ABSTRACT
Calcium salts were applied during the growing season to fresh-fruit cranberry beds to test their effects on cranberry fruit rot incidence and the incidence of specific fungi isolated from rotten and sound cranberry fruit at the time of harvest and after storage. Calcium salts did not affect fruit rot incidence, nor did they affect the recovery of specific fungi from berries. The field treatments did not result in higher calcium content in mature berries, nor did they affect the force required to penetrate the berry epidermis. Calcium propionate inhibited growth in vitro of Allantophomopsis cytisporea, A. lycopodina, Coleophoma empetri, Fusicoccum putrefaciens, and Physalospora vaccinii. Calcium chloride and calcium nitrate inhibited growth of Coleophoma empetri and Fusicoccum putrefaciens, but these salts enhanced growth of Physalospora vaccinii. P. vaccinii was the fungus most frequently isolated from rotten berries at the time of harvest. The fungi most frequently isolated from rotten berries after several weeks in storage varied among sites. P. vaccinii, which was common in sound fruit at harvest, persisted in sound fruit in storage but was also isolated frequently from rotten berries after storage. A. lycopodina and F. putrefaciens, which were isolated infrequently from sound berries at the time of harvest, were isolated frequently from rotten berries after storage. In two of four trials, no fungi were isolated from a large proportion of fruit that decayed in storage.