limited ability to improve the retention of negatively charged nitrite(NO2-) or nitrate(NO3-). Although positively charged ammonium(NH4+) can be better held by biochar, it is usually susceptible to nitrification and can be easily transformed into highly mobile NO2- and/or NO3-.In practice, dicyandiamide(DCD) has been used to inhibit nitrification, preserving N in its relatively immobile form as NH4+. Therefore, it is likely that the effects of DCD and biochar in soils would be synergistic. In this study, the influences of biochar on the effectiveness of DCD as a nitrification inhibitor in a biochar-amended soil were investigated by combining the experimental results of incubation, adsorption isotherm, and column transport with the simulated results of different mathematical models. Biochar was found to stimulate the degradation of DCD, as the maximum degradation rate slightly increased from 1.237 to 1.276 mg kg-1 d-1 but the half-saturation coefficient significantly increased from 5.766 to 9.834 mg kg-1. Considering the fact that the availability of DCD for nitrification inhibition was continuously decreasing because of its degradation, a novel model assuming non-competitive inhibition was developed to simulate nitrification in the presence of a decreasing amount of DCD. Depending on the environmental conditions, if the degradation of DCD and NH4+ in biochar-amended soil is not significant, improved contact due to the mitigated spatial separation between NH4+and DCD could possibly enhance the effectiveness of DCD.

关 键 词：AMMONIUM column experiment CXTFIT model microbial degradation nitrification inhibition nitrogen fertilizer spatial separation sorption isotherm 

分 类 号：S156[农业科学—土壤学]