PLANT CULTURE (Greenhouse/Growth Chamber) Container . . . . . . . . Seedling flats subdivided into compartments, with bottom drainage holes; flats are placed in a water reservoir (a flat without holes). Watertight tubs with drain holes that can be plugged/unplugged to allow drainage may also be used. Media . . . . . . . . . . . Autoclaved sand, porous soil mix, or vermiculite. Temp/Light. . . . . . . 20 to 24 C; 12 to 16 hour day length No. of plants . . . . . . 50 to 70 per replication No. of Reps . . . . . . . 4 minimum INOCULUM SOURCE Standard Isolates . . MF-1 (Race 1) NC-1 (Race 2) Storage. . . . . . . . . . Oatmeal or corn meal agar
Age of Plant. . . . . . .5 to 6 days (when cotyledons are fully expanded) Type of Inoc. . . . . . .Zoospore suspension or comminuted mycelium
Method . . . . . . . . . .Add water to the surrounding reservoir to saturate the entire root zone, then drench inoculum over the seedlings into the upper root zone |
INCUBATION
RATING Percent resistant plants is the total of classes of 1 and 2.
CHECK CULTIVARS
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DISTRIBUTION AND SEVERITY OF APHANOMYCES ROOT ROT
![]() A. euteiches, has been reported throughout North America, Europe, Australia, and New Zealand. The distribution of alfalfa strains per se has not been exhaustively studied. However, race 1 alfalfa strains have been detected in Idaho, Illinois, Indiana, Iowa, Kentucky, Maryland, Michigan, Minnesota, Mississippi, Nevada, New York North Carolina, Ohio, Oklahoma, Pennsylvania, Tennessee, Virginia, Wisconsin, and Ontario and Quebec, Canada. Race 2 alfalfa strains have been confirmed in Idaho, Maryland, Minnesota, North Carolina, Iowa, Tennessee, Virginia and Wisconsin (2). Aphanomyces can cause severe stunting and death of seedlings, and can cause a chronic disease of lateral roots of established plants. It frequently is recovered from fields where Phytophthora root rot and Pythium damping off are found. A. euteiches and Phytophthora medicaginis may cause a root disease complex. Aphanomyces root rot is favored by warm, saturated soil conditions. SOURCE OF INOCULUM AND SCIENTIST WITH EXPERTISE
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CORRELATION TO FIELD REACTION There is a good correlation between results of this test and visual root scores, plant vigor and forage yield in naturally infested fields (4). RACES There are two recognized races of A. euteiches. Isolates are known which may belong to additional races, as yet not defined. PLANT GROWTH OPTIONS AND RANGE OF CONDITIONS Controlled environmental conditions (20 to 24 C) are optimum for separation of resistant and susceptible reactions. However, warmer conditions (28 to 32 C) are more favorable for pathogen activity, and will give a more severe test. A more qualitative (dead or alive) reaction occurs at temperatures equal to, or greater than, 28 C. HELPFUL INFORMATION A. euteiches can be maintained on agar, but requires frequent subculturing every 2-4 months. Isolates commonly lose aggressiveness after about 1 year in culture, therefore, isolates recently recovered from alfalfa seedlings should be used. Use actively growing cultures for zoospore production, as zoospore production declines for mycelial mats older than 5 days of age. Agitation will induce zoospores to encyst to a non-motile stage allowing an accurate enumeration with a hemacytometer. Seedlings in classes 1 and 2 are considered resistant, however, self-pollinated class 3 plants frequently produce resistant progeny (3). ALTERNATIVE METHODS The seedlings assay using zoospores is the most effective and preferred method for characterizing alfalfa populations for reaction to Aphanomyces root rot. Older plants (6 to 12 weeks old) may be used to screen alfalfa for reaction to A. euteiches under controlled conditions. However the chronic root symptoms that develop are difficult to characterize into severity classes. Four to six week old plants can be inoculated with A. euteiches and then clipped back, and the amount and rate of foliage regrowth can be used to score plants for their reaction to the pathogen. REFERENCES 1.Grau, C. R. 1992. Registration of WAPH-1 alfalfa germplasm with resistance to Aphanomyces root rot. Crop Science 32:287-288 2.Grau, C. R., A. M. Muehlchen, J.E. Tofte, and J. E. Smith. 1991. Variability in virulence of Aphanomyces euteiches. Plant Disease 75:1153-1156. 3.Mitchell, J. E., and C.Y. Yang. 1966. Factors affecting growth and development of Aphanomyces euteiches. Phytopathology 56:917-922. 4.Wiersma, D. W., C. R. Grau, and D. J. Undersander. 1995. Alfalfa cultivar performance with differing levels of resistance to Phytophthora and Aphanomyces root rots. Journal of Production Agriculture 8:259-264. |