Rescue of Stingless bee (Hymenoptera: Apidae: Meliponini) nests: an important form of mitigating impacts caused by deforestation

As stingless bees are important pollinators of wild and cultivated plants, their preservation is of vital importance to sustain the global ecosystem and to safeguard human food resources. The construction of large dams for the production of energy involves the removal of wide extents of riparian vegetation, where many species of bees, especially Meliponini, build their nests. The rescue of bee colonies is essential, not only in the conservation of pollinators, but also in the use of these colonies in meliponiculture and biological research. The aim of this work was to describe the procedures used in the rescue of stingless bee colonies at the time of deforestation, prior to initiating construction of a large dam in the Madeira River (Amazon Basin, Brazil). With simple equipment and widely known methods of meliponiculture 287 stingless bee nests were rescued, of which 15.7% were reallocated and 26.5% perished. The remaining 57.8% recovered well and were donated to local stingless beekeepers. The rescue of Meliponini nests during deforestation, besides resulting in the conservation of numerous colonies of various species, also contributes to the generation of environmental and social benefits

Congregation sites and sleeping roost of male stingless bees (Hymenoptera: Apidae: Meliponini)

Very little is known about stingless bee reproductive biology or male behaviour. In \ud this note we provide the first observations on the male aggregations (congregation \ud sites and roosting sites) of some stingless bee species. Our observations show that \ud males of two stingless bee species can congregate on the same site. We also report \ud for the first time the substrates used by stingless bee males for resting at night, that \ud at least one species forms large sleeping roosts composed of hundreds of individuals, \ud and that sleeping roost locations are not reused on subsequent nights.The authors thank Dr. Silvia R. M. Pedro and Dr. Sidnei Mateus (Faculdade de Filosofia, Ciências e Letras de Ribeirão Preto, USP) for the identification of Plebeia droryana and and Polybia sp., respectively. Financial support received: CFS and AVN from the Coordenação de Aperfeiçoamento de Pessoal de Nível Superior (CAPES); CM from the Fundação de Amparo à Pesquisa do Estado de São Paulo (FAPESP, process 07–50218-1); VLIF from the PVNS scholarship from CAPES. The authors also thank the CAPES – PROAP 2010 program for field trip financial support for CFS. Authors gratefully acknowledge Rodolfo R. Jaffé (BeeLab USP) for his critical reading of the manuscript and suggestion

The origin and evolution of queen and fertility signals in Corbiculate bees

Abstract\ud \ud Background\ud In social Hymenoptera (ants, bees and wasps), various chemical compounds present on the cuticle have been shown to act as fertility signals. In addition, specific queen-characteristic hydrocarbons have been implicated as sterility-inducing queen signals in ants, wasps and bumblebees. In Corbiculate bees, however, the chemical nature of queen-characteristic and fertility-linked compounds appears to be more diverse than in ants and wasps. Moreover, it remains unknown how queen signals evolved across this group and how they might have been co-opted from fertility signals in solitary ancestors.\ud \ud \ud Results\ud Here, we perform a phylogenetic analysis of fertility-linked compounds across 16 species of solitary and eusocial bee species, comprising both literature data as well as new primary data from a key solitary outgroup species, the oil-collecting bee Centris analis, and the highly eusocial stingless bee Scaptotrigona depilis. Our results demonstrate the presence of fertility-linked compounds belonging to 12 different chemical classes. In addition, we find that some classes of compounds (linear and branched alkanes, alkenes, esters and fatty acids) were already present as fertility-linked signals in the solitary ancestors of Corbiculate bees, while others appear to be specific to certain species.\ud \ud \ud Conclusion\ud Overall, our results suggest that queen signals in Corbiculate bees are likely derived from ancestral fertility-linked compounds present in solitary bees that lacked reproductive castes. These original fertility-linked cues or signals could have been produced either as a by-product of ovarian activation or could have served other communicative purposes, such as in mate recognition or the regulation of egg-laying.RCO and CAO were supported by scholarships from CNPq-Brazil (238127/2012-5\ud and 201959/2012-7). RCO was supported by FWO (international mobility\ud V406714N). TW was supported by FWO and the KU Leuven Centre of Excellence\ud PF/2010/007, DAA was supported by FAPESP (2010/19717-4) and PNPD-CAPES.\ud TW and FN were supported by CNPq-Brazil (402661/2012-5). Special thanks to\ud Jelle van Zweden for the valuable comments and insights and to Prof. Jocelyn\ud Millar for providing us the synthetic aldehyde standards and for helping with the\ud chemical compounds identification

Raw data queen execution

This datasheet provided the information for the Figure 2 of the manuscript, basically the only result presented. This table shows the queen execution (0 = no; 1 = yes) on colonies under different treatments (proportion of diploid males emerging on the brood). It also includes the queen that produced the diploid males, as well as the time in which the queen execution was observed. The survival rate that was used for the Figure 2 prodution is also presented for each group of treatment

Evolution of mating systems in stingless bees (Apidae, Meliponini)

O sistema de acasalamentos das abelhas sociais é intrigante. As rainhas acasalam durante uma curta janela de tempo nas fases inicias de suas vidas, armazenando o esperma pelo resto de suas vidas. Enquanto as rainhas das abelhas sem ferrão (Meliponini) e de mamangavas (Bombini) se acasalam com um ou poucos machos (monândricas), as rainhas de espécies representantes do gênero Apis (Apini) acasalam-se com vários machos (poliândricas). Diversas hipóteses têm sido propostas para compreender os benefícios do comportamento extremamente promíscuo das rainhas do gênero Apis. Porém, pouco foi feito para entender as igualmente intrigantes pressões seletivas que mantém a monandria em um grupo tão diverso quanto o das abelhas sem ferrão. No presente estudo, investigamos como as forças seletivas causadas pelas produção de machos diploides (uma consequência natural do sistema de determinação sexual em Hymenoptera) podem afetar o sistema de acasalamento da abelha sem ferrão brasileira, Scaptotrigona depilis. Em particular, rainhas que realizam um acasalamento pareado para o locus sexual (i.e., acasalam com um macho que possui o mesmo alelo sexual) terão o seu fitness reduzido porque elas serão executadas em colônias com 50% de machos diploides entre sua cria diploide. Acasalar-se com mais de um macho aumentam as chances de um acasalamento pareado, mas reduz a proporção de machos diploides na cria. Por meio da manipulação dos favos de cria de colônias experimentais, nós testamos se a mortalidade de rainhas com proporções menores de machos diploides na cria terão taxas de mortalidade similares à de rainhas em colônias com 0% ou 50% de machos diploides na cria. Para isso, obtivemos rainhas produzindo machos diploides nesta espécie e estudamos alguns detalhes de sua biologia, em particular, a viabilidade e morfologia de seus espermatozoides e comportamento fora de suas colônias (Capítulo 1). Nós verificamos se a rainha morre na presença de machos diploides, como este comportamento é predominante na população, e quais os possíveis mecanismos que desencadeiam este comportamento (Capítulo 2). Finalmente, verificamos se a mortalidade de rainhas em colônias com proporções menores de machos diploides na cria (simulando acasalamentos múltiplos) é mais próxima da mortalidade de rainhas em colônias com 0 ou 50% de machos diploides (Capítulo 3). Verificamos que os machos diploides de S. depilis são viáveis e juntam-se a agregados reprodutivos. Seus espermatozoides possuem a mesma viabilidade que os dos machos haploides, porém possuem a cabeça e a cauda maiores. As rainhas são mortas na presença de cerca de 50% de machos diploides na cria e esse comportamento é muito difundido na população estudada, com 100% de morte das rainhas (n=20). O perfil químico de hidrocarbonetos cuticulares dos machos diploides é quantitativamente diferente dos machos haploides, sugerindo que pode conter informações para que a rainha seja executada. No entanto, por meio da contagem de espermatozoides na espermateca de rainhas recém acasaladas e com um ano de idade foi possível observar que o esgotamento de espermatozoides pode afetar a expectativa de vida das rainhas. Isso sugere que o sinal para execução da rainha também pode estar associado a uma quantidade grande de machos emergindo, como um sinal de esgotamento de espermatozoides da rainha, ao invés da ploidia dos machos. Rainhas em colônias com cerca de 25% de machos diploides emergindo foram mortas em proporções semelhantes à de rainhas em colônias com 50% de machos diploides. Isso indica que esse comportamento causa uma pressão seletiva contra os acasalamentos duplos nessa espécie, pois ao acasalar duas vezes a rainha dobra as chances de realizar um acasalamento pareado e a mortalidade é igual à de rainhas que se acasalam uma única vez.The mating systems of social bees is intriguing. Queens mate within a narrow time window very early in their lives, storing male sperm for their entire lifespan. In bumblebees (Bombini) and stingless bees (Meliponini), queens usually mate with a single male (monandry), while the queens of Apis species (Apini) mate with several males (polyandry). Several hypothesis have been proposed to understand the benefits of the extreme polyandry of honey bees. However, very little have been done in order to understand the equally intriguing selective forces that make such a diverse group as stingless bees as monandrous. In the present study we investigate how the selective force imposed by the chances of producing diploid males (a natural consequence of sex determination system of Hymenoptera) can affect the mating system of the Brazilian stingless bee Scaptotrigona depilis. In particular, queens that make a matched mating for the sex locus (i.e., mating with a male with the same sex allele) will have reduced fitness because queens are executed when producing 50% of diploid males amongst her diploid offspring. Mating with more males increase the chances of a matched mating, but reduces the proportion of diploid males on their brood. By manipulating the brood combs of experimental colonies, we tested whether queens with smaller proportions of diploid males (25%) will have mortality rates similar to queens in colonies with 0% or 50% diploid males. For that, we obtained queens producing diploid males and studied details of diploid males biology, in particular their sperm viability and morphology, and their behaviour out of their mother colonies (Chapter 1). We verified how prevalent queen execution behaviour under diploid male production is on this species, and the possible proximate mechanisms that trigger this behaviour (Chapter 2). Finally, we verified whether queen mortality in colonies with lower proportion of diploid males (simulating multiple mating) is closer to colonies with 50% or 0% of diploid males (Chapter 3). We verified that diploid males of S. depilis are viable and can join reproductive aggregations. Their sperm cells have the same viability of haploid males, but have longer sperm head and tail cells. Queens are executed in the presence of 50% of diploid males, and this behaviour is very prevalent on the studied population, with 100% of queen death (n=20). The cuticular hydrocarbon chemical profile of diploid males is quantitatively different from haploid males, suggesting that workers could use it as a signal for queen execution. However, sperm count of newly mated queens and one-year-old queens showed that sperm depletion might affect queen lifespan. This suggests that the signal for queen execution could also be related to a high number of males emergence, as a signal of queen sperm depletion, instead of male ploidy. Queens mortality in colonies with 25% of diploid males was similar to queens in colonies with 50%. This indicates that double mating is selected against regarding this selective pressure, since mating twice will increase the chances of a matched mating and queen mortality will be the same as single mated queens

Thermal biology of Scaptotrigona depilis (Apidae, Meliponini): adaptations to deal with high temperatures

O grande sucesso ecológico dos insetos sociais se deve, em grande parte, ao controle das condições climáticas do ninho, entre as quais é possível destacar a temperatura como uma das variáveis mais importantes. Nas abelhas sem ferrão, um grupo de abelhas eussociais com cerca de 400 espécies distribuidas pela região Neotropical, apesar dos poucos estudos existentes é possível identificar uma grande variedade de estratégias para lidar com a heterogeneidade térmica do ambiente. Em comparação com Apis mellifera (o inseto social mais bem estudado no mundo), é possível verificar, de maneira geral, uma menor capacidade termorregulatória nas abelhas sem ferrão. Portanto, isto coloca as abelhas sem ferrão como importantes modelos que podem permitir a melhor compreensão da evolução da diversidade de estratégias de sucesso nos insetos sociais para lidar com a heterogeneidade térmica. Adicionalmente, as abelhas sem ferrão realizam a polinização, um serviço ambiental chave para a manutenção dos ecossistemas Neotropicais. Dessa forma é necessário conhecer as adaptações térmicas nestes organismos, principalmente as voltadas para as altas temperaturas, para que possam ajudar a prever os impactos das mudanças climáticas nestes organismos. Assim, o objetivo deste estudo foi investigar a capacidade e os mecanismos termorregulatórios em abelhas sem ferrão, bem como alguns aspectos da sensibilidade térmica sob condições de altas temperaturas, usando para isso a espécie Scaptotrigona depilis como organismo modelo. Verificamos que essas abelhas são capazes de resfriar o ninho e para isto, utilizam pelo menos dois mecanismos: a ventilação e a coleta de água para resfriamento evaporativo. Este último comportamento foi observado pela primeira vez em um contexto colonial e natural. Adicionalmente foi verificado que a umidade relativa do ar dentro dos ninhos varia consideravelmente menos que a umidade relativa do ar ambiente, muito provalvemente por conta das fontes de umidade (néctar e água) e do isolamento da cavidade de nidificação. Verificamos que a taxa de construção de células de cria sofre uma diminuição sutil com o aumento da temperatura ambiente e quase nenhuma influência da temperatura do ninho. Finalmente, verificamos que o tempo de desenvolvimento do estágio pupal até o adulto diminui conforme a temperatura de incubação aumenta. Da mesma forma acontece com a mortalidade, porém esta aumenta drasticamente após atingir uma temperatura limite. Demonstramos que existem adaptações claras para o resfriamento do ninho em S. depilis, contradizendo as hipóteses atuais de que a nidificação em cavidades termicamente isoladas seria a principal forma de manter a temperatura em níveis relativamente constantes, supostamente necessários para o crescimento e manutenção da colônia. Adicionalmente, sugerimos que a temperatura dos ninhos varia consideravelmente (mesmo com o isolamento das cavidades e com os mecanismos ativos de termorregulação), porém o desempenho das atividades das abelhas no ninho é regular dentro de uma ampla faixa de temperaturas, i.e., as abelhas sem ferrão devem suportar uma ampla variação de temperaturas.The great ecological success of the social insects is due, in large part, to their capacity of nest climate control, which it is possible to highlight the temperature as one of the most important variable. The stingless bees, a megadiverse group of eusocial bees with about 400 species on the Neotropical zone, show a great variety of strategies to deal with the thermal heterogeneity of the environment. Compared to Apis mellifera, (the social insect better studied in the world), it is possible to verify in general, that stingless bees have a low thermoregulatory capacity. Because of that different capacity and other biological features, stingless bees are excellent models to test hypothesis that focus on the evolution of diversity of strategies to deal with thermal heterogeneity in social insects and the consequent success in this group. Additionally, stingless bees are responsible for the pollination of an extensive number of vegetal species, which is a key environmental service to the maintenance of the tropical ecosystems. So, knowing their thermal adaptations, mainly the related to high temperatures, is indispensable in this moment, yet this knowledge will help to prevent the impact of global climate changes on this organisms. Thus, the aim of this study was to investigate the mechanisms and the thermoregulatory capacity in stingless bees, as well as some aspects of thermal sensibility under high temperature conditions, using the specie Scapotrigona depilis as model organism. We verified that the specie is capable of cool their nests and, for that, use at least two mechanisms: ventilation and water collection for evaporative cooling. This last behavior was observed for the first time in a colonial and natural context. Our results have shown that the air relative humidity inside the nests varies considerably less than the environmental air relative humidity, probably because of the humidity sources (nectar and water) and the nest cavity insulation. We also verified that the rate of brood production decrease with the increase of the environmental temperature and is slightly influenced by nest temperature. The developmental time of pupal stage to adult shows an inverse relationship with the rearing temperature. The same occurs with mortality, however it rises dramatically after reaching a temperature threshold. We demonstrated that there are adaptations for cooling the nest in S. depilis, contradicting the current hypothesis that the nesting behavior in thermal insulated cavity would be the main component on the maintenance of temperature in constant and stable levels, supposedly needed to the colony growth and maintenance. Additionally, we suggested that the nest temperature varies considerably (even with the cavity insulation and the actives mechanisms of thermoregulation), however the performance of their activities is regular within a wide range of temperatures, i.e., the stingless bees should support a extent variation of temperature

Leurotrigona muelleri, a pequena pérola entre as abelhas sem ferrão

As abelhas sem ferrão têm sido usadas com sucesso como material didático para educação ambiental e uma das menores abelhas do mundo tem se destacado nas nossas experiências. A Leurotrigona muelleri, conhecida popularmente como Lambe-olhos, constrói seu ninho com cera quase pura de cor amarelada clara e chama atenção pela delicadeza de suas células de cria que lembram pequenas pérolas. No presente trabalho apresentamos aspectos da arquitetura de ninho, biologia e manejo desta espécie com o objetivo de subsidiar o seu uso para a educação ambiental e estudos bioló[email protected]

A method for harvesting unfermented pollen from stingless bees (Hymenoptera, Apidae, Meliponini)

Pollen traps used for harvesting pollen from Apis mellifera do not work for stingless bees, as most species have small entrances and rapidly deposit large quantities of propolis at any barrier in front of the nest. Some stingless beekeepers harvest pollen by removing it directly from pollen pots, but this pollen is normally fermented and unpalatable. The aim of this study was to test a new method for harvesting pollen from stingless bee colonies before it begins to ferment. Colonies of Scaptotrigona depilis were removed and replaced by empty hives, which were occupied by the returning foragers and used for storing pollen and nectar. After one week, the pollen and honey were harvested directly from the storing pots and weighed. On average, the colonies produced 8.7 g of honey and 54.2 g of unfermented pollen (n = 10). This method is a viable option for harvesting unfermented pollen from stingless bees, especially with species that harvest large amounts of pollen. The unfermented pollen of S. depilis was well received in taste tests, receiving higher scores than fermented pollen, and similar scores to A. mellifera pollen, so could have great commercial possibilities. It is also a good method for studying the foraging of stingless bees because the amount of harvested food can be easily and precisely quantified.Fundacao de Amparo a Pesquisa do Estado de Sao Paulo (FAPESP)Fundacao de Amparo a Pesquisa do Estado de Sao Paulo (FAPESP) [proc. 07/50218-1, 04/15801-0

Intraspecific worker parasitism in the common wasp, Vespula vulgaris

© 2015 The Association for the Study of Animal Behaviour. Insect societies display a remarkable level of cooperation, but their colonies also represent a valuable resource that can be taken advantage of by genetically unrelated individuals. Indeed, several recent studies have documented cases of intraspecific reproductive parasitism, whereby workers penetrate and lay eggs in unrelated colonies in order to have their brood raised by the host workers. Previously, it has been predicted that queenless colonies should be a prime target of such intraspecific worker parasitism, as in such colonies the parasite workers would be able to reproduce without interference from either the queen or other workers. So far, this prediction has been supported with data from the honeybee, but evidence from other social insect groups is currently lacking. Here we present the first such test in the common wasp, Vespula vulgaris. In particular, workers from queenright colonies left the natal nest at a higher rate than those from queenless colonies. However, contrary to our predictions, drifter workers targeted queenless and queenright colonies equally. Chemical data suggest that this lack of discrimination may be linked to recognition constraints and the lack of volatile signals that reliably indicate the presence or absence of the queen. In addition, in queenright colonies, drifters activated their ovaries at a rate that was ca. five times higher than the natal workers. Overall, our results suggest that also in wasps, workers can gain inclusive fitness by drifting to unrelated nests, even if the chances of successfully reproducing there may be very slim.status: publishe