Moisture Quotients for Ammonia Volatilization from Four Soils in Potato Production Regions

Abstract: Ammonia (NH 3 ) emission from nitrogen (N) fertilizers used in agriculture decreases N uptake by the crop and negatively impacts air quality. In order to better understand the factors influencing NH 3 emission from agriculture, this research was conducted with four major soils used for potato production: Biscayne Marl Soil (BMS, pH 7.27), and Krome Gravelly Loam (KGL, pH 7.69) from Florida; and Quincy Fine Sand (QFS, pH 6.65), and Warden Silt Loam (WSL, pH 6.46) from Washington. Potassium nitrate (KNO 3 ), amm… Show more

“…The results for all four soil types showed that the lower the soil moisture content, the higher the amount of NH 3 volatilization (Liu et al, 2007). Water acts a solvent to transport NH 4 + away from the soil surface (Liu et al, 2007). The drier bedded pack during the hot months may have contributed to higher concentration of NH 3 in the air samples from the pen surface of BDMF.…”

“…Jeppsson (1999) reported an increase in NH 3 emissions in deep-bedded dairy barns when the temperature of the bedded pack increased from 21.4°C to 30.0°C. Elevating the temperature of the soil has been shown to increase NH 3 losses from the surface of open feedlots (Sherwood et al, 2006) and from soils receiving urea fertilizer (Liu et al, 2007). Higher temperatures also increased NH 3 losses from waste treatment lagoons (Aneja et al, 2001) and poultry litter (Liu et al, 2006).…”

“…In dry soil, the transport of NH 4 + ions from the soil surface down to the deep soil horizon is restricted; hence, increased losses of nitrogen occur as NH 3 emissions from the soil (Liu et al, 2007). Sherwood et al (2007) reported an increase in NH 3 losses from the surface of open feedlots when the moisture content of the soil was decreased.…”

“…Sherwood et al (2007) reported an increase in NH 3 losses from the surface of open feedlots when the moisture content of the soil was decreased. Liu et al (2007) measured NH 3 volatilization following application of N fertilizer on four different soil types. The results for all four soil types showed that the lower the soil moisture content, the higher the amount of NH 3 volatilization (Liu et al, 2007).…”

“…Liu et al (2007) measured NH 3 volatilization following application of N fertilizer on four different soil types. The results for all four soil types showed that the lower the soil moisture content, the higher the amount of NH 3 volatilization (Liu et al, 2007). Water acts a solvent to transport NH 4 + away from the soil surface (Liu et al, 2007).…”

Environmental Conditions in Beef Deep-Bedded Mono-Slope Facilities: A Descriptive Study

“…The results for all four soil types showed that the lower the soil moisture content, the higher the amount of NH 3 volatilization (Liu et al, 2007). Water acts a solvent to transport NH 4 + away from the soil surface (Liu et al, 2007). The drier bedded pack during the hot months may have contributed to higher concentration of NH 3 in the air samples from the pen surface of BDMF.…”

“…Jeppsson (1999) reported an increase in NH 3 emissions in deep-bedded dairy barns when the temperature of the bedded pack increased from 21.4°C to 30.0°C. Elevating the temperature of the soil has been shown to increase NH 3 losses from the surface of open feedlots (Sherwood et al, 2006) and from soils receiving urea fertilizer (Liu et al, 2007). Higher temperatures also increased NH 3 losses from waste treatment lagoons (Aneja et al, 2001) and poultry litter (Liu et al, 2006).…”

“…In dry soil, the transport of NH 4 + ions from the soil surface down to the deep soil horizon is restricted; hence, increased losses of nitrogen occur as NH 3 emissions from the soil (Liu et al, 2007). Sherwood et al (2007) reported an increase in NH 3 losses from the surface of open feedlots when the moisture content of the soil was decreased.…”

“…Sherwood et al (2007) reported an increase in NH 3 losses from the surface of open feedlots when the moisture content of the soil was decreased. Liu et al (2007) measured NH 3 volatilization following application of N fertilizer on four different soil types. The results for all four soil types showed that the lower the soil moisture content, the higher the amount of NH 3 volatilization (Liu et al, 2007).…”

“…Liu et al (2007) measured NH 3 volatilization following application of N fertilizer on four different soil types. The results for all four soil types showed that the lower the soil moisture content, the higher the amount of NH 3 volatilization (Liu et al, 2007). Water acts a solvent to transport NH 4 + away from the soil surface (Liu et al, 2007).…”

Environmental Conditions in Beef Deep-Bedded Mono-Slope Facilities: A Descriptive Study

The Mechanisms Driving Ammonia Emission Variations in Alkaline Soil Under Different Irrigation and Fertilization Management Practices in Arid Regions

Ammonia emissions from soil under sheep grazing in inner mongolian grasslands of China