Alyne Daniele Alves Pimentel scite author profile

This study aimed to identify the pollen grains found in honeys of Melipona (Michmelia) seminigra pernigra Moure & Kerr and Melipona (Melikerria) interrupta Latreille in two communities of the Tapajós-Arapiuns Extractive Reserve, Lower Amazon (Pará, Brazil) between December 2016 and November 2017. Twenty-four samples of honey were processed, 12 samples from M. seminigra pernigra collected in the Suruacá community and 12 samples from M. interrupta in the Vila Franca community. After acetolysis, 103 pollen types were identified, distributed across 22 families, plus eight indeterminate types. Fifty-nine types were exclusive to M. seminigra pernigra, 29 types were exclusive to M. interrupta and 15 pollen types were shared between both species. Anacardiaceae, Burseraceae, Melastomataceae, and Myrtaceae were the most attractive pollen families, providing key resources for maintenance of these bee populations. The sharing of pollen types between both bee species revealed a high similarity in preference for certain resources. M. seminigra showed greater diversity (H’ = 1.928) than M. interrupta (H’ = 1.292). Furthermore, the diversity (H’) and equitability (J’) indexes showed a more homogeneous pattern in the pollen spectrum of honeys from M. seminigra in most months studied. These data suggest that meliponiculturists should consider the diversity of plant species found in the two communities and keep them close to the meliponary, which will favor honey management and production, as well as the local biodiversity.

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Pollen sources used by Frieseomelitta Ihering 1912 (Hymenoptera: Apidae: Meliponini) bees along the course of the Rio Negro, Amazonas, Brazil

Pimentel

Absy

Rech

et al. 2020

Acta Bot. Bras.

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Insect pollination has influenced the evolution and diversification of angiosperms. Consequently, knowing plants used as food sources by bees, the most important pollinator group, is the first step toward understanding how their ecological relationships works. Pollen source information is also highly relevant for bee management and associated fruit and seed production. Accordingly, to improve understanding of the trophic ecology of these bees and their relationships with native Amazonian plants the current study identified, quantified and compared pollen stored in nests of Frieseomelitta stingless bees along the Rio Negro, Amazonas, Brazil. A total of 31 pollen pots were sampled and found to contain 65 pollen types distributed across 52 genera and 29 botanical families (predominantly Arecaceae, Araliaceae, Fabaceae and Urticaceae). Euterpe was the commonest pollen type, being present in 32.2 % of the analyzed samples. Although the studied bees were generalists, pollen analysis suggested that different Frieseomelitta species may have distinct food preferences. The pollen profile of the studied bees was influenced more by nest location than by species phylogenetic proximity. The current study also provides a list of important plants for native bee management, which could improve beekeeping when grown near managed meliponarine colonies.

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A review of pollen types foraged by Melipona in the Brazilian Amazon

et al. 2023

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Bees of the genus Melipona found in the Amazon are investigated given their ecological, sociocultural and economic importance. The objective of this work was to analyze the scientific literature to recognize patterns in the richness of pollen types foraged by Melipona, comparing four methodological approaches. In the literature review, two databases were consulted: Web of Science (WoS) and the Scientific Electronic Library Online (SciELO). A record of 18 Melipona species investigated in 23 studies was found. These foraged 498 pollen types distributed in 88 botanical families. Many factors affect this richness. The main factor is the sampling time, which can influence other decisions. The highest richness estimates were found in the 12 month studies. The differences between the vegetation types reflect the patterns of diversity naturally found between them. Material from the meliponaries and bee corbels will result in a greater diversity of pollen types. Although there has been an increase in Melipona studies in the Amazon more effort is needed to fill the gaps in this vast territory.

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Polliniferous flora foraged by Melipona bees along the Rio Negro in the Brazilian Amazon

Pimentel

Absy

Rech

et al. 2021

Grana

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Palynoflora exploited by Frieseomelitta longipes (Smith, 1854) (Apinae: Meliponini) in protected areas from the Brazilian Amazon basin

Souza

Pimentel

Nogueira

et al. 2021

Journal of Apicultural Research

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