Search Results

You are looking at 1 - 4 of 4 items for :

  • "leaching intensity" x
  • User-accessible content x
Clear All
Free access

Richard J. McAvoy

`Rose Grenadine' and `Buckaroo' garden chrysanthemums [Dendranthema ×grandiflorum (Ramat.) Kitamura] were produced in 15-cm pots in the greenhouse and fertilized with either 550 or 1000 ml of a 15 mol·m-3 N solution at each irrigation. The nutrient solution applied to half the pots contained a wetting agent (WA), and the remaining pots received no WA. Core samples were removed at 15-cm increments to a depth of 90 cm from the soil beneath the pots. The average leaching fraction (LF) from pots receiving a WA was 0.29 but was 0.26 from pots receiving no WA. However, WA did not affect the leachate NO3-N concentration or the total NO3-N deposited on the soil beneath; these were most influenced by LF. After week 2, NO3-N concentration in the upper 15 cm soil layer was 3.4 times higher with a high LF than with a low LF (30 and 8.8 g·m-3 respectively). At week 10, the NO3-N concentration in the 30 to 45 cm soil layer averaged 71.9 g·m-3 under the high LF and 35.5 g·m-3 under the low LF. Total N and NO3-N in the potting medium was higher in the low LF pots than the high LF pots, while NO3-N was higher in the medium of pots irrigated without WA than with WA. Final plant shoot mass was higher in pots irrigated to a high LF or without WA than in pots irrigated to a low LF or with WA.

Free access

Catherine S.M. Ku and David R. Hershey

Abbreviations: EC, electrical conductivity; EC a , EC of the applied solution; EC e , EC of a saturated medium extract; ET, evapotranspiration; LF, leaching fraction; LI, leaching intensity; LR, leaching requirement; M a , mass of pot after

Full access

L. Carolina Medina, Thomas A. Obreza, Jerry B. Sartain, and Robert E. Rouse

method, possibly as a result of greater leaching intensity in the field. Nitrogen release curves for CitriBlen ® and the Agrocote ® materials fit well to exponential rise-to-maximum models ( Table 4 ). These equations could be used to predict N release

Full access

Nicolas Tremblay, Edith Fallon, and Noura Ziadi

NO 3 after harvest ( Andraski et al., 2000 ). Leaching intensity is controlled by soil texture ( Addiscott, 1996 ; van Es et al., 2002 ) among other factors. Heavy textures, like clays, may have a restraining influence on N leaching compared with