Kaylee A. South scite author profile

The production of greenhouse ornamentals relies on high fertilizer inputs to meet scheduling deadlines and quality standards, but overfertilization has negative environmental impacts. The goals of this study were to identify plant-growth-promoting rhizobacteria (PGPR) that can improve greenhouse ornamental crop performance with reduced fertilizer inputs, and to identify the best measurements of plant performance for assessing the beneficial impact of PGPR on ornamentals. A high-throughput greenhouse trial was used to identify 14 PGPR isolates that improved the flower/bud number and shoot dry weight of Petunia × hybrida ‘Picobella Blue’ grown under low fertility conditions in peat-based media. These 14 PGPR were then applied to petunias grown under low fertility conditions (25 mg L−1 N). PGPR-treated plants were compared to negative (untreated at 25 mg L−1 N) and positive (untreated at 50, 75, 100, and 150 mg L−1 N) controls. Multiple parameters were measured in the categories of flowering, vegetative growth, and vegetative quality to determine the best measurements to assess improvements in ornamental plant performance. Caballeronia zhejiangensis C7B12-treated plants performed better in almost all parameters and were comparable to untreated plants fertilized with 50 mg L−1 N. Genomic analysis identified genes that were potentially involved in plant growth promotion. Our study identified potential PGPR that can be used as biostimulants to produce high-quality greenhouse ornamentals with lower fertilizer inputs.

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Beneficial Bacteria Identified for the Control of Botrytis cinerea in Petunia Greenhouse Production

South

Hand

Jones

2020

Plant Disease

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Botrytis cinerea infects most major greenhouse crops worldwide. With its increasing resistance to conventional fungicides and the movement of the greenhouse industry toward more sustainable production practices, alternative methods of control are needed. The objective of this study was to evaluate a collection of 60 bacterial strains through both a dual-culture assay and greenhouse trials to identify strains with biocontrol activity against B. cinerea. For the dual-culture assay, each bacterial strain was streaked on potato dextrose agar medium with B. cinerea. The B. cinerea growth reduction and the zone of inhibition were measured. Thirty-five strains reduced the growth of B. cinerea. All strains were also tested in an initial greenhouse trial in which Petunia × hybrida ‘Carpet Red Bright’ was sprayed and drenched with the bacteria biweekly for 6 weeks. All open flowers were tagged, and plants were inoculated with B. cinerea (1 × 104 conidia per 1 ml). Disease severity indices calculated from the daily flower gray mold severity ratings of all tagged flowers were used to identify the seven top-performing strains. These seven strains were then evaluated in a greenhouse validation trial. The methods were similar to those of the initial greenhouse trials except that replicate numbers were increased. Three strains (Pseudomonas protegens AP54, Pseudomonas chlororaphis 14B11, and Pseudomonas fluorescens 89F1) were selected for the ability to reduce B. cinerea infection in a greenhouse production setting. These strains can be used in future studies to develop additional biocontrol products for the management of B. cinerea in floriculture crops.

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Ice Cube Irrigation of Potted Phalaenopsis Orchids in Bark Media Does Not Decrease Display Life

South

Thomas

Iersel

et al. 2017

horts

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Abstract. Phalaenopsis orchids are an increasingly popular potted house plant in the United States. New cultivars have a long display life in home environments, but these epiphytes are often overirrigated by consumers. Irrigating potted Phalaenopsis orchids weekly with ice cubes has been recommended as a simple solution to help consumers, but concern has been raised about whether the ice cubes will cause low temperature damage in these tropical plants. The effect of ice cube irrigation on the display life and quality of four cultivars of potted Phalaenopsis orchids was, therefore, evaluated. Irrigation treatments included weekly application of three ice cubes or the equivalent volume of room-temperature tap water. The longevity of individual flowers and the overall display life of the orchid plants were determined. Monthly measurements determined the volume of leachate in the outer decorative pots after irrigation. The quantum yield of photosystem II (F PSII ) in roots and leaves was evaluated monthly to determine if photosynthetic efficiency was affected by the ice irrigation. The temperature in the orchid bark growing media during irrigation events was recorded, and a programmable antifreeze bath was used to determine the temperature at which damage to PSII was observed in orchid roots. The flower longevity and display life were unaffected by irrigation treatment. In general, the leachate volume over time was the same or lower in ice irrigated orchids compared with those irrigated with the same volume of water. The lowest temperature in the bark media irrigated with ice cubes was ' '11 8C, while controlled freezing experiments showed that damage to photosystem II in orchid roots did not occur until bath temperatures were below L7 8C. The internal temperature of roots in direct contact with ice cubes decreased to around 4 8C. Ice cube irrigation had no detrimental effects on the quality or display life of potted Phalaenopsis orchids growing in bark, demonstrating that ice cubes are a viable method of irrigating these tropical house plants.

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Kaylee A. South

Identification of Plant Growth Promoting Rhizobacteria That Improve the Performance of Greenhouse-Grown Petunias under Low Fertility Conditions

Beneficial Bacteria Identified for the Control of Botrytis cinerea in Petunia Greenhouse Production

Ice Cube Irrigation of Potted Phalaenopsis Orchids in Bark Media Does Not Decrease Display Life

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