Selective Media for Practical Isolations of Pythium spp. From Natural and Agricultural Environments
Tojo M*
Graduate School of Life and Environmental Sciences, Osaka Prefecture University, Japan
Submission: June 09, 2017; Published: June 16, 2017
*Corresponding author: Tojo M, Graduate School of Life and Environmental Sciences, Osaka Prefecture University, Sakai, Osaka 599-8531, Japan, Email: tojo@plant.osakafu-u.ac.jp
How to cite this article:Tojo M.Selective Media for Practical Isolations of Pythium spp. From Natural and Agricultural Environments. Agri Res & Tech: Open Access J. 2017; 7(5): 555723. DOI:10.19080/ARTOAJ.2017.07.555723
Abstract
Two new Pythium selective media without using PCNB and pimaricin are developed. Their practical uses are introduced on isolation of the organs from natural and agricultural environments.
Introduction
Pythium spp. are distributed in wide range of environments in natural and agricultural sites [1]. Selective media is an effective and economic tool for quantitative and qualitative isolations of Pythium spp. from plant tissues, soil and water. PARP medium has been the most commonly used for isolation of Pythium spp. from soil [2]. The fungicide PCNB is an important component of this medium, but the commercial products are unavailable since hexachlorobenzene (HCB), which has carcinogenic activity, is present as an impurity in PCNB [3]. Moreover, pimaricin, which is also a necessary component of PARP is not commercially available in several countries including Japan due to the food sanitation law. Therefore efficient alternatives in Pythium selective media without using PCNB and pimaricin have been demanded. We previously modified PARP by replacing PCNB in the medium with fluazinam or miconazole, and nystatin with pimaricin [4]. The new media are NARF (nystatin+ampiciHin+rifampicin+fluazinam) and NARM (nystatin+ampicillin+rifampicin+miconazole). NARF and NARMare comparable with PARP on yield of naturally occurring Pythium species from soil using the soil-dilution plating technique [4]. Since development of NARF and NARM, they were successfully used for isolations of Pythium spp. from many locations of natural and agricultural environments [5-7]. This review introduces practical techniques for isolation of Pythium spp. from natural and agricultural environments by using these new selective media.
Media recipe
Basal medium of NARF and NARM
17g of CMA (Becton Dickinson and Company, Franklin Lakes, NJ,USA)
5g of agar (Wako Pure Chemical Industries, Osaka, Japan) for isolation from plant tissue, or 23g of the agar for using soil- dilution plating
Antibiotics for NARF
50mg a.i. nystatin (Sigma-Aldrich, St. Louis, MO, USA) dissolved in 1ml ethanol
250mg a.i. ampicillin (Sigma-Aldrich) dissolved in 1ml DW
10mg a.i. rifampicin (Sigma-Aldrich) dissolved in 1ml DMSO
0.5mg a.i. of fluazinam (Froncide Wettable Powder®, Nippon Soda, Tokyo, Japan) dissolved in 1ml of 0.1% sterile water agar
Antibiotics for NARM
10mg/L a.i. nystatin (Sigma-Aldrich, St. Louis, MO, USA) dissolved in 1ml ethanol
250mg/L a.i. ampicillin (Sigma-Aldrich) dissolved in 1ml DW
10mg/L a.i. rifampicin (Sigma-Aldrich) dissolved in 1ml DMSO
1mg/L a.i. miconazole (Sigma-Aldrich) dissolved in 1ml DMSO
Each antibiotics was added to the basal medium after autoclaving and cooling to 50 °C, mixed thoroughly with a magnetic stirrer, and 10ml of medium was poured into 9cm diameter petri plates. If pimaricin is available, 5mg/L a.i. pimaricin can be alternative to nystatin of NARF and NARM.
ISOLATION FROM PLANT TISSUES
Sections of diseased tissue are washed in tap water, air-dry, and incubate on NARF or NARM usually at 25 °C in darkness.Pythiummycelia that grew on the agar are transferred to CMA or water agar. A Van Tieghem cell method [8] is useful for purifying Pythium from bacterial contamination.
Soil-dilution plating
Approximately one kg of soil corrected from natural and agricultural environments is passed through a 4mm sieve to remove large stones and debris. The 50g of soil is placed in a 500ml flask containing 250ml of autoclaved 0.35% agar The flask is shaken at 200rpm on a rotary shaker. From each soil dilution flask, a 10ml soil suspension is dispensed into a 500ml Erlenmeyer flask containing 490ml of sterile agar and shaken by hand. A 1ml aliquot of that soil dilution is plated onto each of 10 plates, and a bent glass rod is used to spread the aliquot over the plate. The plates are incubated for 24h in the dark at 25 °C. Following the incubation period, the surface of each plate is gently washed under a stream of water to remove the soil. The plates are further incubated for 24hrs and numbers of colonies of Pythium spp. are counted. Colonies of Pythium species can be distinguished by colony characteristics such as a fast growing rate, no cross walls in the young mycelium, and wide, highly branched hyphae. Colonies believed to be Pythium species are subcultured on CMA and confirm as Pythium by microscopic observation of the colonies. The density of Pythium spp. is expressed as the number of colonies per g of dry soil.
Advantages and disadvantages
NARM is better or equivalent to PARP on Pythium growth and inhibition of non-pythiaceous microbes except for Fusarium spp. NARM is equivalent to PARP and is significantly better than NARF in having faster growth rates for isolates of Pythium (Figure 1).
Toxicity and cost
Both fluazinam [10] and miconazole [11] have low toxicity to humans and the environments. Fluazinam is available as a common commercial fungicide and the cost for the 0.5mg needed to prepare 1 liter of NARF is minimal (<$0.01). Miconazole is available from Sigma-Aldrich at a cost of $0.04 for the 1mg needed to prepare 1 liter of NARM. Including costs for the basal medium, the both media require less than $10 to prepare 1 liter. For their practical uses, CMA (Becton Dickinson and Company) can cost lessly be alternate media such as a handmade cornmeal agar (HCMA) and V8 juice agar (V8JA). Our preliminary results demonstrated that NARF and NARM prepared with HCMA or V8JA are better to them prepared with the commercial CMA on Pythium hyphal growth.
Acknowledgement
This work was partially supported from the JSPS grant-in-aid for scientific research (No. 15K00626), and Geol Cosmetic Co. Ltd.
Selective media for practical isolations of Pythium spp. from natural and agricultural environments.
References
- van der Plaats-Niterink AJ (1981) Monograph of the genus Pythium. Stud Mycol 21: 1-242.
- Jeffers SN, Martin SB (1986) Comparison of two media selective for Phytophthora and Pythium species. Plant Dis 70(11): 1038-1043.
- Choudhury H, Coleman J, Mink FL, De Rosa CT, Stara JF (1987) Health and environmental effects profile for pentachloronitrobenzene. Toxicol Industrial Health 3(1): 5-69.
- Morita Y, Tojo M (2007) Modifications of PARP medium using fluazinam, miconazole, and nystatin for detection of Pythium spp. in soil. Plant Dis 91(12): 1591-1599.
- Tojo M, Van West P, Hoshino T, Kida K, Fujii H, et al. (2012) Pythium polare, a new heterothallic Oomycete causing brown discoloration of Sanionia uncinata in the Arctic and Antarctic. Fungal Biol 116(7): 756768.
- Bouket AC, Arzanlou M, Tojo M, Babai-Ahari A (2015) Pythium kandovanense sp. nov., a fungus-like eukaryotic microorganism (Stramenopila, Pythiales) isolated from snow covered ryegrass leaves. Int J Syst Evol Microbiol 65(8): 2500-2506.
- Ueta S, Tojo M (2016) Pythium barbulae sp. nov. isolated from the moss, Barbula unguiculata; morphology, molecular phylogeny and pathogenicity. Mycoscience 57(1): 1-19.
- Erwin DC, Ribeiro OK (1996) Phytophthora Diseases Worldwide. APS Press Am Phytopathol Soc, St. Paul USA, pp. 10-11.
- Takehara T, Kuniyasu K, Mori M, Hagiwara H (2003) Use of a nitrate- nonutilizing mutant and selective media to examine population dynamics of Fusarium oxysporum f. sp. spinaciae in soil. Phytopathology 93(9): 1173-1181.
- Holligworth RM (2001) Inhibitors and un couplers of mitochondrial
- Schonwald S, Leviton IM (2004) Antifungal drugs. In: Medical oxidative phosphorylation. In: Handbook of Pesticide Toxicology. (2nd Toxicology. (3ri edn), Lippincott Williams & Wilkins, Philadelphia, pp. edn), Academic Press, New York, USA, pp. 1169-1262.