Desynchronizations in bee–plant interactions cause severe fitness losses in solitary bees

Studies on bee-plant interactions are relevant to the understanding of temporal patterns in neotropical communities. In isolated habitats such as inselbergs little is yet known about the temporal dynamics in the availability of fl oral resources and interacting bee. In the present study, the objective is to verify the eff ect of seasonality on the bee-plant interaction in an Atlantic Forest inselberg in southeastern Brazil. The bees were sampled monthly in the dry (April/2008-September/2008) and wet seasons (October/2008-March/2009) using an entomological net. A total of 322 bees of 33 species were captured on fl owers of 34 species of plants during the year. Bees richness was similar between seasons (22 species in the wet season and 21 in the dry season), but abundance was higher in the wet season (60% of individuals) and higher diversity occurred in the dry season. Augochloropsis sp1 were the most abundant species and visited the largest number of plant species at each season. In the interaction network, plants with the highest degree were distinct between the seasons. The number of possible interactions was higher in the dry season compared to the wet season and connectance was similar; nestedness however varied between the seasons. The composition of plant and bees species was distinct between the seasons, as well as the interactions between them, mainly due to the alteration in the composition of the plant species and the change in the choice of the bees for the floral resources between the seasons.

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Network of Bee-plant Interactions and Recognition of Key Species in Semideciduous Forest

Sociobiology ◽

10.13102/sociobiology.v62i4.610 ◽

2015 ◽

Vol 62 (4) ◽

Cited By ~ 4

Author(s):

Isabel Farias Aidar ◽

Bruno Ferreira Bartelli ◽

Fernanda Helena Nogueira-Ferreira

Keyword(s):

Plant Interactions ◽

Semideciduous Forest ◽

Key Species ◽

Bee Plant

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Generalized host‐plant feeding can hide sterol‐specialized foraging behaviors in bee–plant interactions

Ecology and Evolution ◽

10.1002/ece3.5868 ◽

2019 ◽

Vol 10 (1) ◽

pp. 150-162 ◽

Cited By ~ 3

Author(s):

Maryse Vanderplanck ◽

Pierre‐Laurent Zerck ◽

Georges Lognay ◽

Denis Michez

Keyword(s):

Host Plant ◽

Plant Interactions ◽

Plant Feeding ◽

Bee Plant

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Bee–Plant Interactions: Competition and Phenology of Flowers Visited by Bees

Biodiversity and Conservation of the Yucatán Peninsula ◽

10.1007/978-3-319-06529-8_6 ◽

2015 ◽

pp. 131-152 ◽

Cited By ~ 3

Author(s):

Rogel Villanueva-Gutiérrez ◽

David W. Roubik ◽

Luciana Porter-Bolland

Keyword(s):

Plant Interactions ◽

Bee Plant

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Generalist Bee Species on Brazilian Bee-Plant Interaction Networks

Psyche A Journal of Entomology ◽

10.1155/2012/291519 ◽

2012 ◽

Vol 2012 ◽

pp. 1-7 ◽

Cited By ~ 6

Author(s):

Astrid de Matos Peixoto Kleinert ◽

Tereza Cristina Giannini

Keyword(s):

Apis Mellifera ◽

Plant Species ◽

Native Species ◽

Interaction Networks ◽

Plant Interactions ◽

Generalist Species ◽

Plant Interaction ◽

Bee Plant ◽

The 1960S ◽

Number Of Individuals

Determining bee and plant interactions has an important role on understanding general biology of bee species as well as the potential pollinating relationship between them. Bee surveys have been conducted in Brazil since the end of the 1960s. Most of them applied standardized methods and had identified the plant species where the bees were collected. To analyze the most generalist bees on Brazilian surveys, we built a matrix of bee-plant interactions. We estimated the most generalist bees determining the three bee species of each surveyed locality that presented the highest number of interactions. We found 47 localities and 39 species of bees. Most of them belong to Apidae (31 species) and Halictidae (6) families and to Meliponini (14) and Xylocopini (6) tribes. However, most of the surveys presentedApis melliferaand/orTrigona spinipesas the most generalist species.Apis melliferais an exotic bee species andTrigona spinipes, a native species, is also widespread and presents broad diet breath and high number of individuals per colony.

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Overwintering temperature and body condition shift emergence dates of spring-emerging solitary bees

PeerJ ◽

10.7717/peerj.4721 ◽

2018 ◽

Vol 6 ◽

pp. e4721 ◽

Cited By ~ 6

Author(s):

Mariela Schenk ◽

Oliver Mitesser ◽

Thomas Hovestadt ◽

Andrea Holzschuh

Keyword(s):

Body Weight ◽

Body Size ◽

Body Condition ◽

Mechanistic Model ◽

Life Cycles ◽

Solitary Bees ◽

Plant Interactions ◽

Individual Fitness ◽

Emergence Date ◽

Individual Body

Solitary bees in seasonal environments must align their life-cycles with favorable environmental conditions and resources; the timing of their emergence is highly fitness relevant. In several bee species, overwintering temperature influences both emergence date and body weight at emergence. High variability in emergence dates among specimens overwintering at the same temperatures suggests that the timing of emergence also depends on individual body conditions. However, possible causes for this variability, such as individual differences in body size or weight, have been rarely studied. In a climate chamber experiment using two spring-emerging mason bees (Osmia cornuta and O. bicornis), we investigated the relationship between temperature, emergence date, body weight, and body size, the last of which is not affected by overwintering temperature. Our study showed that body weight declined during hibernation more strongly in warm than in cold overwintering temperatures. Although bees emerged earlier in warm than in cold overwintering temperatures, at the time of emergence, bees in warm overwintering temperatures had lower body weights than bees in cold overwintering temperatures (exception of male O. cornuta). Among specimens that experienced the same overwintering temperatures, small and light bees emerged later than their larger and heavier conspecifics. Using a simple mechanistic model we demonstrated that spring-emerging solitary bees use a strategic approach and emerge at a date that is most promising for their individual fitness expectations. Our results suggest that warmer overwintering temperatures reduce bee fitness by causing a decrease in body weight at emergence. We showed furthermore that in order to adjust their emergence dates, bees use not only temperature but also their individual body condition as triggers. This may explain differing responses to climate warming within and among bee populations and may have consequences for bee-plant interactions as well as for the persistence of bee populations under climate change.

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Averting robo-bees: why free-flying robotic bees are a bad idea

Emerging Topics in Life Sciences ◽

10.1042/etls20190063 ◽

2019 ◽

Vol 3 (6) ◽

pp. 723-729

Author(s):

Roslyn Gleadow ◽

Jim Hanan ◽

Alan Dorin

Keyword(s):

Climate Change ◽

Computer Simulation ◽

Food Security ◽

European Countries ◽

Plant Interactions ◽

Plant Insect Interactions ◽

Native Habitat ◽

Insect Pollinators ◽

Insect Interactions

Food security and the sustainability of native ecosystems depends on plant-insect interactions in countless ways. Recently reported rapid and immense declines in insect numbers due to climate change, the use of pesticides and herbicides, the introduction of agricultural monocultures, and the destruction of insect native habitat, are all potential contributors to this grave situation. Some researchers are working towards a future where natural insect pollinators might be replaced with free-flying robotic bees, an ecologically problematic proposal. We argue instead that creating environments that are friendly to bees and exploring the use of other species for pollination and bio-control, particularly in non-European countries, are more ecologically sound approaches. The computer simulation of insect-plant interactions is a far more measured application of technology that may assist in managing, or averting, ‘Insect Armageddon' from both practical and ethical viewpoints.

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