Abstract
Knowledge of efficiency of pollinators is valuable in the derivation of (i) the degree of mutualism specialization of a flower visitor in the natural plant communities, (ii) the optimum number of pollinators needed for the maximum pollination in a plant population, and (iii) the pollinator risk assessment in the sustainable agriculture. Earlier researchers used many direct and indirect methods for measuring the pollination efficiency (PE) of flower visitors. However, a great ambiguity exists in the usage of this terminology that necessitated its fresh scrutiny. I tested the available three standard methods afresh to find the efficiency of pollinators. These included comparing the (i) number of pollen grains removed and deposited by the visitors; (ii) seed set resulting from a single and the multiple visits of the visitors; and (iii) “pollen transfer efficiency (PTE)” derived from the foraging behavior and abundances of the visitors. Observations were recorded on the visitors of four plant species in an agroecosystem of Northwest India. These plants represented a wide variety of the floral types across the angiosperms. The first two methods, namely, the “number of pollen grains removed and deposited” and the “seed set resulting from a single and the multiple visits,” were appropriate in finding differences between the efficiency ranks of the pollinators of those flowers where the number of deposited pollen grains was less than the number of ovules in the ovary. However, these two methods completely failed in situations where exactly reverse condition of pollen grains and ovules existed. Thus, these two methods of measuring the PE of visitors had limited approach and lacked a universal application over the entire angiosperm taxa. On the other hand, use of “pollen transfer efficiency”, derived from the foraging behavior and abundance of the visitors, seemed to have an edge over the other two methods as this was helpful in finding differences between the efficiency ranks of the pollinators of plants in all the three situations tested in this study. However, validation of all the three methods through the plant reproductive potential seemed to be an integral confirmatory step for drawing inferences about the efficiency of pollinators.
Highlights
Pollinator-plant relationship has been the subject of great interest to many pollination biologists
On the basis of number of pollen grains removed by the flower visitors and deposited on the stigmas of four plants of this study, the pollinators could be clearly ranked for their efficiency (Tables 1 and 2), as the differences among the pollinators for these two parameters were significant (ANOVA followed by least significance difference’ (LSD); p
The efficiency ranks of pollinators of alfalfa were A. dorsata > A. mellifera > C. rubripes > M. nana > C. cephalotes; of toria were A. dorsata > A. mellifera > Andrena ilerda > A. florea >
Summary
Pollinator-plant relationship has been the subject of great interest to many pollination biologists. A perfect relationship is witnessed when both components exhibit interdependence ( benefitted); the latter may be obligatory (mutualism) or facultative (protocooperation). The plant offers the floral reward to the pollinator and, in return, tries to take the benefit of pollination of its flowers by the pollinator. The real problem arises when the pollinator takes the benefit of floral reward but does not return equal benefit to the plant in terms of its reproductive success. Under such a situation, the major concern of the pollination biologists has been the measurement of degree of interdependence of the two components of this system [2,3,4].
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