AI Article Synopsis
- Primary nectar-robbers create multiple holes in flowers, bypassing reproductive organs, which raises questions about why robbed flowers continue to attract foragers despite signaling low nectar availability.
- Three hypotheses were tested regarding this behavior, with findings showing that multiple holes appeared in flowers even before all had been robbed, and that foragers return to previously robbed flowers days later.
- The study concluded that older flowers provide more nectar value than younger ones, explaining why bees prefer to rob older, previously damaged flowers, thus revealing patterns in nectar-robbing activity.
Article Abstract
Primary nectar-robbers feed through holes they make in flowers, often bypassing the plant's reproductive organs in the process. In many robbed plants, multiple holes are made in a single flower. Why a flower should be robbed repeatedly is difficult to understand: a hole signals that a nectar forager has already fed, which would seem likely to predict low rewards. We tested three explanations for this pattern in (Fumariaceae), a bumble bee pollinated and robbed plant: (1) multiple holes appear only after all flowers have been robbed once; (2) individual foragers make multiple holes during single visits; and (3) it is more profitable for bees to rob older flowers, even if they have already been robbed. We tested these hypotheses from 2014 to 2016 in a Colorado, USA population using data on robbing rates over time, floral longevity, nectar accumulation in visited and unvisited flowers, and the accumulation of robbing holes across the life of flowers. Multiple holes were already appearing when two-thirds of flowers still lacked a single hole, allowing us to reject the first hypothesis. The second hypothesis cannot offer a full explanation for multiple robbing holes because 35% of additional holes appeared in flowers one or more days after the first hole was made. Repeated sampling of bagged and exposed inflorescences revealed that flowers filled at a constant rate and refilled completely after being drained. Consequently, young flowers are of consistently low value to foragers compared to older flowers even if they had previously been robbed, consistent with the third hypothesis. While further studies are needed, these results offer a simple explanation for the paradoxical clustering of nectar-robbing damage in this and possibly other plant species.
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|---|---|
| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC11396959 | PMC |
| http://dx.doi.org/10.3390/plants13172507 | DOI Listing |
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