Abstract
Wild blueberry is a native plant managed as a crop in northeastern North America. Fruit drop in wild blueberry, Vaccinium angustifolium Aiton, was studied over 6 years (1996–1999, 2008 and 2011). Three hypotheses were tested regarding fruit drop mechanisms from plants (clones) sampled in the field: (1) proportional fruit drop; (2) constant or uniform fruit drop; and (3) pollen or resource limitation. In addition, the temporal rate of fruit drop was measured between the end of pollination (petal fall) and fruit maturity just prior to harvest (2008 and 2011). The dynamics of fruit drop were different in the two years. The role of pollination intensity in fruit drop was also assessed. Evidence for both proportional fruit drop and resource limitation at the clone level was found but only proportional drop at the field level. Low levels of seed set are associated with fruit drop. In a four-year study (1996–1999), fruit drop ranged from 23.3 to 49.4% of the total set fruit. Partitioning the variance in fruit drop between years, fields and clones (plant genotypes) showed that the highest variation is between stems within clones (37.4%) and clones (plant genotype) within fields (35.4%), followed by between fields (19.8%) and between years (7.4%).
Highlights
Wild blueberry (Vaccinium angustifolium Aiton) is a native North American crop
An understanding of fruit drop in wild blueberry is important in making blueberry crop [28,29]
An understanding of fruit drop in wild blueberry is important in making decisions about pollination
Summary
Wild blueberry (Vaccinium angustifolium Aiton) is a native North American crop. It is grown commercially in Maine, New Hampshire, Massachusetts, Michigan and the Canadian Maritimes and Quebec [1]. The species is a natural understory plant in the forest [2]. The forest is harvested and the wild blueberry plants that were in the understory are managed with herbicides or fire pruning to reduce interspecific plant competition [3]. Fruit set is an indicator of potential yield because it integrates bee species densities and genotypic pollen compatibility throughout the field
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