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Current Fertilizer Input for Pot Gerbera Production Can Be Reduced by More than 50%
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Pot gerbera (Gerbera jamesonii Var. `Shogun') plants were subirrigated with one of four nutrient solutions (10, 25, 50, and 100% of full strength) in order to determine whether currently used commercial nutrient solution concentrations can be reduced without negative impact on crop production. Nutrient concentration levels did not affect leaf area, flower number and appearance, and plant total dry weight. There were no significant differences in leaf chlorophyll content between the plants that received the 50 and 100% strength nutrient solutions. It is concluded that nutrient solution concentrations typically used in commercial greenhouse, for pot gerbera production, can be safely reduced by at least 50% without adversely affecting crop production. Nutrients accumulated in the top section of the growth substrate under all treatment levels; however, no phytotoxic effect was observed. Fertilizer inputs were reduced in the 50%, 25%, and 10% treatments by 54%, 75%, and 90% respectively. After 4 weeks recirculating, the quality of the nutrient solutions was still within acceptable limits.
American Society for Horticultural Science
Title: Current Fertilizer Input for Pot Gerbera Production Can Be Reduced by More than 50%
Description:
Pot gerbera (Gerbera jamesonii Var.
`Shogun') plants were subirrigated with one of four nutrient solutions (10, 25, 50, and 100% of full strength) in order to determine whether currently used commercial nutrient solution concentrations can be reduced without negative impact on crop production.
Nutrient concentration levels did not affect leaf area, flower number and appearance, and plant total dry weight.
There were no significant differences in leaf chlorophyll content between the plants that received the 50 and 100% strength nutrient solutions.
It is concluded that nutrient solution concentrations typically used in commercial greenhouse, for pot gerbera production, can be safely reduced by at least 50% without adversely affecting crop production.
Nutrients accumulated in the top section of the growth substrate under all treatment levels; however, no phytotoxic effect was observed.
Fertilizer inputs were reduced in the 50%, 25%, and 10% treatments by 54%, 75%, and 90% respectively.
After 4 weeks recirculating, the quality of the nutrient solutions was still within acceptable limits.
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