Production of greenhouse tomatoes ( Lycopersicon esculentum ) using Nannotrigona perilampoides , Bombus impatiens and mechanical vibration (Hym.: Apoidea)

Importation of exotic bumblebees for greenhouse pollination may be restricted in México, thus making it necessary to evaluate the potential of native species as pollinators in enclosures. We studied the foraging activity and fruit production of tomato using one colony of Nannotrigona perilampoides (NP) and one colony of Bombus impatiens (BI) in greenhouses with ≈1000 plants. Mechanical vibration (MV) was included as a test treatment. The foraging activity was measured as the number of flowers visited within 5 min, the time spent on a flower collecting pollen, the number of visits that a flower received and the duration of a foraging trip. BI collected pollen more rapidly, visited more flowers within 5 min and did more visits per flower when compared with NP that also lasted longer in their trips. Significant correlations were found between environmental variables and the number of bees entering the hive and the number of bees on the flowers . For NP , the highest correlation was found for light intensity whilst in BI a negative effect of environmental temperature was detected. Regarding the quantity of fruit, BI resulted in higher fruit set when compared with NP, but the latter performed similarly to MV. However, the weight of the fruit and seed number was significantly higher for BI when compared with NP, and this was higher than for MV. Our results demonstrate that at the densities of tomato plants tested, one colony of BI was more efficient pollinator when compared with NP. We suggest that pollination efficiency of NP could have been limited by a reduced number of foragers on the plants at a given time and their limited flight range when compared with BI. Therefore, it will be necessary to evaluate if increasing densities of colonies of NP could improve tomato yield in tropical greenhouses.