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United States Department of Agriculture

Agricultural Research Service

Related Topics

Research Project: Tracking and Managing Diseases of Floriculture Crops Caused by Oomycetes

Location: Biological Integrated Pest Management Unit

2011 Annual Report

1a.Objectives (from AD-416)
Ornamental growers face diverse plant diseases that represent major management challenges. Companies produce multiple species and often multiple varieties of each crop, which may differ in susceptibility to plant pathogens and respond differently to agricultural practices. Furthermore, ornamental crops are exposed to pests in unnatural ways. Although environmental conditions inside greenhouses may be adjusted to encourage optimum growth of the crops, the same conditions also may be favorable, if not optimum, for pathogens. In the absence of natural competitors/inhibitors, pathogens may thrive under greenhouse conditions. Seed rots, damping-off of seedlings, black leg, and root rots caused by Pythium and Phytophthora spp. are among the most devastating, recurrent problems affecting ornamental crops. Initial studies on the optimization of management strategies for Pythium and Phytophthora diseases in ornamental crops were first conducted in the early 1900s. More recent studies have detailed environmental conditions favorable for infection in ornamental production facilities, and robust tools for pathogen identification and genetic characterization have been developed. Many protocols for detection of inoculum and management of diseases in ornamental crops have been developed. Selected species associated with ornamental crops have been surveyed and their genetic diversity and fungicide sensitivities have been characterized. However, it is necessary to synthesize the available information, fill in the vast information gaps that still exist, and deliver updated protocols, providing growers with tools and strategies for efficient management of plant diseases. This project will focus on some of the most common diseases affecting floriculture crops, those due to Pythium and Phytophthora species that infect root systems. It is important to develop information to help growers choose effective management strategies tailored to the specific pathogens that threaten the plants they grow. Learning how to use molecular tools effectively to pinpoint the sources of pathogen outbreaks within production pathways is essential for developing effective disease management strategies. This project will build on previous USDA FNRI-funded research on root rots and will make use of the latest scientific methods to develop better disease management options for successful integrated pest management programs for floriculture crops. Specific objectives of the proposed research include.
1)development of improved molecular methods to accurately identify oomycete (Pythium and Phytophthora) species that cause diseases on many important floriculture crops,.
2)design of standardized oomycete sampling techniques from plants, growing media, and irrigation water for routine and forensic applications, and.
3)development of improved detection and identification technologies for Pythium and Phytophthora species and use of these technologies to track populations of a species within individual greenhouses or nurseries (especially to track introductions of new strains, insect vectoring of strains, and development of fungicide-resistant strains).

1b.Approach (from AD-416)
Objective 1. Specific primers and highly sensitive assays will be designed for known and new Pythium and Phytophthora spp. DNA sequences of target genes will be retrieved from the National Center for Biotechnology Information (NCBI) Genbank or newly generated by DNA sequencing, aligned, and analyzed. Primers will be designed by using validated thermodynamic parameters through a Web-interface pathway. Morphological characters will be used to validate molecular identifications where applicable. Studies under this objective will involve informal collaboration with M. Daughtrey of Cornell University. Objective 2. Sampling protocols will be developed to optimize pathogen detection according to facility size and substrate type (plant tissues, water, soil, or potting mixes). Oomycete isolates collected from greenhouses and nurseries in OK and NY will be identified to species level morphologically. Small portions of roots containing oospores will be plated onto selective media and grown at 23C for 3-7 days. When necessary, reproductive structures will be produced in water-grass cultures. Soil aliquot samples from pots will be plated on selective media. Collection of Pythium and Phytophthora strains from water samples will be obtained from each facility water source and fertilizer holding tank. Water samples will be processed using a novel reverse osmosis water filtration protocol. Preliminary tests have demonstrated the utility of this protocol for detection/recovery of Pythium aphanidermatum by growers (Garzon et al. unpubl.). Commercial kits for DNA purification from plant tissues, mycelium, and soil samples will be used as recommended by the manufacturer. Protocols will be modified or replaced by standard protocols as needed. Objective 3. Novel primers designed in objective 1 and DNA sequencing of the ITS region will be used to identify strains to species level using species-specific primers. Diversity of Pythium and Phytophthora spp. in each facility will be recorded. Strains with ambiguous identification will be characterized thoroughly by DNA sequencing of multiple loci (ITS, cox I-II, hsp 90, TigA, and Beta-tubulin) and compared to sequences available in the NCBI database. New species will be characterized and reported. Predominant species in each facility will be identified using three types of molecular markers: SSR, AFLP and ISSR. Data analyses will be conducted using population genetic software. Genetic structure and diversity of pathogen populations will be characterized, dominant genotypes will be identified, and their location in facilities will be mapped. The genetic profiles of dominant strains will be compared between facilities to identify common genotypes (lineages). Population genetic information will be combined with information on crop management in different facilities, and possible sources of inoculum and means of long distance movement will be identified. ARS Objective. Laboratory assays and small-scale greenhouse tests conducted by collaborating USDA-ARS researchers in Ithaca, NY will elucidate the nature of Bradysia fungus gnat/Phytophthora associations and the role of fungus gnats in Phytophthora disease outbreaks.

3.Progress Report

Isolates. From November 2010 through June 2011, mycelium of 145 Pythium isolates from the collection maintained at the Long Island Horticultural Research & Extension Center (LIHREC) of Cornell University were received for molecular characterization and species identification. Upon arrival at Oklahoma State University, samples were frozen with liquid nitrogen, freeze-dried overnight, and stored at -20C. Samples of mycelium were macerated in a buffer solution in a bead beater.

DNA purification. DNA was purified and evaluated for quantity and quality by gel electrophoresis and nanodrop.

Species-specific primers. Newly designed species-specific primers were validated in silico and in vitro using mycelium of Pythium isolates from the LIHREC and The Pennsylvania State University collections. Thirty-two samples were screened with new P. irregulare and P. cryptoirregulare species-specific primers. In agreement with microsatellite results (see below), P. irregulare sensu stricto and P. cryptoirregulare isolates were identified as well as a subset of isolates with ambiguous identity. New primers with greater specificity are being designed. Pythium aphanidermatum and P. deliense primers were also validated, and a technique manuscript will soon be submitted for publication.

Microsatellite analyses. Microsatellite profiles of 21 P. irregulare sensu lato from Long Island isolates were analyzed using Population Genetics Methods. P. irregulare sensu stricto and P. cryptoirregulare clusters were identified, as well as a group of isolates that could not be defined as either species. A molecular analysis of these samples is underway that is expected to define at least three new species. Additionally, molecular markers for P. sylvaticum are under development.

DNA sequence analysis. Pythium isolates were identified to species level by sequencing regions of the ribosomal DNA and comparing obtained sequences to published data (GenBank). DNA sequences of additional genes of selected P. irregulare sensu lato strains were also characterized for phylogenetic analyses. Plans for 2011-2012. New samples from Long Island, NY, will be analyzed for species characterization and as part of ongoing population genetics and phylogenetic studies. Newly designed diagnostic primers will be validated. The results obtained to date will be synthesized and reported in two technical papers, a population genetics paper, and a phylogenetic revision of P. irregulare sensu lato. Abstracts will be submitted to the 2012 Annual Meeting of the American Phytopathological Society.

Project activities have been monitored by the ADODR via e-mail communications and telephone conversations with project principal investigator and project collaborator.

Last Modified: 4/17/2014
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