Calibration of a semi‐open static collector for determination of ammonia volatilization from nitrogen fertilizers

Abstract

Field quantification of ammonia (NH₃) volatilization from applied nitrogen (N) is limited because there are no simple inexpensive methods which measure losses without interference from the measuring equipment. Five greenhouse experiments were conducted at the Center for Nuclear Energy in Agriculture, Piracicaba, Brazil in order to estimate NH₃ volatilization from applied N using semi‐open static collectors and the ¹⁵N balance method. Urea, ammonium sulfate [(NH₄)₂SO₄] and aqua ammonia labeled with ¹⁵N were applied at rates from 5 to 100 mg N kg^‐1 soil in pots containing 600 g of Oxisols and Ultisols (0–20 cm). Efficiency of the equipment in capturing NH₃ was determined by the ratio of volatilized NH₃‐N from the fertilizer labeled with ¹⁵N retained in the collector to the volatilized quantity obtained by the ¹⁵N balance method. Efficiencies varied from less than 1% to about 50% based on the mean rate of NH₃‐N from the fertilizer and the mean rate of total NH₃‐N (fertilizer‐N + soil‐N) retained in the collector. The functions were adjusted by correlating all collector efficiency values with the corresponding rates of fertilizer NH₃‐N and total N retained in the collector regardless of soil and climatic conditions or of fertilizer application method. The models provided estimates of the efficiency of the collector for retaining NH₃‐N derived from fertilizer and the total NH₃‐N lost from the soil. The NH₃‐N losses were calculated based on the efficiency estimates. Losses from fertilizers were not significantly different from losses determined by the ¹⁵N method when fertilizer N losses were greater than 0.11 mg day^‐1. Total loss estimates did not differ from the losses determined by ¹⁵N balance method for collector measured losses greater than 0.26 mg day^‐1. These results showed that, if the quantity of NH₃‐N retained in the collector and the efficiency of the equipment are known, the collector is a simple and inexpensive device for estimating actual NH₃‐N losses under varying soil, climatic, and N fertilizer management conditions, without using expensive ¹⁵N‐fertilizer.