In response to the pressures of predation, parasitism and competition for limited resources, several groups of (mainly) tropical bees and wasps have independently evolved a nocturnal lifestyle. Like their day-active (diurnal) relatives, these insects possess apposition compound eyes, a relatively light-insensitive eye design that is best suited to vision in bright light. Despite this, nocturnal bees and wasps are able to forage at night, with many species capable of flying through a dark and complex forest between the nest and a foraging site, a behaviour that relies heavily on vision and is limited by light intensity. In the two best-studied species - the Central American sweat bee Megalopta genalis (Halictidae) and the Indian carpenter bee Xylocopa tranquebarica (Apidae) - learned visual landmarks are used to guide foraging and homing. Their apposition eyes, however, have only around 30 times greater optical sensitivity than the eyes of their closest diurnal relatives, a fact that is apparently inconsistent with their remarkable nocturnal visual abilities. Moreover, signals generated in the photoreceptors, even though amplified by a high transduction gain, are too noisy and slow to transmit significant amounts of information in dim light. How have nocturnal bees and wasps resolved these paradoxes? Even though this question remains to be answered conclusively, a mounting body of theoretical and experimental evidence suggests that the slow and noisy visual signals generated by the photoreceptors are spatially summed by second-order monopolar cells in the lamina, a process that could dramatically improve visual reliability for the coarser and slower features of the visual world at night.
Download full-text PDF |
Source |
|---|---|
| http://dx.doi.org/10.1242/jeb.015396 | DOI Listing |
Publication Analysis
Top Keywords
Similar Publications
The eusocial non-code: Unveiling the impact of noncoding RNAs on Hymenoptera eusocial evolution.
Noncoding RNA Res
April 2025
Institute of Environmental and Agricultural Biology (X-BIO), Tyumen State University, 625003, Tyumen, Russia.
Eusociality, characterized by reproductive division of labor, cooperative brood care, and multi-generational cohabitation, represents a pinnacle of complex social evolution, most notably manifested within the Hymenoptera order including bees, ants, and wasps. The molecular underpinnings underlying these sophisticated social structures remain an enigma, with noncoding RNAs (ncRNAs) emerging as crucial regulatory players. This article delves into the roles of ncRNAs in exerting epigenetic control during the development and maintenance of Hymenopteran eusociality.
View Article and Find Full Text PDFFirst record of Halictoxenos Pierce (Strepsiptera: Stylopidae) from Mexico with the description of a new species parasite of Lasioglossum exiguum (Smith) (Hymenoptera: Halictidae).
Zootaxa
September 2024
Red de Ecología Funcional; Instituto de Ecología AC; Carretera Antigua a Coatepec 351; El Haya; 91073 Xalapa; Veracruz; México.
Halictoxenos is a genus of parasites with a mainly holarctic distribution and exclusive parasite of bees of the Halictinae subfamily. In this work, we describe a new species from Mexico, parasite of the halictid Lasioglossum exiguum and with a known distribution in locations of central and southern Veracruz. The delimitation of this species is supported by morphological and molecular evidence.
View Article and Find Full Text PDFA remarkable Cornish site for ground-nesting bees and wasps.
Biodivers Data J
November 2024
Treveth, Lamorna, Penzance, United Kingdom Treveth Lamorna, Penzance United Kingdom.
Article Synopsis
- The south coast of the UK has diverse habitats that support ground-nesting aculeate wasps and bees, primarily in sandy areas.
- A unique transition zone between Hard Cliff and Maritime Heath at Carn Du, Cornwall, showed a high diversity of over twenty species of these insects.
- The study, conducted in summer 2024, details the nesting species found and includes field photographs for illustration.
Genome Structure, Evolution, and Host Shift of .
Biology (Basel)
November 2024
Department of Pathobiology, College of Veterinary Medicine, Auburn University, Auburn, AL 36849, USA.
Article Synopsis
- The text discusses a diverse group of unicellular fungi that live as obligate symbionts in various arthropods, particularly targeting species like bees and butterflies.
- It highlights that these fungi have experienced significant genome reduction, losing many genes essential for free-living yeast, notably lacking those related to energy production and showing diminished endocytosis-related genes.
- The study uncovers specific genetic motifs linked to gene expression and reveals interesting phylogenomic insights, including host-switching events, which could inform strategies for managing these pathogens.
Comparative Assessment of the Allergenicity of Hyaluronidases from (Pol d 2), (Ves v 2), and Venom (Api m 2).
Toxins (Basel)
November 2024
Center of Allergy and Environment (ZAUM), Technical University of Munich, School of Medicine and Health & Helmholtz Munich, German Research Center for Environmental Health, 85764 Munich, Germany.
Article Synopsis
- * Key allergens evaluated include hyaluronidases from honey bee (Api m 2), European paper wasp (Pol d 2), and yellow jackets (Ves v 2.0101 and Ves v 2.0201), with sensitization rates among patients varying significantly.
- * Results show that individuals primarily sensitized to Api m 2 have minimal cross-reactivity with other venoms, while those sensitized to other allergens may react to Api m 2, emphasizing the importance of identifying the primary allergen for effective
Want AI Summaries of new PubMed Abstracts delivered to your In-box?
Enter search terms and have AI summaries delivered each week - change queries or unsubscribe any time!