Abstract
In contrast to most other plant tissues, fleshy fruits are meant to be eaten in order to facilitate seed dispersal. Although fleshy fruits attract consumers, they may also contain toxic secondary metabolites. However, studies that link the effect of fruit toxins with seed dispersal and predation are scarce. Glucosinolates (GLSs) are a family of bitter-tasting compounds. The fleshy fruit pulp of Ochradenus baccatus was previously found to harbor high concentrations of GLSs, whereas the myrosinase enzyme, which breaks down GLSs to produce foul tasting chemicals, was found only in the seeds. Here we show the differential behavioral and physiological responses of three rodent species to high dose (80%) Ochradenus’ fruits diets. Acomys russatus, a predator of Ochradenus’ seeds, was the least sensitive to the taste of the fruit and the only rodent to exhibit taste-related physiological adaptations to deal with the fruits’ toxins. In contrast, Acomys cahirinus, an Ochradenus seed disperser, was more sensitive to a diet containing the hydrolyzed products of the GLSs. A third rodent (Mus musculus) was deterred from Ochradenus fruits consumption by the GLSs and their hydrolyzed products. We were able to alter M. musculus avoidance of whole fruit consumption by soaking Ochradenus fruits in a water solution containing 1% adenosine monophosphate, which blocks the bitter taste receptor in mice. The observed differential responses of these three rodent species may be due to evolutionary pressures that have enhanced or reduced their sensitivity to the taste of GLSs.
Highlights
Fleshy fruits are commonly used by plants to facilitate seed dispersal by animals
The bitter taste of the fruits that originate from GLSs in the pulp appears to be the cause of M. musculus’ fruit avoidance, as we were able to alter M. musculus behavior by using adenosine monophosphate (AMP)
Even though M. musculus was first exposed to the natural fruits and only later to the AMP treated fruits, there was no evidence of learning effect as it consumed significantly more AMP treated fruits
Summary
Fleshy fruits are commonly used by plants to facilitate seed dispersal by animals. As there are seed predators, the nature of plant-animal interactions is dependent on the consumers’ fruit eating behavior. Fruits are intended to facilitate seed dispersal, the ripe fruits of many plants contain secondary metabolites in toxic concentrations [1,8,9,10,11]. At least seven adaptive hypotheses have been proposed for the existence of toxins in fruit [10,13]. The majority of these hypotheses assume that toxins have an effect, either negative or positive, on fruit consumers. The Gut Retention Time Hypothesis [10,13] assumes that fruit toxins alter gut passage rates of vertebrates, while the Directed
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