Abstract
ABSTRACT Pseudosclerotia were evaluated for differences in timing of apothecium development in four controlled experiments conducted over a 2-year period. In a separate experiment, conidia from 10 randomly selected isolates from both of the fungal populations were used to inoculate open flowers. Germination of pseudosclerotia produced from these artificial inoculations also was evaluated. The timing and rate of shoot elongation for cvs. Weymouth and Jersey were assessed in one greenhouse and two field experiments. Average development times for the fungal population from cv. Weymouth were 8 to 15 days earlier or 33 to 42% less than those for the population from cv. Jersey. The fungal population from Weymouth also exhibited less variation in development times for each developmental stage measured. Similarly, germination of pseudosclerotia produced in artificial inoculations differed between populations. On average, pseudosclerotia derived from the Weymouth population produced apothecia 16 days earlier. During spring 1995 and 1996, vegetative and truss buds on cv. Weymouth developed 4 to 16 days earlier than those on cv. Jersey. These results demonstrate that M. vaccinii-corymbosi exhibits variation in timing of pseudosclerotia germination and apothecium development within and between populations. We hypothesize that differences observed in the timing of apothecium development are related to the fitness of the populations on their original host cultivars and were selected by host phenology.
Highlights
The disease is initiated during the spring when pseudosclerotia, the overwintering structure of M. vaccinii-corymbosi, germinate and produce apothecia from which ascospores are discharged
Pseudosclerotial density was one to five per bush. Pseudosclerotia collected from these populations were used in a greenhouse to evaluate the phenological and morphological development of M. vaccinii-corymbosi
The proportion of pseudosclerotia that germinated was similar across all experiments (0.5 to 0.6) and did not differ for fungal populations (P = 0.54)
Summary
These results demonstrate that M. vaccinii-corymbosi exhibits variation in timing of pseudosclerotia germination and apothecium development within and between populations. The tip of the stipe forms an urnulate disk with a distinct inrolled margin This goblet-like structure continues to expand and develops into mature apothecium and ascospores [3]. Wind-blown ascospores infect breaking buds and young elongating shoots of blueberry hosts (Vaccinium spp.) [21,22] Conidia produced from these primary infections are carried to the styles, where conidia germinate and infect the ovary [17]. Infected flowers become ramified with fungal tissue and form a mummified fruit (pseudosclerotium) Resistance to both the primary and secondary phases of the disease has been identified [11,18,20,23,24]; results of germplasm surveys vary across environments [20,23]. Disease avoidance may provide a significant portion of resistance to the mummy berry pathogen in blueberries
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