Search results for "Holdfast"

showing 5 items of 5 documents

Morphology, performance and attachment function in Corynosoma spp. (Acanthocephala)

2018

Background: Functional inference on the attachment of acanthocephalans has generally been drawn directly from morphology. However, performance of structures is often non-intuitive and context-dependent, thus performance analysis should be included whenever possible to improve functional interpretation. In acanthocephalans, performance analysis of attachment is available only for Acanthocephalus ranae, a species that solely relies on the proboscis to attach. Here we compare body morphology and muscle arrangement in 13 species of Corynosoma, which use their spiny body as a fundamental holdfast. A basic performance analysis using live cystacanths of two representative species is also provided.…

0301 basic medicineMaleEcomorphologyPerformanceEcomorphologyVideo RecordingAttachmentBiologyPolymorphidaeHost-Parasite InteractionsAcanthocephalalcsh:Infectious and parasitic diseasesPolymorphidaeCiencias Biológicas//purl.org/becyt/ford/1 [https]03 medical and health sciencesReceptacleAnimalsSeawaterlcsh:RC109-216//purl.org/becyt/ford/1.6 [https]HoldfastMammalsResearchMusclesProboscisECOMORPHOLOGYAnatomyZoología Ornitología Entomología Etología030108 mycology & parasitologyMUSCLEPERFORMANCEbiology.organism_classificationTrunkACANTHOCEPHALAPOLYMORPHIDAERetractorATTACHMENTInfectious DiseasesCorynosomaMicroscopy Electron ScanningMuscleParasitologyFemaleCORYNOSOMAHelminthiasis AnimalAcanthocephalaCIENCIAS NATURALES Y EXACTASParasites & Vectors
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Ultrastructure and Organization of the Cytoskeleton in Oxymonas, an Intestinal Flagellate of Termites

1997

ABSTRACT. Oxymonas has the characteristic structures and organization of other oxymonads including two separated pairs of basal bodies/flagella, a preaxostylar lamina, a paracrystalline axostyle, and an absence of mitochondria and Golgi. Like other Oxymonadinae genera it possesses a long proboscis, the rostellum which is terminated by the holdfast. Like the genera Pyrsonympha and Streblomastix, Oxymonas possesses a holdfast which permits it to attach to the cuticle of the termite hind-gut. This holdfast is subdivided into rhizoids and is filled with microfilaments. The rostellum is variable in length and contains two distinct microtubular bundles. One bundle is composed of convoluted microt…

HoldfastOxymonasOxymonadidabiologyMicrotubuleUltrastructureBasal bodyPyrsonymphaAnatomyAxostylebiology.organism_classificationMicrobiologyThe Journal of Eukaryotic Microbiology
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<p class="HeadingRunIn"><strong>Reinterpretation of the enigmatic Ordovician genus <em>Bolboporites </em>(Echinodermata)</…

2019

Bolboporites is an enigmatic Ordovician cone-shaped fossil, the precise nature and systematic affinities of which have been controversial over almost two centuries. For the first time, a wide range of techniques (CT-scan, SEM, cathodoluminescence, XPL, UV epifluorescence, EBSD, FT-IR and XRF spectrometry) were applied to well-preserved specimens of Bolboporites from Norway and Russia. Our main finding confirms its echinoderm affinities, as shown by its stereomic microstructure and by the first definitive evidence of its monocrystalline nature. Each cone consists in a single, microporous calcitic crystal with a narrow longitudinal internal canal. These results are combined with all previous …

HoldfastSpine (zoology)AppendagePaleontologybiologyEchinodermGenusOrdovicianBolboporitesbiology.organism_classificationAffinitiesGeologyZoosymposia
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The distinction betweenChondrophycus patentirameusandC. paniculatus(Ceramiales, Rhodophyta)

2000

The red algae Chondrophycus patentirameus (Montagne) Nam (‘patentiramea’) and L. paniculata (C. Agardh) J. Agardh were investigated on the basis of type material and recent collections. Both species show the following features: (i) production of two vegetative pericentral cells from each axial segment; (ii) absence of secondary pit connections between cortical cells; (iii) lack of projecting cortical cells near the apex; (iv) absence of lenticular thickenings in the walls of medullary cells; and (v) perpendicular arrangement of tetrasporangia, each of which is produced from the second pericentral cell in each fertile segment with no additional tetrasporangial pericentral cells. However, C. …

HoldfastbiologyLaurencia paniculataBotanyChondrophycusCeramialesPlant ScienceRed algaeAnatomyAquatic Sciencebiology.organism_classificationRhodomelaceaeEuropean Journal of Phycology
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Reduction and variability of trunk spines in the acanthocephalan Corynosoma cetaceum: the role of physical constraints on attachment

2005

. In this study, we investigated a functional trade-off between trunk attachment and trunk-spine development in the acanthocephalan Corynosoma cetaceum. The worms live attached to the stomach and upper intestine of their cetacean definitive hosts, using the proboscis and spiny foretrunk as the main holdfast; the spiny hindtrunk can also attach by bending ventrally. When the hindtrunk bends, ventral compression generates an anterior fold (AF) and a posterior fold (PF). A morphological analysis based on 7,823 individuals collected from 10 franciscana dolphins, Pontoporia blainvillei, revealed that spines were smaller and more variable in size and occurrence in the folds than on neighboring ar…

musculoskeletal diseasesHoldfastmedicine.medical_treatmentProboscisAnatomyFold (geology)Biologymusculoskeletal systemTrunkSpine (zoology)Morphological analysismedicineAnimal Science and ZoologyVestigialityReduction (orthopedic surgery)Invertebrate Biology
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