Early genetic testing of coastal Douglas-fir for Swiss needle cast tolerance.
Authors:
Temel, F. Johnson, G.R. Adams, W.T. USDA, FS
Source:
Canadian journal of forest research. 2005 Mar., v. 35, no. 3, p. 521-529.
NALT Subjects:
Pseudotsuga menziesii forest trees Pleosporales plant pathogenic fungi fungal diseases of plants tree diseases disease resistance genetic resistance genotype genetic variation seedlings early selection germplasm screening disease detection DNA resistance mechanisms genetic improvement tree breeding forest genetics Oregon
Other Subjects:
symptoms Phaeocryptopus gaeumannii resistance to infection
Issue Date:
Mar-2005
Abstract:
The possibility of early testing coastal Douglas-fir (Pseudotsuga menziesii var. menziesii (Mirb.) Franco) for Swiss needle cast (SNC; caused by Phaeocryptopus gaeumannii (Rohde) Petrak) tolerance was investigated using 55 Douglas-fir families from western Oregon. Seedlings were inoculated with P. gaeumannii naturally in the field and were visually scored for a variety of SNC symptom traits (i.e., needle and foliage color, and retention) at the seedling stage (age 2) and in "mature" (ages 10 and 12) trees at two test sites for both the seedling and mature ages. Seedlings were also assessed in the laboratory for SNC symptom traits, for proportion of needle stomata occluded with pseudothecia (PSOP), and for amount of P. gaeumannii DNA in needles. Although families differed significantly at both ages for all SNC symptom traits and for PSOP, they did not differ for amount of fungal DNA. Thus, genetic variation in SNC symptoms appears to be primarily due to differences in tolerance to the disease rather than to resistance to infection per se. Estimated individual-tree heritabilities for SNC symptom traits were low to moderate (mean h(i)2 = 0.19, range 0.06-0.37) at both ages, and within each age-class these traits were moderately to strongly genetically correlated (mean r(A) = 0.69, range 0.42-0.95). Type B genetic correlations between SNC symptom traits in seedlings and mature trees ranged from 0 to 0.83 and were weakest for traits measured in the laboratory. Genetic gain estimates indicated that family selection for SNC tolerance (i.e., greener needles or greater foliage retention) at the seedling stage can be very effective in increasing tolerance in older trees.
