Thomas van de Kamp scite author profile

The extraordinary success of social insects is partially based on division of labour, i.e. individuals exclusively or preferentially perform specific tasks. Task preference may correlate with morphological adaptations so implying task specialization, but the extent of such specialization can be difficult to determine. Here, we demonstrate how the physical foundation of some tasks can be leveraged to quantitatively link morphology and performance. We study the allometry of bite force capacity in Atta vollenweideri leaf-cutter ants, polymorphic insects in which the mechanical processing of plant material is a key aspect of the behavioural portfolio. Through a morphometric analysis of tomographic scans, we show that the bite force capacity of the heaviest colony workers is twice as large as predicted by isometry. This disproportionate ‘boost’ is predominantly achieved through increased investment in muscle volume; geometrical parameters such as mechanical advantage, fibre length or pennation angle are likely constrained by the need to maintain a constant mandibular opening range. We analyse this preference for an increase in size-specific muscle volume and the adaptations in internal and external head anatomy required to accommodate it with simple geometric and physical models, so providing a quantitative understanding of the functional anatomy of the musculoskeletal bite apparatus in insects.

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Introducing Biomedisa as an open-source online platform for biomedical image segmentation

Lösel

et al. 2020

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We present Biomedisa, a free and easy-to-use open-source online platform developed for semi-automatic segmentation of large volumetric images. The segmentation is based on a smart interpolation of sparsely pre-segmented slices taking into account the complete underlying image data. Biomedisa is particularly valuable when little a priori knowledge is available, e.g. for the dense annotation of the training data for a deep neural network. The platform is accessible through a web browser and requires no complex and tedious configuration of software and model parameters, thus addressing the needs of scientists without substantial computational expertise. We demonstrate that Biomedisa can drastically reduce both the time and human effort required to segment large images. It achieves a significant improvement over the conventional approach of densely pre-segmented slices with subsequent morphological interpolation as well as compared to segmentation tools that also consider the underlying image data. Biomedisa can be used for different 3D imaging modalities and various biomedical applications.

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Evolution and systematics of the Aculeata and kin (Hymenoptera), with emphasis on the ants (Formicoidea: †@@@idae fam. nov., Formicidae)

Boudinot

Khouri

Richter

et al. 2022

Preprint

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Fossils not only provide unique opportunity to understand the "tempo and mode" of evolution but are essential for modeling lineage-contingent diversification histories. Here, we interrogate the Mesozoic fossil record of the Aculeata, with emphasis on the ants (Formicidae), and conduct an extended series of ancestral state estimation exercises on distributions of tip-dated combined-evidence phylogenies. We developed and illustrated from ground-up a set of 576 morphological characters which we scored for 144 extant and 431 fossil taxa; we used average posterior probability support to filter this to a target matrix of 303 taxa, for which we integrated strongly filtered ultraconserved element (UCE) data for 115 living species. We also implemented reversible jump MCMC (rjMCMC) and hidden state methods to model complex behavioral characters to test hypotheses about the pathway to obligate eusociality. In addition to revising the higher classification of all sampled groups to family or subfamily level using estimated character polarities to diagnose nodes across the phylogeny, we find that the mid-Cretaceous genera †Camelomecia and †Camelosphecia form a clade which is robustly supported as sister to the total clade Formicidae. For this reason, we name this extinct clade as †@@@idae fam. nov. and provide a definition for the expanded Formicoidea. Based on our results, we recognize three major phases in the early evolution of the ants: (1) origin of ants as running-adapted huntresses during the Late Jurassic in the "stinging aggressor" guild (Aculeata) among various lineages of "sneaking parasitoids" (non-aculeate Vespina); (2) the first formicoid radiation during the Early Cretaceous, by the end of which all major extant ant linages had originated; and (3) turnover of the Formicoidea at the end-Cretaceous leading to the second formicoid radiation, i.e., the Cenozoic formicid diversification. We conclude with a concentrated series of considerations for future directions of study with this dataset and beyond.

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In vivo X-ray cine-tomography for tracking morphological dynamics

Rolo

Ershov

Kamp

et al. 2014

Proc. Natl. Acad. Sci. U.S.A.

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Scientific cinematography using ultrafast optical imaging is a common tool to study motion. In opaque organisms or structures, X-ray radiography captures sequences of 2D projections to visualize morphological dynamics, but for many applications full four-dimensional (4D) spatiotemporal information is highly desirable. We introduce in vivo X-ray cine-tomography as a 4D imaging technique developed to study real-time dynamics in small living organisms with micrometer spatial resolution and subsecond time resolution. The method enables insights into the physiology of small animals by tracking the 4D morphological dynamics of minute anatomical features as demonstrated in this work by the analysis of fast-moving screw-and-nut-type weevil hip joints. The presented method can be applied to a broad range of biological specimens and biotechnological processes.

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A versatile indirect detector design for hard X-ray microimaging

et al. 2012

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To cite this article: P-A Douissard et al 2012 JINST 7 P09016 View the article online for updates and enhancements. Related content Detection system for microimaging with neutrons S H Williams, A Hilger, N Kardjilov et al.-Characterisation of microfocused beam for synchrotron powder diffraction using a new X-ray camera C Thomas, J Potter, C C Tang et al.-Laminographic imaging using synchrotron radiation-challenges and opportunities Lukas Helfen, Feng Xu, Heikki Suhonen et al.-Recent citations Epitaxial growth of single crystalline film scintillating screens based on Eu3+ doped RAlO3 (R = Y, Lu, Gd, Tb) perovskites V. Gorbenko et al-Mixing instabilities during shearing of metals Mohsen Pouryazdan et al-A transmission and reflection coupled ultrasonic process tomography based on cylindrical miniaturized transducers using PVDF films J. Gu et al

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