2010
DOI: 10.1021/es9037269
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Estimation of In-Canopy Ammonia Sources and Sinks in a Fertilized Zea mays Field

Abstract: An analytical model was developed to describe in-canopy vertical distribution of ammonia (NH 3 ) sources and sinks and vertical fluxes in a fertilized agricultural setting using measured in-canopy mean NH 3 concentration and wind speed profiles. This model was applied to quantify in-canopy air-surface exchange rates and above-canopy NH 3 fluxes in a fertilized corn (Zea mays) field. Modeled air-canopy NH 3 fluxes agreed well with independent above-canopy flux estimates. Based on the model results, the urea fer… Show more

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Cited by 80 publications
(58 citation statements)
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“…The morning peak of NH 3 was also observed elsewhere and could have resulted from emissions from fertilised soils and plant stomata, evaporation of dew, human sources, and mixing down of ammonia from the residual layer (Trebs et al, 2004;Norman et al, 2009;Bash et al, 2010;Ellis et al, 2011). Figure 3b reveals that the relative humidity (90-89 %) and temperature (21.5-22.1 • C) remained relatively constant before 06:00 but increased later in the morning.…”
Section: Diurnal Variations In Nhmentioning
confidence: 57%
“…The morning peak of NH 3 was also observed elsewhere and could have resulted from emissions from fertilised soils and plant stomata, evaporation of dew, human sources, and mixing down of ammonia from the residual layer (Trebs et al, 2004;Norman et al, 2009;Bash et al, 2010;Ellis et al, 2011). Figure 3b reveals that the relative humidity (90-89 %) and temperature (21.5-22.1 • C) remained relatively constant before 06:00 but increased later in the morning.…”
Section: Diurnal Variations In Nhmentioning
confidence: 57%
“…Also, canopy recapture of soil-and fertilizeremitted NH 3 might have played a role in the variant exchange characteristics after fertilization Á particularly between those in April and May where an almost three times higher fertilizer amount applied in May (82.7 kg N ha (1 ) did not lead to significantly elevated emissions compared to the fertilization in April (28.5 kg N ha (1 ). According to studies of Nemitz et al (2000), Denmead et al (2008) and Bash et al (2010), closer plant canopies Á as was the case in May Á are likely to recapture more NH 3 than open plant canopies. However, for the June fertilization with a medium quantity of 44.6 kg N ha (1 applied, but followed by the substantial emission rates, maturity effects must have been predominated over canopy recapture effects.…”
Section: Effect Of Fertilization On Sn R Exchangementioning
confidence: 99%
“…Within these upper layers the vertical length scales of turbulence are probably smaller than the distance associated with changes in concentration and wind speed gradients (Baldocchi, 1988). Thus, the flux-gradient theory is likely applicable for estimating the vertical flux distribution of air pollutants within a plant canopy as has been used in previous studies (e.g., Baldocchi, 1988;Bash et al, 2010;Wolfe and Thornton, 2011). Applying the flux-gradient theory within the canopy, a height-dependent flux (F (z)) can then be calculated as…”
Section: Modified Gradient Methodsmentioning
confidence: 98%