0000000000351589

AUTHOR

Emily Baird

showing 3 related works from this author

Sensory Organ Investment Varies with Body Size and Sex in the Butterfly Pieris napi

2021

Simple Summary Pollinating insects rely on a range of senses such as vision, olfaction, gustation, and mechanosensation to utilise, locate, and fly between floral resources. The size of different sensory organs determines their sensitivity and provides an indication of their relative importance—larger organs can enhance sensitivity by increasing the number or size of sensing structures. However, increasing the relative size of an organ would require additional energy for developing and maintaining it. This likely leads to a trade-off between the energy invested into different sensory systems within individuals. To explore how the size of the sensory organs vary with body size in insect poll…

proboscislanttuperhonensensory systemSciencePieris napi<i>Pieris napi</i>QaistimeteyeArticleantennakuvantaminenmorfologiaröntgenkuvauskokosiivethyönteisetallometrybody sizewingsilmätInsects
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Stain-free virtual histology of Bombus terrestris compound eyes by laboratory phase-contrast nano-CT

2021

The visual systems of pollinating insects are studied to understand the effects of a changing environment, and are to date imaged using microscopy or micro-CT. Microscopy only allows two-dimensional imaging and conventional micro-CT requires heavy-metal staining of the samples. Here we present virtual histology of compound eyes of bumblebee (Bombus terrestris) using a laboratory nano-CT system. Propagation-based phase-contrast CT allows three-dimensional imaging of samples without using any staining. Micrometre-resolution images of the microanatomy of the eyes were reconstructed, and the features identified in CT (cornea, crystalline cones, pigment, photoreceptor cells, basement membrane) w…

Basement membranePathologymedicine.medical_specialtygenetic structuresbiologyChemistryHistologybiology.organism_classificationStaineye diseaseslaw.inventionStainingmedicine.anatomical_structurelawBombus terrestrisCorneaMicroscopymedicinesense organsElectron microscopeDevelopments in X-Ray Tomography XIII
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Laboratory phase‐contrast nanotomography of unstained Bombus terrestris compound eyes

2021

Imaging the visual systems of bumblebees and other pollinating insects may increase understanding of their dependence on specific habitats and how they will be affected by climate change. Current high-resolution imaging methods are either limited to two dimensions (light- and electron microscopy) or have limited access (synchrotron radiation x-ray tomography). For x-ray imaging, heavy metal stains are often used to increase contrast. Here, we present micron-resolution imaging of compound eyes of buff-tailed bumblebees (Bombus terrestris) using a table-top x-ray nanotomography (nano-CT) system. By propagation-based phase-contrast imaging, the use of stains was avoided and the microanatomy co…

HistologyMaterials sciencecompound eyesOsmium Tetroxidemedia_common.quotation_subjectSynchrotron radiation02 engineering and technologyPathology and Forensic Medicinelaw.inventionlaboratory nano-CT03 medical and health scienceschemistry.chemical_compoundNuclear magnetic resonancelawContrast (vision)AnimalsMicroscopy Phase-Contrasttietokonetomografia030304 developmental biologymedia_common0303 health sciencesbiologykimalaisetCompound eyeX-Ray MicrotomographybumblebeeBees021001 nanoscience & nanotechnologybiology.organism_classificationphase contrast systemkuvantaminenOsmium tetroxidechemistryTransmission electron microscopycomparisonBombus terrestrisTomographyElectron microscope0210 nano-technologyLaboratoriesTomography X-Ray ComputedSynchrotronssilmät
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