Polygyny and Mongyny in Melipona bicolor (Apidae, Meliponini):from colective to individual

Cap. 2 In order to detect possible differences in the efficiency of the Provisioning and Oviposition Process (POP), we compared a monogynous from a polygynous colony of Melipona bicolor. At the beginning of observations, the polygynous colony had three laying queens, but one of these ceased to lay when observations where just at the middle. We then decided to split in two the database of the polygynous colony depending on the number of queens laying, being these three or two. ¶ We observed great differences between monogynous and polygynous conditions. In the polygynous colony, our investigation permitted us to perceive the strong competition between queens for laying. In this type of colony, queens were in a “rush" for laying their eggs. As a consequence, POP were very short and this diminished the number of trophic eggs laid. The queen of the monogynous colony consumed many more trophic eggs and in order to achieve this, she would increase the duration of the POP, specifically, the post-provisioning phase. In the polygynous colony, the number of workers, both dischargers and sealers were also greater than in the monogynous colony. This fact could be reflecting a more efficient process in polygynous conditions: more workers are attracted and complete the process in less time. However, again we may perceive the competition between the queens of this colony. The queens stimulated POP in cells that were still not ready, increasing the difficulty for its sealing by the workers. The total outcome of the combination of all these facts is that there is significant major production of queen eggs in the polygynous colony, although the number of eggs laid by each queen is smaller. We also detected a type of dominance reflected on the time queens spent laying their eggs. Cap. 3 There are hypotheses on which could be the necessary conditions that lead to stable multiple queen associations. Some hypothesis state mechanisms such as “staying incentives" for subordinated queens, and may be relevant for discussing the reversal process witnessed in a polygynous colony of Melipona bicolor that shifted to a monogynous condition. In a polygynous colony, three queens were similar in various aspects. Egg laying or consumption of trophic eggs, presented no differences or discriminations and each queen had an equal chance to lay or eat. The queens were of the same age, so it could be expected that they would have a similar performance in egg laying. However, a clear reproductive skew developed. It was also clear that the duration of the provisioning and oviposition process (POP), revealed differences in the pace-marking for the queens principally when alone. ¶ The present paper describes the possible relations between egg laying rate and nutritional factors. We discuss the possible existence of a queen pheromone, regulating the sealing behavior of the workers. Furthermore, workers might play a role in the contest for reproduction among multiple queens. In combination, these factors give rise to increasing differences among the queens resulting in egg laying cessation and disappearance of two of the queens from the comb. Cap. 4 When we followed individual workers of Melipona bicolor in monogynic and polygynic colonies, we found that there are great variations between the behaviors of each bee. Individuals that had laid some type of egg seemed to be the most interested in the provisioning and oviposition process (POP). Therefore, we then analyzed the population dividing them into layers and non layers. We proved that workers that lay trophic eggs contribute effectively to the POP, but reproductive workers, in spite of being so few, achieve such high levels of activity that it seems they exclude the non-laying bees from the process. We also found “special" individuals with an extraordinary participation in one or more of the basic behaviors of the POP, but these also seem to be motivated by the same drive of laying some type of egg. However, we also found differences between the monogynous and polygynous colonies, but these differences were difficult to analyze due to the filming moments for each colony. The general patterns found for both monogynous and polygynous colonies are very important because they demonstrate that the fact of laying an egg provokes quantitative differences in the behaviors, producing from “lazy" individuals up to those “hyperactive". Ovary development is then thought to be the internal proximal cause producing the diverse response thresholds that in a cascade effect, produces an auto-reinforcement when repeatedly performed the task, that at the same time affects the performance of others. The observation on the differences presented by layers and non layers, represents a strudy base to continue exploring the proximal causes for behavioral differentiation. Cap.5 Studies on division of labor have demonstrated that despite being an important factor, etharism alone would impose rigidity to societies and thus, would make them less efficient probably leading them to extinction. Plasticity of behavior is then recognized as essential being expressed as individual differentiation among genetically similar sisters. Furthermore, task specialization of some individuals leads to a better performance of the colony as a whole. In this chapter we give evidence for specialization in the provisioning and oviposition process: a task such as the first discharge of food in Melipona bicolor, is carried out mainly by few, specialized individuals that exhibit a particular behavioral repertory. Cap. 6 Caste determination is a complex topic that has received much attention but remains elusive, leaving many questions to be solved. However, there are some facts that have been comprehended. It is recognized the influence of external factors such as the amount and/or the quality of the food ingested by the larvae, interacting with hormones and genes. Since the workers administrate the larval food, caste determination is socially controlled. Could it happen that among the nurse bees there are individuals that would prefer to raise sister queens than sister workers? To answer this question, it would be necessary to establish the presence or absence of glandular secretions of high nutritional value in the larval food, together with techniques to follow and assess the food dischargers. Through video recordings made on the Provisioning and Oviposition Process (POP) in Melipona bicolor, we recognized two types of food discharges: the first fluid and shiny and another discharge dense and opaque. From each cell filmed we compiled its historical plus the caste in formation. We did not find any relation between the resulting caste and the number of solid or liquid discharges it had received. We discuss why our method may not be an accurate technique to study this difficult and complex topic, but may support future investigations. Cap. 7 Ovary development in social insects has been found to be correlated with dominance relationships, levels of activity and production of juvenile hormone. In the follicular epithelium of ovaries, juvenile hormone stimulates the absorption of nutrients; however, oogenesis is a nutrient limited process. The above roughly summarizes the interrelated causes and effects involved in the reproduction of an individual. One of the biggest differences between Apis bees and stingless bees, is that in queenright conditions, stingless bee workers develop their ovaries retaining their capacity to lay eggs (although most are of a trophic nature). Ovary development is common among young bees attending the provisioning and oviposition process (POP). The several tasks that are involved in the POP are carried on with different levels of intensity by the individuals participating in the process. As we demonstrated in the previous chapter, the individuals that are egg layers are most involved in the POP contributing efficiently to the process. Dissections revealed that there is a significant correlation between the area of the ovaries and the levels of activity presented by the workers of a monogynouos colony of Melipona bicolor. Since nutritional factors also play an important role, our method of correlating the final weight of the bees with activity, proved to be adequate to indirectly test the influence of food in oogenesis. In this chapter we discuss the meaning of retaining the capacity to produce eggs in an evolutionary scenario related to division of labor in eusocial insects. (AU)