Utilization of floral resources by bees of the Genus Frieseomelitta von Ihering (Hymenoptera: Apidae)

Teixeira, Alex F.R.; Oliveira, Favizia F. de; Viana, Blandina F.

doi:10.1590/S1519-566X2007000500007

Abstracts

The present study intended to verify which factors (phylogenetic relationship or local ecological conditions) would determine how Frieseomelitta bees use floral resources. The data obtained in the literature on biocenotic studies of Apoidea visiting flowers in Brazil were analyzed, with identification and quantification of floral resources used by Frieseomelitta species in different areas. The phenogram of similarity on use of resources among Frieseomelitta species was compared to the phylogenetic hypothesis proposed for the group. Among the eight Frieseomelitta species registered in 19 studies, F. doederleini (Friese), F. francoi (Moure), F. languida Moure, F. varia (Lepeletier) e Frieseomelitta sp. nov., were collected using resources from 36 plant families. F. doederleini, F. languida e F. varia centralized their activity in Caesalpiniaceae, Malpighiaceae e Anacardiaceae. The similarities and disparities found among areas and Frieseomelitta species reflected the similarities and differences of the vegetation composition in each area. Frieseomelitta bees presented a forage pattern similar to that one presented by other highly social bees, visiting flowers of many plant species, but concentrating their activities in few plant species. Despite the low phylogenetic relationship between F. languida and F. doederleini, they showed a high similarity on the use of floral resource, while F. varia e F. languida, species with high phylogenetic relationship, showed low similarity in the use of resource. Although the data obtained are not conclusive, it indicates that phylogenetic restrictions do not influence the pattern of use of floral resource by Frieseomelitta bees.

Caatinga; eusocial bee; phylogenetic restriction; visited plant

No presente estudo procurou-se investigar fatores que influenciariam o modo de utilização de recursos florais por abelhas Frieseomelitta von Ihering. Os dados obtidos na literatura sobre estudos biocenóticos de Apoidea visitando flores no Brasil foram analisados, com identificação e quantificação dos recursos florais utilizados pelas espécies de Frieseomelitta, em diferentes áreas. O fenograma de similaridade no uso de recursos entre as espécies de Frieseomelitta foi comparado com a hipótese filogenética proposta para o grupo. Das oito espécies de Frieseomelitta registradas em 19 estudos, F. doederleini (Friese); F. francoi (Moure); F. languida Moure, F. varia (Lepeletier) e Frieseomelitta sp. nov.; foram amostradas em 36 famílias botânicas. As similaridades e as disparidades encontradas entre as áreas e entre as espécies de Frieseomelitta refletiram as semelhanças e diferenças da composição da vegetação de cada área. Abelhas Frieseomelitta apresentam padrão de forrageio semelhante ao observado para outros grupos de abelhas eussociais, visitando diversas espécies vegetais, mas concentrando a visita em poucas espécies. F. languida e F. doederleini, embora apresentem parentesco mais distante dentre as espécies do gênero, mostraram maior similaridade no uso dos recursos, enquanto que F. varia e F. languida, espécies mais aparentadas do gênero, não apresentaram similaridades no uso de recursos. Embora as informações disponíveis não sejam, ainda, conclusivas, mostram que as restrições filogenéticas não influenciam específicamente o padrão de utilização dos recursos florais pelas espécies de Frieseomelitta.

Abelha eussocial; caatinga; restrição filogenética; planta visitada

ECOLOGY, BEHAVIOR AND BIONOMICS

Utilization of floral resources by bees of the Genus Frieseomelitta von Ihering (Hymenoptera: Apidae)

Utilização de recursos florais por abelhas do Gênero Frieseomelitta von Ihering (Hymenoptera: Apidae)

Alex F.R. Teixeira^I; Favizia F. de Oliveira^II; Blandina F. Viana^III

^IInstituto Capixaba de Pesquisa, Assistência Técnica e Extensão Rural - INCAPER, Escritório Local de Desenvolvimento Rural de Ibiraçu, Av. Conde DEu, n. 344, 29670-000, Ibiraçu, ES, afabian13@yahoo.com.br

^IILab. Sistemática de Insetos (LASIS), Depto. Ciências Biológicas, Univ. Estadual de Feira de Santana, Av. Universitária S/N, km 03, BR 116 (Rodovia Feira de Santana Serrinha), 44031-460, Feira de Santana, BA favos@uefs.br, favos@bol.com.br

^IIILab. Biologia e Ecologia de Abelhas (LABEA), Depto. Zoologia, Instituto de Biologia, Univ. Federal da Bahia Rua Barão de Geremoabo s/n, Campus Universitário de Ondina, 40170-110, Salvador, BA, blandefv@ufba.br

ABSTRACT

The present study intended to verify which factors (phylogenetic relationship or local ecological conditions) would determine how Frieseomelitta bees use floral resources. The data obtained in the literature on biocenotic studies of Apoidea visiting flowers in Brazil were analyzed, with identification and quantification of floral resources used by Frieseomelitta species in different areas. The phenogram of similarity on use of resources among Frieseomelitta species was compared to the phylogenetic hypothesis proposed for the group. Among the eight Frieseomelitta species registered in 19 studies, F. doederleini (Friese), F. francoi (Moure), F. languida Moure, F. varia (Lepeletier) e Frieseomelitta sp. nov., were collected using resources from 36 plant families. F. doederleini, F. languida e F. varia centralized their activity in Caesalpiniaceae, Malpighiaceae e Anacardiaceae. The similarities and disparities found among areas and Frieseomelitta species reflected the similarities and differences of the vegetation composition in each area. Frieseomelitta bees presented a forage pattern similar to that one presented by other highly social bees, visiting flowers of many plant species, but concentrating their activities in few plant species. Despite the low phylogenetic relationship between F. languida and F. doederleini, they showed a high similarity on the use of floral resource, while F. varia e F. languida, species with high phylogenetic relationship, showed low similarity in the use of resource. Although the data obtained are not conclusive, it indicates that phylogenetic restrictions do not influence the pattern of use of floral resource by Frieseomelitta bees.

Key words: Caatinga, eusocial bee, phylogenetic restriction, visited plant

RESUMO

No presente estudo procurou-se investigar fatores que influenciariam o modo de utilização de recursos florais por abelhas Frieseomelitta von Ihering. Os dados obtidos na literatura sobre estudos biocenóticos de Apoidea visitando flores no Brasil foram analisados, com identificação e quantificação dos recursos florais utilizados pelas espécies de Frieseomelitta, em diferentes áreas. O fenograma de similaridade no uso de recursos entre as espécies de Frieseomelitta foi comparado com a hipótese filogenética proposta para o grupo. Das oito espécies de Frieseomelitta registradas em 19 estudos, F. doederleini (Friese); F. francoi (Moure); F. languida Moure, F. varia (Lepeletier) e Frieseomelitta sp. nov.; foram amostradas em 36 famílias botânicas. As similaridades e as disparidades encontradas entre as áreas e entre as espécies de Frieseomelitta refletiram as semelhanças e diferenças da composição da vegetação de cada área. Abelhas Frieseomelitta apresentam padrão de forrageio semelhante ao observado para outros grupos de abelhas eussociais, visitando diversas espécies vegetais, mas concentrando a visita em poucas espécies. F. languida e F. doederleini, embora apresentem parentesco mais distante dentre as espécies do gênero, mostraram maior similaridade no uso dos recursos, enquanto que F. varia e F. languida, espécies mais aparentadas do gênero, não apresentaram similaridades no uso de recursos. Embora as informações disponíveis não sejam, ainda, conclusivas, mostram que as restrições filogenéticas não influenciam específicamente o padrão de utilização dos recursos florais pelas espécies de Frieseomelitta.

Palavras-chave: Abelha eussocial, caatinga, restrição filogenética, planta visitada

Most of the studies on resource usage by eusocial bees, carried out in Brazil (e.g. Imperatriz-Fonseca et al. 1984, Ramalho et al. 1989, Wilms et al. 1996) suggest that, although Meliponina present generalist habits they concentrate their foraging on only a few floral sources. These studies reveal several patterns in the use of certain botanical families in particular that allow inferences regarding floral preferences among these bees.

However, such a preference in the use of resources is related to the animals relative ability to collect or consume an item of a given food type (Schoener 1974, Lawlor 1980). This ability is inherent to each species and is related to the degree of relationship between the species and availability of the resources in the environment.

Biesmeijer & Slaa (2006) have recently accomplished a comparative analysis of food plants use by eusocial bees in tropical bee assemblages. However the forums that seek to elucidate the patterns of resource use by communities of eusocial bees in Brazil have not used an approach that takes into consideration the phylogeny of congeneric species. Furthermore, the availability of resources in the environments under study is not yet quantified (the supply of resources can also vary from region to region and time of year). The interpretation of the results of these studies is based only on the communitys consumption, through an analysis of the extent of the trophic niche of the particular species. This is mainly due to the basic taxonomic impediments existent for the study of bees in Brazil, like the reduced number of taxonomists, few generic revisions, existence of synonymies, incorrect identification of species and the lack of strong phylogenetic hypotheses (Silveira et al. 2002a).

Data concerning the phylogenetic relationship among stingless bees are even scarcer, though with notable studies on the genera Paratrigona Schwarz and Aparatrigona Moure (Camargo & Moure 1994), Geotrigona Moure (Camargo & Moure 1996) and Partamona Schwarz (Pedro & Camargo 2003). Recent hypotheses try to explain the phylogenetic relationship among species of the genus Frieseomelitta von Ihering (F. F. de Oliveira, in preparation).

Frieseomelitta is a stingless bees genus (Meliponinae, Trigonini), exclusively Neotropical, with wide geographical distribution, occurring from Southwest of Mexico to the Southeast Region of Brazil. Specimes can be found in forests, cerrado, caatinga and mountainous regions, reaching up to 1600 m of altitude (Iguala, Guerrero, Mexico) (Oliveira 2003).

The objective of the present study was to evaluate whether the pattern of floral resource utilization by eusocial bees of the genus Frieseomelitta results from phylogenetic restrictions inherent to each species, or whether ecological factors could be the determinant factors for the patterns observed. The study was based on information obtained from a meta-analysis of the studies on flower visiting by species of Frieseomelitta (in diverse Brazilian ecosystems) and on the phylogenetic hypothesis proposed for the group (by one of the authors of this work).

It is assumed that, if phylogenetic restrictions are the most decisive factor in the pattern of floral resource utilization, phylogenetically close species of Frieseomelitta will present similar patterns, even when resident in communities located in different areas. On the other hand, if local ecological interactions influence the pattern of floral resource utilization, then phylogenetically close species of Frieseomelitta will show dissimilar patterns, even when resident in communities located in the same area.

Thus, this work aimed to achieve the following specific objectives:

1. to analyze the Brazilian studies of bee flower visitation in which Frieseomelitta species were collected;

2. to verify the faunistic similarity of Frieseomelitta species among the areas studied in Brazil;

3. to identify the floral resources used by Frieseomelitta species in different Brazilian habitats;

4. to quantify the relative abundance of floral resources used by Frieseomelitta;

5. to determine the similarity in the use of floral resources among the species of Frieseomelitta and the areas studied;

6. to identify possible ecological trends in the use of floral resources by Frieseomelitta bees.

Material and Methods

An analysis was undertaken of the biocenotic studies done in Brazil. These studies usually deal with the plants commonly visited by the various groups of bees, as well as with the predominant species and rare bees and the richness of species according to each area. The information enables a meta-analysis that uses statistical methods to combine the results of separate studies and thereby identifies the existence or lack of tendencies and proposes hypotheses to explain them.

So, information on this subject available in the specialized literature (such as theses, dissertations and other works) was analyzed. Studies were pre-selected that presented the following common factors: 1) undertaken in Brazil; 2) with direct methodology (collections of bees visiting flowers) or indirect methodology (polynic analysis) to describe the use of floral resources by the bees; and 3) samplings of Frieseomelitta individuals.

The studies were further classified into those that identified the floral resources used by the Frieseomelitta bees and also those that specified the relative abundance of the floral resources. Works that did not correspond to the above criteria were excluded from the analysis.

A grouping analysis was performed, based on the UPGMA method (cluster analysis) in order to evaluate the similarity between species of Frieseomelitta and/or the areas studied in the Brazilian biomas where these bees are found. This is a method of quantitative hierarchical classification, which accumulates a species or group of species each time, until it finally generates a single grouping incorporating all the species. During the process, the pairs with greatest similarity are grouped first, until the formation of the final grouping with all the species.

Sorensens similarity index for the application of UPGMA was used in the present study. The formula to calculate this index is: CA = 2c/a+b x 100, where "CA" is the association coefficient, "c" is the number of species common to the two samples, "a" is the number of species in the sample "A", and "b" the number of species in the sample "B" (Southwood & Henderson 2000). This index takes into account only the presence or absence of the species and was chosen due to the difficulty in obtaining data on the relative abundance of Frieseomelitta species on the flowers.

The similarity matrix and phenogram were prepared using Multivariate Statistical Package version 3.12d.

The areas were classified based on the biogeographical categories proposed by Udvardy (1975) and used by Pinheiro-Machado et al. (2002), who identified the following vegetational formations, where systematic investigations of Apoidea were undertaken in Brazil: tropical humid forest (Atlantic Forest and Amazonian Forest); subtropical humid and temperate forests; tropical savannas (cerrado); tropical dry forest (caatinga) and temperate grasslands.

Results

From the nineteen studies analyzed, eight species of Frieseomelitta were registered, namely: F. doederleini (Friese, 1900) (F.d.); F. francoi (Moure, 1946) (F.f); F. flavicornis (Fabricius, 1798) (identified as F. savannensis (Roubik, 1980)) (F.s.); Frieseomelitta sp. nov. (F.F. de Oliveira in preparation - identified as F. silvestrii faceta Moure); F. languida Moure, 1989 (F.l); F. trichocerata Moure, 1988 (F.t.); F. dispar (Moure, 1950) (F.v.d); and F. varia (Lepeletier, 1836) (F.v.). In some studies, individuals of Frieseomelitta were not identified at species level (F.sp.) (Table 1).

Thumbnail

The faunistic similarity between the species of Frieseomelitta according to the areas studied in Brazil is presented in Fig. 1. Nine studies reported the floral resources visited by Frieseomelitta and four out of these were performed in the cerrado, four in the caatinga and one in the Amazon region (Table 2).

Thumbnail

In the above mentioned studies, individuals from five species of Frieseomelitta (F.d.; F.f.; F.sp.nov.; F.l.; and F.v.) were collected when they visited 73 species of vegetation belonging to 36 botanical families. The botanical families that presented the largest number of vegetable species visited by Frieseomelitta individuals were as follows: Caesalpiniaceae (n = 10), Anacardiaceae (n = 6), Fabaceae (n = 6), Euphorbiaceae (n = 5), Malpighiaceae (n = 5), Bignoniaceae (n = 3), Capparaceae (n = 3) and Mimosaceae (n = 3) (Table 2).

The analysis of the studies in which it was possible to determine the relative abundance of Frieseomelitta individuals (F.d.; F.l. and F.v.) revealed that 24 botanical families were visited and that these bees tended to concentrate the visits on Caesalpiniaceae, Malpighiaceae and Anacardiaceae families (Fig. 2).

In areas of caatinga, such as in Ibiraba, Bahia state (BA), 316 individuals of F. languida were collected when they visited 11 botanical families; of this total 54.5% were collected on the Caesalpiniaceae species Copaifera coriacea Mart. Similar data were observed in São João do Cariri, Paraíba state (PB), where most visits (33.2%) of the 46 individuals of F. doederleini were registered on 12 botanical families and the individuals were collected when visiting Caesalpinia pyramidalis Tul., also a Caesalpiniaceae (Aguiar et al. 1995).

Regarding the botanical family Malpighiaceae, in Ibiraba, BA, 88 (25.3%) all individuals of Frieseomelitta were collected on Byrsonima gardnerana Adr. Juss., and in Cajuru, São Paulo state (SP), three individuals of F. varia were collected on Mascagnia cordifolia Griseb. The Anacardiaceae family in Nova Casa Nova, BA, represented only by Astronium aff. urundeuva (Fr. All.) Engl., was frequently visited by F. doederleini, accounting for 53 (62.4%) of the total of 85 individuals collected on eight botanical families.

Fig. 3 presents the phenogram of similarity among the species of Frieseomelitta according to the botanical families visited. F. languida and F. doederleini formed an independent group. The similarities between the areas in terms of the genera of plants visited by Frieseomelitta are shown in Fig. 4.

Discussion

Species of Frieseomelitta have been sampled in studies on the use of floral resources carried out in Brazil in areas located in humid tropical forests (Amazon Forest), tropical savannas (cerrado) and dry forests (caatinga). However, they were not registered in areas more to the south of the country, probably due to the biogeographic distribution of the Frieseomelitta genus (Silveira et al. 2002b) and also to their intolerance to cold climates (Ribeiro & Bego 1994).

Despite six species of Frieseomelitta were documented during the investigation of nests in the Amazon (Camargo 1994), only three species were registered (F. flavicornis; Frieseomelitta sp. nov. and F. trichocerata) in punctual studies on the use of floral resources and pollination, undertaken in that region (Absy et al. 1984; Laroca 1999; Falcão et al. 1999, 2001, 2002). According to Pinheiro-Machado et al. (2002), to date, no systematic studies have collected bees from flowers in the Amazon basin. The lack of this type of study could be due to the difficulty on collecting bees in the canopy of the forests.

The caatinga ecosystem presented the greatest richness of Frieseomelitta species (n = 4) collected on flowers, certainly due to the ease of collection and to its representativity in areas such as Milagres (Castro 2001) and Ibiraba, BA (Neves & Viana 2002), where the genus stood out in number of species, when compared with other genera of eusocial bees.

In relation to the faunistic similarity observed in this study, one can to a certain extent affirm that it reflects the geographical distribution of the Frieseomelitta species. For instance, species such as F. flavicornis, Frieseomelitta sp. nov. and F. trichocerata have been registered exclusively in areas located in the Amazon. However, F. languida and F. varia have only been found in areas located in the caatinga and cerrado, respectively.

When the comparison among areas also considered floral resources, the families Caesalpiniaceae, Malpighiaceae and Anacardiaceae seem very important for the populations of Frieseomelitta, mainly for those located in areas of caatinga and cerrado, since they were visited by at least four of the five species registered (F. doederleini, F. francoi, Frieseomelitta sp. nov. and F. languida).

In the present study, individuals of Frieseomelitta visited species belonging to Caesalpiniaceae in all caatinga areas [Ibiraba, BA (Neves & Viana 2002), São João do Cariri, PB (Aguiar & Martins 1997), Nova Casa Nova, BA (Castro 1994, Martins 1994), and Milagres, BA (Castro 2001)], with a relatively high abundance in Ibiraba, BA (Neves & Viana 2002) and São João do Cariri, PB (Aguiar & Martins 1997), what reinforces the great importance of this resource in the caatinga areas studied.

The predominance of eusocial bees visiting Caesalpiniaceae could be a consequence of the melitophilous characteristics present in species as C. coriacea and C. pyramidalis, like massal floration and simultaneously nectar and pollen resources. These two vegetable species probably represent a key resource for the populations of Frieseomelitta in Ibiraba, BA (Neves & Viana 2002) and São João do Cariri, PB (Aguiar & Martins 1997).

The prominence of Malpighiaceae and Anacardiaceae families is due to visits by F. doederleini and F. languida to individuals of B. gardnerana present in Ibiraba, BA (Neves & Viana 2002) and to the presence of A. urundeuva in Nova Casa Nova, BA (Castro 1994, Martins 1994), frequently visited by F. doederleini. Plants of A. urundeuva were also present in São João do Cariri, PB (Aguiar & Martins 1997), although only one individual of F. doederleini was collected from them.

Some considerations should be made regarding the results discussed in this work. Unfortunately most of the studies in the literature only present graphical data regarding the relative abundance (percentage of Frieseomelitta individuals collected on flowers) for the species of vegetation visited by the various species of Frieseomelitta, often due to their low abundance in the areas studied; other studies only provide information regarding the species of bees and predominant plants. Consequently in some studies, like those undertaken in Uberlândia, Minas Gerais State (MG), (Carvalho & Bego 1997), Lençóis, BA (Viana 1992, Martins 1994) and in Milagres, BA (Castro 2001), the relative abundance of Frieseomelitta individuals on the flowers could not be obtained, what, in a certain manner, restricted the analysis.

However, based on the data analyzed here, it can be inferred that Frieseomelitta bees visited a great number of plant species, but tended to concentrate on just a few species [(Ibiraba, BA (Neves & Viana 2002) and São João do Cariri, PB (Aguiar & Martins 1997)].

This foraging pattern is similar to that observed for other species of eusocial bees, such as: Plebeia Schwarz, that visited with high intensity only Anacardiaceae, Balsaminaceae, Solanaceae and Palmae (Knoll & Imperatriz-Fonseca 1993); Scaptotrigona Moure concentrated its foraging on Compositae, Leguminosae, Myrataceae and Euphorbiaceae (Ramalho 1990); Melipona Illiger visited with greater intensity plants of the Myrtaceae, Melastomataceae, Solanaceae and Mimosaceae families (Ramalho et al. 1989); Tetragonisca angustula (Latreille) concentrated foraging on Euphorbiaceae, Moraceae, Leguminosae and Myrtaceae (Imperatriz-Fonseca et al. 1984).

Concerning which floral resources are used, it was expected that phylogenetic restrictions would influence the use of these resources by the species of Frieseomelitta, and that species closely related would show similarity, even when they inhabited different areas. However, F. varia and F. languida presented a close relationship (Fig. 5) but this similarity was not registered (Fig. 3). The opposite was observed with F. languida and F. doederleini, despite their higher phylogenetic distance, they presented the greatest similarity in the use of floral resources when pairs of species were analyzed.

Thus, in principle, it seems that the phylogenetic restrictions do not influence the use of resources by species of Frieseomelitta and that this can also be generalized for other groups of eusocial bees.

It is probable that ecological factors, such as availability of the floral resources and characteristics of the local vegetation structure, such as composition and abundance, are more relevant in the pattern of floral resource usage for species of Frieseomelitta eusocial bees. The similarities and disparities in the use of floral resources observed among species of Frieseomelitta, in this study could be related to the similarities and differences found between the biomas, mainly caatinga and cerrado (Fig. 4) and to the ecological interactions between the populations present in each bioma.

If there was some influence originating from the phylogenetic restrictions, it seems that they would be expressed on a higher taxonomic level and would serve to differentiate the foraging behavior of eusocial bees from solitary bees.

Received 19/VI/06. Accepted 21/III/07.

Absy, M.L., J.M.F. Camargo, W.E. Kerr & I.P.A. Miranda. 1984. Espécies de plantas visitadas por Meliponinae (Hymenoptera; Apoidea), para coleta de pólen na região do médio Amazonas. Rev. Bras. Biol. 44: 227-237.
Aguiar, C.M.L., C.F. Martins & A.C. Moura. 1995. Recursos florais utilizados por abelhas (Hymenoptera, Apoidea) em áreas de caatinga (São João do Cariri, Pb). Rev. Nord. Biol. 10: 101-117.
Aguiar, C.M.L. & C.F. Martins. 1997. Abundância relativa, diversidade e fenologia de abelhas (Hymenoptera, Apoidea) na caatinga, São João do Cariri, Paraíba, Brasil. Iheringia Ser. Zool. 83, 151-163.
Biesmeijer, J.C. & E.J. Slaa. 2006. The structure of eusocial bee assemblages in Brazil. Apidologie 37: 240-258.
Camargo, J.M.F. 1994. Biogeografia de Meliponini (Hymenoptera, Apidae, Apinae): A fauna Amazônica. In I Encontro sobre Abelhas. Ribeirão Preto, p.46-59.
Camargo, J.M.F. & J.S. Moure. 1994. Meliponinae neotropicais: Os gêneros Paratrigona Schwarz, 1938 e Aparatrigona Moure, 1951 (Hymenoptera, Apidae). Arq. Zool. 32: 33-109.
Camargo, J.M.F. & J.S. Moure. 1996. Meliponini neotropicais: O gênero Geotrigona Moure, 1943 (Apinae, Apidae, Hymenoptera), com especial referência à filogenia e biogeografia. Arq. Zool. 33: 95-161.
Carvalho, A.M.C. & L.R. Bego. 1997. Exploitation of available resources by bee fauna (Apoidea-Hymenoptera) in the Reserva Ecológica do Panga, Uberlândia, state of Minas Gerais, Brazil. Rev. Bras. Entomol. 41: 101-107.
Carvalho, C.A.L. 1999. Diversidade de abelhas (Hymenoptera, Apoidea) e plantas visitadas no município de Castro Alves - Ba. Tese de Doutorado, São Paulo Universidade de São Paulo, 104p.
Castro, M.S. 1994. Composição, fenologia e visita às flores pelas espécies de Apidae em um ecossistema de caatinga (Nova Casa Nova, Bahia 9ş 26S/ 41ş 50W). Dissertação de mestrado, São Paulo, Universidade de São Paulo, 103p.
Castro, M.S. 2001. Comunidade de abelhas (Hymenoptera: Apoidea) de uma área de caatingas arbórea entre os inselbergs de Milagres 12ş53S; 39ş51W), Bahia. Tese de doutorado, São Paulo, Universidade de São Paulo, 191p.
Cortopassi-Laurino, M. & M. Ramalho. 1988. Pollen harvest by africanized Apis mellifera and Trigona spinipes in São Paulo botanical and ecological views. Apidologie 19: 1-24.
Falcão, M.A., N.D. Paraluppi & C.R. Clement. 2001. Fenologia e produtividade do abacate (Persea americana) na Amazônia Central. Acta Amazônica 31: 3-9.
Falcão, M.A., N.D. Paraluppi & C.R. Clement. 2002. Fenologia e produtividade do jambo (Syzygium malaccensis) na Amazônia Central. Acta Amazônica 32: 3-8.
Falcão, M.A., R.R. Morais &. C.R. Clement. 1999. Influência da vassoura de bruxa na fenologia do cupuaçuzeiro. Acta Amazônica. 29: 13-19.
Imperatriz-Fonseca, V.L., A. Kleinert-Giovannini, M. Cortopassi-Laurino & M. Ramalho. 1984. Hábitos de coleta de Tetragonisca angustula angustula Latreille, (Hymenoptera, Apidae, Meliponinae). Bol. Zoologia, Univ. S. Paulo 8: 115-131.
Imperatriz-Fonseca, V.L., A. Kleinert-Giovannini & M. Ramalho. 1989. Pollen harvest by eusocial bees in a non-natural community in Brazil. J. Trop. Ecol. 5: 239-242.
Knoll, F.R.N. & V.L. Imperatriz-Fonseca. 1993. Flores visitadas por meliponíneos (Hym., Apoidea) do gênero Plebeia An. Etologia 11: 190-200.
Laroca, S. 1999. Sobre visitas de abelhas silvestres (Apoidea) às flores de Brachiaria humidicola (Gramineae), em Porto Velho (Rondônia, Brasil). An. Soc. Entomol. Bras. 19: 481-483.
Lawlor, L.R. 1980. Overlap, similarity, and competition coefficients. Ecology 61: 245-251.
Martins, C.F. 1994. Comunidade de abelhas (Hymenoptera, Apoidea) da caatinga e do cerrado com elementos de campo rupestre do Estado da Bahia, Brasil. Revta. Nordest. Biol. 9: 225-257.
Mateus, S. 1998. Abundância relativa, fenologia e visita as flores pelos Apoidea do cerrado dea Estação Ecológica de Jataí - Luiz Antônio - SP. Dissertação de mestrado, Ribeirão Preto, Universidade de São Paulo, Fac., Filos., Ciênc. e Letras, São Paulo, 159p.
Neves, E.L. 2001. Composição e visita às flores pelas abelhas eusociais (Hymenoptera: Apidae: Apinae) nas dunas interiores da margem esquerda do Médio Rio São Francisco, Barra, Bahia. Dissertação de Mestrado, Instituto de Biologia, Universidade Federal da Bahia, Salvador, 70p.
Neves, E.L. & B.F. Viana. 2002. As abelhas eussociais (Hymenoptera, Apidae) visitantes florais em um ecossistema de dunas continentais no médio Rio São Francisco, Bahia, Brasil. Rev. Bras. Entomol. 46: 573-580.
Oliveira, F.F. de. 2003. Revisão do gênero Frieseomelitta von Ihering, 1912 (Hymenoptera, Apidae, Meliponinae), com notas bionômicas de algumas espécies. Tese de Doutorado, Universidade Federal do Paraná, Curitiba, 327p.
Pedro, S.R.M. 1992. Sobre as abelhas (Hymenoptera - Apoidea) em um ecossistema de cerrado (Cajuru, Néctar Estado de São Paulo): Composição, fenologia e visita às flores. Dissertação de mestrado, Ribeirão Preto, Universidade de São Paulo, 200p.
Pedro, S.R.M. & J.M.F. Camargo. 2003. Meliponini neotropicias: O gênero Partamona Schwarz, 1939 (Hymenoptera, Apidae). Rev. Bras. Entomol. 47: 1-117.
Pinheiro-Machado, C., I. Alves-dos-Santos, V.L. Imperatriz-Fonseca, A.M.P. Kleinert & F.A. Silveira. 2002. Brazilian bee surveys: State of knowledge, conservation and sustainable use, p.115-130. In P. Kevan & V.L. Imperatriz-Fonseca (eds.), Pollinating bees the conservation link between agriculture and nature (Bárbara Bela, ed). Ministry of Environment, Brasília, 313p.
Ramalho, M. 1990. Foraging by stingless bees of the genus, Scaptotrigona (Apidae, Meliponinae). J. Apic. Res. 29: 61-67.
Ramalho, M, A. Kleinert-Giovannini & V.L. Imperatriz-Fonseca. 1989. Utilization of floral resources by species of Melipona (Apidae, Meliponinae): Floral preferences. Apidologie 20: 185-195.
Ribeiro, M.F. & L.R. Bego. 1994. Absconding in the Brazilian stingless bee Frieseomelitta silvestrii languida Moure (Hymenoptera: Apidae: Meliponinae). An. Soc. Entomol. Bras. 23: 355-358.
Schoener, T.W. 1974. Some methods for calculating competition coefficients from resource utilization spectra. Am. Nat. 108: 332-340.
Silveira, F.A., C. Pinheiro-Machado, I. Alves-dos-Santos, A.M.P. Kleinert & V.L. Imperatriz-Fonseca. 2002a. Taxonomic constraints for the conservation and sustainable use of wild pollinators the Brazilian wild bees, p.41-50. In P. Kevan & V.L. Imperatriz-Fonseca (eds.), Pollinating bees the conservation link between agriculture and nature (Bárbara bela, ed.). Ministry of Environment, Brasília, 313p.
Silveira, F.A., G.A.R. Melo & E.A.B. Almeida. 2002b. Abelhas brasileiras, sistemática e identificação. Ministério do Meio Ambiente, Ed. Fundação Araucária, Belo Horizonte, MG. 253p.
Silveira, F.A. & M.J.O. Campos. 1995. A melissofauna de Corumbataí (SP) e Paraobeba (MG): Uma análise da biogeografia das abelhas do cerrado brasileiro (Hymenoptera: Apoidea). Rev. Bras. Entomol. 39: 371-401.
Southwood, R. & P.A. Henderson. 2000. Ecological methods. 3^rd ed. Oxford, Blackwell Science Inc., 576p.
Udvardy, M.D.F. 1975. A classification of the biogeographical provinces of the world. Morges (Switzerland): International Union for Conservation of Nature and Natural Resources, (IUCN Occasional Paper, 18).
Viana, B.F. 1992. Estudo da composição da fauna de Apidae e da flora apícola da Chapada Diamantina, Lençóis-Bahia (12ş34S/ 41ş 23W). Dissertação de mestrado, São Paulo, Universidade de São Paulo, 140p.
Viana, B.F. 1999. A comunidade de abelhas (Hymenoptera: Apoidea) das dunas interiores do Rio São Francisco, Bahia, Brasil. An. Soc. Entomol. Bras. 28: 635-645.
Wilms, W., V.L. Imperatriz-Fonseca & W. Engels. 1996. Resource partitioning between highly eusocial bees and possible impact of the introduced Africanized honey bee on native stingless bees in the Brazilian Atlantic Rainforest. Stud. Neotrop. Fauna Environ. 31: 137-151.
Zanella, F.C.V. 1999. Apifauna da caatinga (NE do Brasil) Biogeografia Histórica, incluindo um estudo sobre sistemática, filogenia e distribuição das espécies de Caenonomada Ashmead, 1899 e Centris (Paracentris) Cameron, 1903 (Hymenoptera, Apoidea, Apidae). Tese de doutorado, São Paulo, Universidade de São Paulo, 162p.

Publication Dates

Publication in this collection
29 Nov 2007
Date of issue
Oct 2007

History

Accepted
21 Mar 2007
Received
19 June 2006

This work is licensed under a Creative Commons Attribution-NonCommercial 4.0 International License.

[1] Absy, M.L., J.M.F. Camargo, W.E. Kerr & I.P.A. Miranda. 1984. Espécies de plantas visitadas por Meliponinae (Hymenoptera; Apoidea), para coleta de pólen na região do médio Amazonas. Rev. Bras. Biol. 44: 227-237.

[2] Aguiar, C.M.L., C.F. Martins & A.C. Moura. 1995. Recursos florais utilizados por abelhas (Hymenoptera, Apoidea) em áreas de caatinga (São João do Cariri, Pb). Rev. Nord. Biol. 10: 101-117.

[3] Aguiar, C.M.L. & C.F. Martins. 1997. Abundância relativa, diversidade e fenologia de abelhas (Hymenoptera, Apoidea) na caatinga, São João do Cariri, Paraíba, Brasil. Iheringia Ser. Zool. 83, 151-163.

[4] Biesmeijer, J.C. & E.J. Slaa. 2006. The structure of eusocial bee assemblages in Brazil. Apidologie 37: 240-258.

[5] Camargo, J.M.F. 1994. Biogeografia de Meliponini (Hymenoptera, Apidae, Apinae): A fauna Amazônica. In I Encontro sobre Abelhas. Ribeirão Preto, p.46-59.

[6] Camargo, J.M.F. & J.S. Moure. 1994. Meliponinae neotropicais: Os gêneros Paratrigona Schwarz, 1938 e Aparatrigona Moure, 1951 (Hymenoptera, Apidae). Arq. Zool. 32: 33-109.

[7] Camargo, J.M.F. & J.S. Moure. 1996. Meliponini neotropicais: O gênero Geotrigona Moure, 1943 (Apinae, Apidae, Hymenoptera), com especial referência à filogenia e biogeografia. Arq. Zool. 33: 95-161.

[8] Carvalho, A.M.C. & L.R. Bego. 1997. Exploitation of available resources by bee fauna (Apoidea-Hymenoptera) in the Reserva Ecológica do Panga, Uberlândia, state of Minas Gerais, Brazil. Rev. Bras. Entomol. 41: 101-107.

[9] Carvalho, C.A.L. 1999. Diversidade de abelhas (Hymenoptera, Apoidea) e plantas visitadas no município de Castro Alves - Ba. Tese de Doutorado, São Paulo Universidade de São Paulo, 104p.

[10] Castro, M.S. 1994. Composição, fenologia e visita às flores pelas espécies de Apidae em um ecossistema de caatinga (Nova Casa Nova, Bahia 9ş 26S/ 41ş 50W). Dissertação de mestrado, São Paulo, Universidade de São Paulo, 103p.

[11] Castro, M.S. 2001. Comunidade de abelhas (Hymenoptera: Apoidea) de uma área de caatingas arbórea entre os inselbergs de Milagres 12ş53S; 39ş51W), Bahia. Tese de doutorado, São Paulo, Universidade de São Paulo, 191p.

[12] Cortopassi-Laurino, M. & M. Ramalho. 1988. Pollen harvest by africanized Apis mellifera and Trigona spinipes in São Paulo botanical and ecological views. Apidologie 19: 1-24.

[13] Falcão, M.A., N.D. Paraluppi & C.R. Clement. 2001. Fenologia e produtividade do abacate (Persea americana) na Amazônia Central. Acta Amazônica 31: 3-9.

[14] Falcão, M.A., N.D. Paraluppi & C.R. Clement. 2002. Fenologia e produtividade do jambo (Syzygium malaccensis) na Amazônia Central. Acta Amazônica 32: 3-8.

[15] Falcão, M.A., R.R. Morais &. C.R. Clement. 1999. Influência da vassoura de bruxa na fenologia do cupuaçuzeiro. Acta Amazônica. 29: 13-19.

[16] Imperatriz-Fonseca, V.L., A. Kleinert-Giovannini, M. Cortopassi-Laurino & M. Ramalho. 1984. Hábitos de coleta de Tetragonisca angustula angustula Latreille, (Hymenoptera, Apidae, Meliponinae). Bol. Zoologia, Univ. S. Paulo 8: 115-131.

[17] Imperatriz-Fonseca, V.L., A. Kleinert-Giovannini & M. Ramalho. 1989. Pollen harvest by eusocial bees in a non-natural community in Brazil. J. Trop. Ecol. 5: 239-242.

[18] Knoll, F.R.N. & V.L. Imperatriz-Fonseca. 1993. Flores visitadas por meliponíneos (Hym., Apoidea) do gênero Plebeia An. Etologia 11: 190-200.

[19] Laroca, S. 1999. Sobre visitas de abelhas silvestres (Apoidea) às flores de Brachiaria humidicola (Gramineae), em Porto Velho (Rondônia, Brasil). An. Soc. Entomol. Bras. 19: 481-483.

[20] Lawlor, L.R. 1980. Overlap, similarity, and competition coefficients. Ecology 61: 245-251.

[21] Martins, C.F. 1994. Comunidade de abelhas (Hymenoptera, Apoidea) da caatinga e do cerrado com elementos de campo rupestre do Estado da Bahia, Brasil. Revta. Nordest. Biol. 9: 225-257.

[22] Mateus, S. 1998. Abundância relativa, fenologia e visita as flores pelos Apoidea do cerrado dea Estação Ecológica de Jataí - Luiz Antônio - SP. Dissertação de mestrado, Ribeirão Preto, Universidade de São Paulo, Fac., Filos., Ciênc. e Letras, São Paulo, 159p.

[23] Neves, E.L. 2001. Composição e visita às flores pelas abelhas eusociais (Hymenoptera: Apidae: Apinae) nas dunas interiores da margem esquerda do Médio Rio São Francisco, Barra, Bahia. Dissertação de Mestrado, Instituto de Biologia, Universidade Federal da Bahia, Salvador, 70p.

[24] Neves, E.L. & B.F. Viana. 2002. As abelhas eussociais (Hymenoptera, Apidae) visitantes florais em um ecossistema de dunas continentais no médio Rio São Francisco, Bahia, Brasil. Rev. Bras. Entomol. 46: 573-580.

[25] Oliveira, F.F. de. 2003. Revisão do gênero Frieseomelitta von Ihering, 1912 (Hymenoptera, Apidae, Meliponinae), com notas bionômicas de algumas espécies. Tese de Doutorado, Universidade Federal do Paraná, Curitiba, 327p.

[26] Pedro, S.R.M. 1992. Sobre as abelhas (Hymenoptera - Apoidea) em um ecossistema de cerrado (Cajuru, Néctar Estado de São Paulo): Composição, fenologia e visita às flores. Dissertação de mestrado, Ribeirão Preto, Universidade de São Paulo, 200p.

[27] Pedro, S.R.M. & J.M.F. Camargo. 2003. Meliponini neotropicias: O gênero Partamona Schwarz, 1939 (Hymenoptera, Apidae). Rev. Bras. Entomol. 47: 1-117.

[28] Pinheiro-Machado, C., I. Alves-dos-Santos, V.L. Imperatriz-Fonseca, A.M.P. Kleinert & F.A. Silveira. 2002. Brazilian bee surveys: State of knowledge, conservation and sustainable use, p.115-130. In P. Kevan & V.L. Imperatriz-Fonseca (eds.), Pollinating bees the conservation link between agriculture and nature (Bárbara Bela, ed). Ministry of Environment, Brasília, 313p.

[29] Ramalho, M. 1990. Foraging by stingless bees of the genus, Scaptotrigona (Apidae, Meliponinae). J. Apic. Res. 29: 61-67.

[30] Ramalho, M, A. Kleinert-Giovannini & V.L. Imperatriz-Fonseca. 1989. Utilization of floral resources by species of Melipona (Apidae, Meliponinae): Floral preferences. Apidologie 20: 185-195.

[31] Ribeiro, M.F. & L.R. Bego. 1994. Absconding in the Brazilian stingless bee Frieseomelitta silvestrii languida Moure (Hymenoptera: Apidae: Meliponinae). An. Soc. Entomol. Bras. 23: 355-358.

[32] Schoener, T.W. 1974. Some methods for calculating competition coefficients from resource utilization spectra. Am. Nat. 108: 332-340.

[33] Silveira, F.A., C. Pinheiro-Machado, I. Alves-dos-Santos, A.M.P. Kleinert & V.L. Imperatriz-Fonseca. 2002a. Taxonomic constraints for the conservation and sustainable use of wild pollinators the Brazilian wild bees, p.41-50. In P. Kevan & V.L. Imperatriz-Fonseca (eds.), Pollinating bees the conservation link between agriculture and nature (Bárbara bela, ed.). Ministry of Environment, Brasília, 313p.

[34] Silveira, F.A., G.A.R. Melo & E.A.B. Almeida. 2002b. Abelhas brasileiras, sistemática e identificação. Ministério do Meio Ambiente, Ed. Fundação Araucária, Belo Horizonte, MG. 253p.

[35] Silveira, F.A. & M.J.O. Campos. 1995. A melissofauna de Corumbataí (SP) e Paraobeba (MG): Uma análise da biogeografia das abelhas do cerrado brasileiro (Hymenoptera: Apoidea). Rev. Bras. Entomol. 39: 371-401.

[36] Southwood, R. & P.A. Henderson. 2000. Ecological methods. 3^rd ed. Oxford, Blackwell Science Inc., 576p.

[37] Udvardy, M.D.F. 1975. A classification of the biogeographical provinces of the world. Morges (Switzerland): International Union for Conservation of Nature and Natural Resources, (IUCN Occasional Paper, 18).

[38] Viana, B.F. 1992. Estudo da composição da fauna de Apidae e da flora apícola da Chapada Diamantina, Lençóis-Bahia (12ş34S/ 41ş 23W). Dissertação de mestrado, São Paulo, Universidade de São Paulo, 140p.

[39] Viana, B.F. 1999. A comunidade de abelhas (Hymenoptera: Apoidea) das dunas interiores do Rio São Francisco, Bahia, Brasil. An. Soc. Entomol. Bras. 28: 635-645.

[40] Wilms, W., V.L. Imperatriz-Fonseca & W. Engels. 1996. Resource partitioning between highly eusocial bees and possible impact of the introduced Africanized honey bee on native stingless bees in the Brazilian Atlantic Rainforest. Stud. Neotrop. Fauna Environ. 31: 137-151.

[41] Zanella, F.C.V. 1999. Apifauna da caatinga (NE do Brasil) Biogeografia Histórica, incluindo um estudo sobre sistemática, filogenia e distribuição das espécies de Caenonomada Ashmead, 1899 e Centris (Paracentris) Cameron, 1903 (Hymenoptera, Apoidea, Apidae). Tese de doutorado, São Paulo, Universidade de São Paulo, 162p.

Brasil

Brasil

Utilization of floral resources by bees of the Genus Frieseomelitta von Ihering (Hymenoptera: Apidae)

Utilização de recursos florais por abelhas do Gênero Frieseomelitta von Ihering (Hymenoptera: Apidae)

Abstracts

Publication Dates

History