Recurso polínico y ciclo estacional de Thygater aethiops (Hymenoptera: Apidae) en un ambiente urbano (Bogotá-Colombia)

Pinilla-Gallego, Mario S; Nieto, Valentina Cardona; Nates‐Parra, Guiomar

doi:10.15517/rbt.v64i3.20909

Cited by 3 publications

(4 citation statements)

References 19 publications

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“…Information on the biology of these bumble bees is limited, except for B. pauloensis that has been more intensively studied in Brazil. However, during the last two decades, B. pauloensis has been studied in Colombia for its promising use in greenhouse tomato pollination, but it is only raised in captivity at commercial scale in Argentina (Gonzalez et al, 2004 ; Pinilla‐Gallego et al, 2016 ). Bombus pauloensis , and to some degree B. hortulanus , is typically associated with transformed habitats in Colombia while the other two species are primarily found in areas with more preserved vegetation (Gonzalez et al, 2004 ; Pinilla‐Gallego et al, 2016 ).…”

Section: Methodsmentioning

confidence: 99%

High thermal tolerance in high‐elevation species and laboratory‐reared colonies of tropical bumble bees

Gonzalez

Oyen

Aguilar-Benavides

et al. 2022

Ecology and Evolution

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Bumble bees are key pollinators with some species reared in captivity at a commercial scale, but with significant evidence of population declines and with alarming predictions of substantial impacts under climate change scenarios. While studies on the thermal biology of temperate bumble bees are still limited, they are entirely absent from the tropics where the effects of climate change are expected to be greater. Herein, we test whether bees' thermal tolerance decreases with elevation and whether the stable optimal conditions used in laboratory‐reared colonies reduces their thermal tolerance. We assessed changes in the lower (CT Min ) and upper (CT Max ) critical thermal limits of four species at two elevations (2600 and 3600 m) in the Colombian Andes, examined the effect of body size, and evaluated the thermal tolerance of wild‐caught and laboratory‐reared individuals of Bombus pauloensis . We also compiled information on bumble bees' thermal limits and assessed potential predictors for broadscale patterns of variation. We found that CT Min decreased with increasing elevation, while CT Max was similar between elevations. CT Max was slightly higher (0.84°C) in laboratory‐reared than in wild‐caught bees while CT Min was similar, and CT Min decreased with increasing body size while CT Max did not. Latitude is a good predictor for CT Min while annual mean temperature, maximum and minimum temperatures of the warmest and coldest months are good predictors for both CT Min and CT Max . The stronger response in CT Min with increasing elevation, and similar CT Max , supports Brett's heat‐invariant hypothesis, which has been documented in other taxa. Andean bumble bees appear to be about as heat tolerant as those from temperate areas, suggesting that other aspects besides temperature (e.g., water balance) might be more determinant environmental factors for these species. Laboratory‐reared colonies are adequate surrogates for addressing questions on thermal tolerance and global warming impacts.

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Section: Methodsmentioning

confidence: 99%

High thermal tolerance in high‐elevation species and laboratory‐reared colonies of tropical bumble bees

Gonzalez

Oyen

Aguilar-Benavides

et al. 2022

Ecology and Evolution

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“…Bombus funebris is an Andean species distributed from Colombia to northern Chile (Rasmussen 2003). This bumblebee species is found from 600 up to 4750 m asl (Rasmussen 2003;Pinilla-Gallego et al 2016). Nevertheless, B. funebris reaches its peak of abundance between 2800 and 3800 m (Pinilla-Gallego et al 2016), an elevation range that overlaps that of the páramos ecosystems in the northern Andes (usually above 3500 m and below the snowline; Sklenář et al 2014).…”

mentioning

confidence: 99%

“…This bumblebee species is found from 600 up to 4750 m asl (Rasmussen 2003;Pinilla-Gallego et al 2016). Nevertheless, B. funebris reaches its peak of abundance between 2800 and 3800 m (Pinilla-Gallego et al 2016), an elevation range that overlaps that of the páramos ecosystems in the northern Andes (usually above 3500 m and below the snowline; Sklenář et al 2014). Although it is a common bumblebee species in the inter-Andean valleys (Rasmussen 2003), knowledge about its biology and ecological interactions, such as the flowers they pollinate, is still very limited.…”

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confidence: 99%

Scientific note: Phoretic interaction between Antherophagus (Coleoptera) and Bombus funebris (Hymenoptera), using Chuquiraga jussieui (Asteraceae) as transfer stations in the páramos

Martel,

Cifuentes,

Cuesta

et al. 2024

Apidologie

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Beetles of the genus Antherophagus are phoretic organisms that inhabit the nests of Bombus species. They migrate and colonize new nests using the same bumblebees as carriers. Although Antherophagus beetles from temperate Europe and North America are known to use some plant species to move between bumblebees, it is unknown which plants are used as transfer stations by neotropical Antherophagus. Here, we report for the first time how phoretic Antherophagus beetles of an undescribed species use the inflorescences of Chuquiraga jussieui to transfer between individuals of Bombus funebris in the páramos of Central Ecuador. Our observations are the highest records (at 4200 m asl) of a phoretic interaction performed so far.

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“…En Colombia los estudios de abejas urbanas se han enfocado principalmente en las abejas sociales Meliponini y en sus hábitos de nidificación (Nates-Parra et al 2006b;Vélez-Ruiz et al 2013;Martínez et al 2017). Respecto a Bogotá se han descrito nuevas especies urbanas y se ha profundizado sobre los hábitos de nidificación y forrajeo de 21 de las 40 especies reportadas para la ciudad (González 2006;Nates-Parra et al 2006a;Tellez-Farfán y Posada-Flórez 2013;Pinilla-Gallego et al 2016;Rodríguez-C. et al 2019). Sin embargo, aún se requiere continuar con estudios de varias especies de abejas solitarias para conocer más sobre su biología y diseñar estrategias de conservación.…”

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Abejas como prestadoras de servicios ecosistémicos culturales: caso Jardín Botánico de Bogotá, Colombia

Rodríguez-C

García-M.

Currea-M.

2021

Rev. Colomb. Entomol.

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El propósito de este estudio fue evaluar el potencial de los domicilios artificiales para abejas solitarias y de esta manera explorar servicios ecosistémicos adicionales a la polinización. Se instalaron módulos artificiales en tres zonas del Jardín Botánico de Bogotá previamente seleccionadas. Se realizaron monitoreos semanales de junio (2017) a agosto (2019), un monitoreo exhaustivo cada seis meses y el análisis palinológico de 48 muestras recolectadas de los módulos. Sólo el módulo de páramo y bosque altoandino (33,3 %) presentó colonización por abejas (Megachile amparo, Megachile sp., Colletes sp. y Chilicola brooksi). Los materiales más usados como nidos fueron los bloques de madera perforada y los tubos de papel. La tasa de emergencia de nidos incubados fue mayor en Colletes sp. y no se observó un orden en la emergencia de hembras y machos, mientras que en M. amparo la emergencia de machos fue mayor. Las hembras de Colletes sp. presentaron la mayor colonización de nidos en elestudio. El análisis de polen de los nidos permitió evidenciar que Colletes sp. tiene tendencia a ser oligoléctica, mientras que M. amparo y C. brooksi son polilécticas. El bajo número deespecies que nidificó en estos módulos puede indicar un reducido potencial como estrategia deconservación, sin embargo, fueron herramientas útiles de investigación para conocer hábitos de especies con escasa o nula información. Los módulos permitieron tener interacciones experienciales, educativas, científicas y estéticas como formas de servicios ecosistémicos culturales, así como formular recomendaciones para considerar la pertinencia de su implementación.

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Recurso polínico y ciclo estacional de Thygater aethiops (Hymenoptera: Apidae) en un ambiente urbano (Bogotá-Colombia)

Cited by 3 publications

References 19 publications

High thermal tolerance in high‐elevation species and laboratory‐reared colonies of tropical bumble bees

High thermal tolerance in high‐elevation species and laboratory‐reared colonies of tropical bumble bees

Scientific note: Phoretic interaction between Antherophagus (Coleoptera) and Bombus funebris (Hymenoptera), using Chuquiraga jussieui (Asteraceae) as transfer stations in the páramos

Abejas como prestadoras de servicios ecosistémicos culturales: caso Jardín Botánico de Bogotá, Colombia

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