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2014 ASHS Annual Conference

20339:
Enrichment of Tissue Iron (Fe) Contents of Leaf Lettuce Grown Hydroponically

Thursday, July 31, 2014: 9:30 AM
Salon 5 (Rosen Plaza Hotel)
Adeline Bordier, North Dakota State University, Fargo
Chiwon W. Lee, Department of Plant Sciences, North Dakota State University, Fargo, ND
This experiment was conducted to enhance tissue concentrations of iron (Fe++) in leaf lettuce (Lactuca stiva cv. Grand Rapids) plants grown hydroponically. The nutrient solution containing the standard macronutrient concentrations (meq/litter: 2 NH4+, 10 NO3-, 4 Ca++, 6 K+, 2 Mg2+, 2 SO42-, 2 H2PO4-) was modified to contain 0, 0.01, 0.1, 1, 2, 4 meg/liter Fe++ using iron sulfate (FeSO4). The concentration of SO42- increased from 2 meq/liter to 2.01, 2.1, 3, 4, 6 meq/liter to accommodate the elevated levels of Fe++ in the nutrient treatment solutions. All treatment solutions contained the standard micronutrient concentrations of Hoagland solution. Compared to the control treatment (0.01 meq/liter), the growth of lettuce was reduced when the nutrient solution contained 1 meq/liter or higher Fe++ concentrations. The leaf tissue Fe++ content was elevated linearly (R2=0.893) as nutrient solution Fe++ levels increased, with the highest tissue Fe++ content (1.53 g/kg, dry weight basis) being achieved when plants were grown with 4 meq/liter Fe++ in the hydroponic solution for 35 days. However, the use of FeSO4 to increase Fe++ in the nutrient solution has a limitation due to suppression of plant growth on Grand Rapids lettuce, especially when nutrient Fe++ concentrations exceeded 0.1 meq/liter. The possible use of chelated forms of iron in the nutrient solution may be tested as a means of reducing plant toxicity during hydroponic culture.