News Release

Fertigation strategies improve production of Hippeastrum

Nitrate-based strategy in semiclosed soilless system improves water use efficiency, limits nutrient loss

Peer-Reviewed Publication

American Society for Horticultural Science

PORTICO, ITALY - Recent studies have demonstrated that a priority for the floriculture industry is identifying environmentally friendly production strategies that result in marketable ornamental plants. The authors of a report in the June 2016 issue of HortScience say that implementing recommended nutrient management strategies in soilless culture production offers multiple benefits for growers.

The researchers said that "closed-loop systems" can optimize fertigation and reduce drainage water runoff from greenhouses. "Closed-loop systems are considered environmentally friendly because they significantly improve water use efficiency when compared with free-drain soilless systems," they noted. Despite these benefits, commercial applications of closed loop systems are limited in some Mediterranean regions because of high investment costs and difficulties related to nutrient solution management.

The researchers worked to determine best production practices for greenhouse production of Hippeastrum plants. "Potted Hippeastrum plants are a significant component of the Italian ornamental industry as a result of the high demand of this product on national and international markets," they explained.

The study design involved two nutrient management strategies--electrical conductivity (EC) or nitrate-nitrogen concentration control (N-NO3-)--used in a semiclosed, soilless system. The scientists analyzed effects of both of the methods on Hippeastrum plant growth, ornamental quality, plant-water relations, mineral composition, and water use efficiency. In the EC and the nitrate based strategies, the recirculating nutrient solution was flushed 10 and 5 times, respectively. Water loss and total water use in the EC-based strategy were significantly higher (261.1% and 61.5%, respectively) compared with the N-NO3--based strategy.

"There were no significant differences in terms of plant growth parameters, stomatal resistance, leaf water relations, and macronutrient composition in plant tissues between the two nutrient management strategies," the authors said.

Analyses revealed that the N-NO3--based strategy significantly minimized nitrate, phosphate, and potassium emissions to the environment. The effective water use efficiency of the system recorded in the N-NO3--based strategy was 55.9% higher when compared with the one recorded with the EC-based strategy.

"Our findings demonstrate that, by means of N-NO3--based strategy, it was possible to prolong the nutrient solution recirculation in a semiclosed cultivation of Hippeastrum, with the goal of limiting water drainage and minimizing nitrate emission in the environment, with no detrimental effect on plant growth and ornamental value," the authors said.

They recommended that the nitrate-based nutrient management strategy be adopted by floricultural growers because of its ability to produce profitable crops. They added that N-NO3- concentrations in nutrient solution can be easily and routinely measured using low-cost, efficient tests.

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The complete study and abstract are available on the ASHS HortScience electronic journal web site: http://hortsci.ashspublications.org/content/51/6/684.abstract

Founded in 1903, the American Society for Horticultural Science (ASHS) is the largest organization dedicated to advancing all facets of horticultural research, education, and application. More information at ashs.org


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