Search results for "Proboscis"

showing 3 items of 13 documents

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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Patterns of trunk spine growth in two congeneric species of acanthocephalan: investment in attachment may differ between sexes and species.

2012

SUMMARYAcanthocephalans have evolved a hooked proboscis and some taxa have trunk spines to attach to their definitive hosts. These structures are generated before being used, thus a key question is how investment in attachment could optimally be allocated through the ontogeny. The number and arrangement of hooks and spines are never modified in the definitive host, but it is unclear whether these structures grow during adult development. A comparison of the size of trunk spines between cystacanths and adults of Corynosoma cetaceum and C. australe indicated that spines grow in both species, but only in females, which also had significantly larger spines than males. This sexual dimorphism did…

musculoskeletal diseasesMaleOntogenyDolphinsZoologyFlounderAcanthocephalaHost-Parasite InteractionsSpecies SpecificityAnimalsBody SizeSex CharacteristicsbiologyEcologyProboscismusculoskeletal systembiology.organism_classificationTrunkSpineSea LionsSexual dimorphismSpine (zoology)Infectious DiseasesPerchesKey (lock)Animal Science and ZoologyParasitologyFemaleAllometryHelminthiasis AnimalAcanthocephalaParasitology
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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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