Your search keyword '"Almeida, Eduardo A. B."' showing total 10 results

1. Bee morphology: A skeletomuscular anatomy of Thyreus (Hymenoptera: Apidae).

Author

Meira, Odair M., Beutel, Rolf G., Pohl, Hans, van de Kamp, Thomas, Almeida, Eduardo A. B., and Boudinot, Brendon E.

Published

2024

2. Behavioural evolution of Neotropical social wasps (Vespidae: Polistinae): the queen selection process.

Author

Chavarría‐Pizarro, Laura, da Silva, Marjorie, Ament, Danilo C., Almeida, Eduardo A. B., and Noll, Fernando Barbosa

Subjects

VESPIDAE, WASPS, SOCIAL evolution, INSECT societies, QUEEN honeybees, VIDEO production & direction, PRODUCTION control, ANT colonies, BEE colonies

Abstract

All Epiponini wasps are polygynic, with multiple queens alternating over the colony cycle. There are several potential queens in the early stages of this cycle, but as it progresses, the number of queens is reduced. Because most individuals remain reproductively totipotent, there is great potential for conflicts over reproduction. Workers could have an advantage in controlling queen production because they are much more numerous than queens. Nevertheless, the queen selection process is little known for Epiponini. For this reason, we aimed to study the behaviour of queens and workers during queen selection in multiple species of Epiponini, integrate information from previous behavioural studies, and perform a comparative analysis to interpret changes evolutionarily. We conducted observations on nine species belonging to five genera: Brachygastra, Chartergellus, Metapolybia, Polybia and Protopolybia. Females were individually marked to make direct and video observations. Queen production was artificially induced. A total of 28 behaviours related to queen selection were identified. The most aggressive interactions between castes, such as bite and dart, were lost in the major lineages of Epiponini. Bending display I is an ancient behaviour used as the main dominance display. Behaviours exhibited by workers to test queen status arose in the common ancestor of the Epiponini and are not shared by other polistine wasps. Consequently, the act of workers testing queen status probably was present in the Epiponini ancestor. Ritualized test display and dominance behaviours are used in Epiponini as honest signals of the queen's reproductive potential instead of aggressive behaviours. Caste flexibility had already been suggested as the ground plan for Epiponini and is herein discussed as decisive for colony survival of swarm wasps, because it allows colonies to respond efficiently to different situations that may eventually arise. [ABSTRACT FROM AUTHOR]

Published

2023

3. Phylogenomic dating and Bayesian biogeography illuminate an antitropical pattern for eucerine bees.

Author

Freitas, Felipe V., Branstetter, Michael G., Casali, Daniel M., Aguiar, Antonio J. C., Griswold, Terry, and Almeida, Eduardo A. B.

Subjects

BEES, GLOBAL cooling, TIME perception, BIOGEOGRAPHY, APIDAE, PHYLOGEOGRAPHY, HYMENOPTERA, EOCENE Epoch

Abstract

Aim: An antitropical pattern is characterized by the occurrence of closely related taxa south and north of the tropics but absent or uncommonly represented closer to the equator, in contrast to most taxa, which tend to have their highest diversity in the tropical regions. We investigate the antitropical distribution of eucerine bees with the aim of contributing to the characterization and understanding of this pattern. Location: All continents except Antarctica and Australia. Taxon: Eucerine bees (Hymenoptera: Apidae: Eucerinae). Methods: We carried out phylogenomic dating under two different clock models and used multiple strategies to vary matrix composition, evaluating the overlapping of divergence times estimated across models using Bhattacharyya coefficients. Lastly, we reconstructed the biogeographic history of eucerine bees using a Bayesian implementation of the DEC model. Results: Eucerinae is estimated to have started diversifying during the Palaeocene, with all its tribes originating during the Palaeocene/Eocene transition in southern South America. At least two range expansions happened into North America before the full closure of the Isthmus of Panama. We show that divergence between closely related groups with disjunct distributions would have happened in periods when the climate favoured the expansion of open habitats and became isolated when the forests were re‐established. Main conclusions: We describe the early diversification of eucerine bees, revealing an intimate association with southern South America. Events of range evolution of Eucerinae were likely affected by periods of global cooling and aridification, and palaeoclimatic and vegetational conditions probably have been more relevant to the formation of the antitropical distribution of Eucerinae than the consolidation of the Isthmus of Panama connecting the Americas. We also demonstrate that most uncertainty in divergence time estimation is not due to the amount of molecular data being used, but more likely other factors like fossil calibrations and violations of clock models. [ABSTRACT FROM AUTHOR]

Published

2022

4. Phylogeny, biogeography and diversification of the mining bee family Andrenidae.

Author

Bossert, Silas, Wood, Thomas J., Patiny, Sébastien, Michez, Denis, Almeida, Eduardo A. B., Minckley, Robert L., Packer, Laurence, Neff, John L., Copeland, Robert S., Straka, Jakub, Pauly, Alain, Griswold, Terry, Brady, Seán G., Danforth, Bryan N., and Murray, Elizabeth A.

Subjects

BEES, APIDAE, PHYLOGEOGRAPHY, BIOGEOGRAPHY, POLLINATORS, PHYLOGENY, PARSIMONIOUS models

Abstract

The mining bees (Andrenidae) are a major bee family of over 3000 described species with a nearly global distribution. They are a particularly significant component of northern temperate ecosystems and are critical pollinators in natural and agricultural settings. Despite their ecological and evolutionary significance, our knowledge of the evolutionary history of Andrenidae is sparse and insufficient to characterize their spatiotemporal origin and phylogenetic relationships. This limits our ability to understand the diversification dynamics that led to the second most species‐rich genus of all bees, Andrena Fabricius, and the most species‐rich North American genus, Perdita Smith. Here, we develop a comprehensive genomic dataset of 195 species of Andrenidae, including all major lineages, to illuminate the evolutionary history of the family. Using fossil‐informed divergence time estimates, we characterize macroevolutionary dynamics, incorporate paleoclimatic information, and present our findings in the context of diversification rate estimates for all other bee tribes. We found that diversification rates of Andrenidae steeply increased over the past 15 million years, particularly in the genera Andrena and Perdita. This suggests that these two groups and the brood parasites of the genus Nomada Scopoli (Apidae), which are the primary cleptoparasitic counterparts of Andrena, are similar in age and represent the fastest diversifying lineages of all bees. Using our newly developed time frame of andrenid evolution, we estimate a late Cretaceous origin in South America for the family and reconstruct the past dispersal events that led to its present‐day distribution. [ABSTRACT FROM AUTHOR]

Published

2022

5. Marimbondos: systematics, biogeography, and evolution of social behaviour of neotropical swarm‐founding wasps (Hymenoptera: Vespidae: Epiponini).

Author

Noll, Fernando B., da Silva, Marjorie, Soleman, Raduan A., Lopes, Rogério B., Grandinete, Yuri C., Almeida, Eduardo A. B., Wenzel, John W., and Carpenter, James M.

Subjects

VESPIDAE, SOCIAL evolution, WASPS, HYMENOPTERA, BIOGEOGRAPHY, OLIGOCENE Epoch, ICHNEUMONIDAE, EOCENE Epoch

Abstract

Neotropical swarm‐founding wasps are divided into 19 genera in the tribe Epiponini (Vespidae, Polistinae). They display extensive variation in several colony‐level traits that make them an attractive model system for reconstructing the evolution of social phenotypes, including caste dimorphism and nest architecture. Epiponini has been upheld as a solid monophyletic group in most phylogenetic analyses carried out so far, supported by molecular, morphological and behavioural data. Recent molecular studies, however, propose different relationships among the genera of swarm‐founding wasps. This study is based on the most comprehensive epiponine sampling so far and was analyzed by combining morphological, nesting and molecular data. The resulting phylogenetic hypothesis shows many of the traditional clades but still impacts the way certain behavioural characters, such as nest structure and castes, evolved, and thus requires some re‐interpretations. Angiopolybia as sister to the remaining Epiponini implies that nest envelopes and a casteless system are plesiomorphic in the tribe. Molecular dating points to an early tribal diversification during the Eocene (c. 55–38 Ma), with the major differentiation of current genera concentrated in the Oligocene/Miocene boundary. [ABSTRACT FROM AUTHOR]

Published

2021

6. The diversification of neopasiphaeine bees during the Cenozoic (Hymenoptera: Colletidae).

Author

Almeida, Eduardo A. B., Packer, Laurence, Melo, Gabriel A. R., Danforth, Bryan N., Cardinal, Sophie C., Quinteiro, Fábio B., and Pie, Marcio R.

Subjects

*COLLETIDAE, *CENOZOIC Era, *INSECT evolution, *INSECT phylogeny, *BIOGEOGRAPHY

Abstract

The biogeography of colletid bees as a whole can be explained by several South American‐Australian trans‐Antarctic interchanges. Within Colletidae, neopasiphaeine bees form a large group that has not been adequately studied, even though they are interesting both from the biogeographical viewpoint for fitting well the austral Gondwanan track and for their associations to host plants. The present paper integrates phylogenetic, biogeographic and paleontological data to reconstruct the evolutionary history of Neopasiphaeinae, with special emphasis on the New World taxa, relating the evolution of these bees to changes, such as the Andes uplift and expansion of open vegetation biomes. First, we propose a phylogenetic hypothesis for the Neopasiphaeinae using one mitochondrial and five nuclear loci. Phylogenetic relationships and divergence time estimation were simultaneously inferred in a Bayesian framework, and the tempo of neopasiphaeine diversification was investigated using lineage‐through‐time plots. The historical biogeography of neopasiphaeine bees was investigated in a likelihood framework. The clade represented by Neopasiphaeinae is strongly supported within Colletidae, and the bulk of their genera can be divided into two major sister‐clades that diverged during the Eocene: one endemic to the Australian region and the other to the Neotropical region. Divergence times among most neotropical genera of Neopasiphaeinae indicate that they differentiated and started their diversification during the Miocene. Our results depict a complex process of geographic evolution in the Neotropical clade, which probably relates to important changes in the neotropical climates and biota beginning at the Oligocene and became more marked in the Miocene. We present a scenario of the neotropical Neopasiphaeinae initially associated with areas of open vegetation in subtropical and temperate portions of South America, followed by multiple separations of lineages east and west of the Andes, and more recent occupations of habitats in tropical portions of the continent. [ABSTRACT FROM AUTHOR]

Published

2019

7. Phylogenetic relationships and biogeography of the Ipsiura cuckoo wasps (Hymenoptera: Chrysididae).

Author

Lucena, Daercio A. A., Almeida, Eduardo A. B., and Kimsey, Lynn S.

Subjects

*PHYLOGENY, *BIOGEOGRAPHY, *VICARIANCE, *CHRYSIDIDAE, *HYMENOPTERA

Abstract

Phylogenetic studies addressing relationships among chrysidid wasps have been limited. There are no hypotheses proposed for the Neotropical lineages of Chrysidini other than the classic cladogram published in the 1990s by Kimsey and Bohart. Herein we present a cladistic analysis based on 64 morphological characters coded for 54 species of Chrysidini, 32 of them being Ipsiura and 22 representing Caenochrysis, Chrysis, Exochrysis, Gaullea, Neochrysis, and Pleurochrysis. The species of Ipsiura were recovered as monophyletic and as the sister clade of Neochrysis in all most parsimonious trees. We discuss the high plasticity of some morphological characters as evidenced by their high homoplasy in the phylogenetic results, and we clarify the main morphological changes inferred on the phylogenetic tree for this genus. The effects of the inferred homoplasy were evaluated under an implied weighting cladistic analysis, and from a probabilistic perspective with Bayesian inference. Those alternative strategies did not alter the general conclusions about the monophyly of Ipsiura or the generic relationships in Chrysidini (changes were noticed in the species‐level relationships within certain parts of Ipsiura, where low branch support was common across all approaches). Among the species groups proposed by Linsenmaier (1985), only the marginalis group was recovered as monophyletic. We also evaluated the convoluted biogeographic history of the group. The resulting historical reconstructions indicate a complicated scenario of diversification of these wasps in the Neotropics, and a close association with forested biomes is discussed. This is the first phylogenetic study focusing on the Neotropical cuckoo wasps of the tribe Chrysidini.Species groups previously recognized in Ipsiura are shown to be artificial, and we clarify aspects of the morphological evolution of the clade.Our biogeographical results suggest that areas which are presently forested environments may have played a relevant role in the diversification of these cuckoo wasps. [ABSTRACT FROM AUTHOR]

Published

2019

8. Comparative morphology of the mandibles and head structures of corbiculate bees (Hymenoptera: Apidae: Apini).

Author

PORTO, DIEGO S., VILHELMSEN, LARS, and ALMEIDA, EDUARDO A. B.

Subjects

BEES, INSECT morphology, INSECT size, PHYLOGENY, MANDIBLE measurement

Abstract

Phylogenetic relationships of corbiculate bees have been a well-known focus of controversies over the past 30 years. The majority of the morphological datasets support the monophyly of Apina + Meliponina, whereas molecular datasets recover Meliponina as sister to Bombina. This issue is especially critical to the proper understanding of the evolution of clusters of traits that define the corbiculate eusocial behaviour. This work provides a description and discussion on characters of the head capsule, mandibles and sitophore of bees. Thirty-three characters are proposed and optimized within concurrent phylogenetic hypotheses for corbiculate bees, which results in seven derived character-states supporting the monophyly of the Apina + Meliponina + Bombina and nine supporting the Apina + Meliponina clades. Although some striking synapomorphies (e.g. tentorial bridge, pleurostomal condyle, hypopharyngeal lobe) support the former clade, most characters supporting the latter (i.e. Apina + Meliponina) were losses/reductions. Moreover, two previously undescribed character transformations on hypostoma and sitophore favour the Bombina + Meliponina clade. Internal head capsule characters are useful for phylogenetic analysis in comparative studies of bees, and corbiculate bees in particular, when efforts are made to solve the 'corbiculate controversy'. An attempt is made to standardize the current terminology used for bees and for other Hymenoptera. [ABSTRACT FROM AUTHOR]

Published

2016

9. Biogeography and diversification of colletid bees (Hymenoptera: Colletidae): emerging patterns from the southern end of the world.

Author

Almeida, Eduardo A. B., Pie, Marcio R., Brady, Seán G., and Danforth, Bryan N.

Subjects

*BIOGEOGRAPHY, *HYMENOPTERA, *COLLETIDAE, *GENES, *CRETACEOUS-Paleogene boundary

Abstract

Aim The evolutionary history of bees is presumed to extend back in time to the Early Cretaceous. Among all major clades of bees, Colletidae has been a prime example of an ancient group whose Gondwanan origin probably precedes the complete break-up of Africa, Antarctica, Australia and South America, because modern lineages of this family occur primarily in southern continents. In this paper, we aim to study the temporal and spatial diversification of colletid bees to better understand the processes that have resulted in the present southern disjunctions. Location Southern continents. Methods We assembled a dataset comprising four nuclear genes of a broad sample of Colletidae. We used Bayesian inference analyses to estimate the phylogenetic tree topology and divergence times. Biogeographical relationships were investigated using event-based analytical methods: a Bayesian approach to dispersal-vicariance analysis, a likelihood-based dispersal-extinction-cladogenesis model and a Bayesian model. We also used lineage through time analyses to explore the tempo of radiations of Colletidae and their context in the biogeographical history of these bees. Results Initial diversification of Colletidae took place at the Late Cretaceous (≥ 70 Ma). Several (6-14) lineage exchanges between Australia and South America via Antarctica during the Late Cretaceous and Eocene epochs could explain the disjunctions observed between colletid lineages today. All biogeographical methods consistently indicated that there were multiple lineage exchanges between South America and Australia, and these approaches were valuable in exploring the degree of uncertainty inherent in the ancestral reconstructions. Biogeographical and dating results preclude an explanation of Scrapterinae in Africa as a result of vicariance, so one dispersal event is assumed to explain the disjunction in relation to Euryglossinae. The net diversification rate was found to be highest in the recent history of colletid evolution. Main conclusions The biogeography and macroevolutionary history of colletid bees can be explained by a combination of Cenozoic vicariance and palaeoclimatic changes during the Neogene. The austral connection and posterior break-up of South America, Antarctica and Australia resulted in a pattern of disjunct sister lineages. Increased biome aridification coupled with floristic diversification in the southern continents during the Neogene may have contributed to the high rates of cladogenesis in these bees in the last 25-30 million years. [ABSTRACT FROM AUTHOR]

Published

2012

10. Two hundred years of homology and 50 years of “Essentialism”.

Author

Almeida, Eduardo A. B.

Subjects

*EMBRYOLOGY, *NONFICTION

Abstract

The article reviews the book "The Changing Role of the Embryo in Evolutionary Thought: Roots of Evo-Devo," by Ron Amundson.

Published

2007