Carlos Pinilla Cruz scite author profile

El abejorro nativo Bombus atratus tiene una amplia distribución geográfica, está adaptado a diferentes condiciones ambientales y ha demostrado ser una especie muy eficiente en la polinización de diferentes cultivos. El grupo de Biodiversidad y Ecología de Abejas Silvestres (BEAS) ha venido desarrollando estudios básicos y aplicados para la utilización de esta especie y más recientemente se ha interesado en el desarrollo de metodologías para conseguir mejores resultados para su cría en mayor escala. En este momento se ha establecido un modelo experimental de cría, combinando las condiciones de campo e invernadero, donde, bajo prácticas agroecológicas, exista una oferta de alimento permanente, conservando una alta riqueza floral, abriendo la posibilidad de mantener allí simultáneamente otras especies nativas del género Bombus. Este es el concepto de Bombinario, que es un área física destinada a la cría de especies de Bombus, ubicada en el Campus de la Universidad Militar Nueva Granada en Cajicá. Está se proyecta como un área de investigación, docencia y proyección a la comunidad en temas de bionomía, ecología y comportamiento de los abejorros nativos, y de aspectos aplicados relacionados con la ecología de la polinización, manejo de los cultivos florales y cría de los abejorros. El proceso de desarrollo y creación del Bombinario es el objetivo de este trabajo.

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The Impact of the Honeybee Apis mellifera on the Organization of Pollination Networks Is Positively Related with Its Interactive Role throughout Its Geographic Range

Dáttilo

Cruz

Luna

et al. 2022

Diversity

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Studies at local spatial scales have shown that the generalist honeybee Apis mellifera L. can strongly affect the structural organization and properties of pollination networks. However, there is still little knowledge on how the connectivity of the honeybee within networks (i.e., interactive role) could affect pollination networks at a global scale. To fill this gap, we evaluated how the interactive role of A. mellifera could affect niche overlap, specialization, and robustness of pollination networks. We used 109 weighted pollination networks spread across about 94 degrees of latitude and 227 degrees of longitude. We developed a new standardized framework based on species removal to assess the impact of the honeybee on plant-pollinator networks. We found that when the honeybee was removed from the networks, plant species had less niche overlap (i.e., shared fewer interactions via their pollinators) and the networks became more specialized and more robust to species extinctions. Our findings indicate that A. mellifera’s effects on pollination networks vary geographically and could influence several ecological and evolutionary factors acting at local scales, including pollination services. We hope this contribution will stimulate new macroecological studies involving abundant and generalist species and their functional roles within ecological communities.

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Carlos Pinilla Cruz

Climate and human influence shape the interactive role of the honeybee in pollination networks beyond its native distributional range

Desarrollo de un Escenario de Campo para el Estudio de Especies Nativas de Abejorros (Bombus spp.) de los Andes Colombianos (Hymenoptera: Apidae)

The Impact of the Honeybee Apis mellifera on the Organization of Pollination Networks Is Positively Related with Its Interactive Role throughout Its Geographic Range

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