Search results for "Phalangium opilio"

showing 3 items of 3 documents

Cover crop differentially affects arthropods, but not diseases, occurring on grape leaves in vineyards

2017

Background and Aims Cover crop has become a common management practice in viticulture. It improves the structure and protects the soil, enhances natural enemy populations and also reduces the vigour of the vine. Here, we investigated the effect of cover crop in vineyards on grapevine diseases and arthropods present on leaves. Methods and Results We measured the presence of the pathogens Plasmopara viticola, Uncinula necator and Guignardia bidwellii and monitored six common beneficial/pest arthropods: Panonychus ulmi, Orthotydeus lambi, Typhlodromus pyri, Scaphoideus titanus and Phalangium opilio in vineyards with cover crop or bare soil in 2014 and 2015. The density of the two pests P. ulmi…

0106 biological sciences2. Zero hungerIntegrated pest managementUncinula necatoreducation.field_of_studyPanonychus ulmibiologyPopulation15. Life on landHorticulturebiology.organism_classification01 natural sciencesPhalangium opilioScaphoideus titanus010602 entomologyHorticultureAgronomyPEST analysisCover cropeducation010606 plant biology & botanyAustralian Journal of Grape and Wine Research
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Arachnid oenocytes: ecdysone synthesis in the legs of harvestmen (Opilionidae).

1981

Cells measuring up to 130 microns have been found in the proximal segments of the femora of all four pairs of walking legs in various species of harvestmen (Phalangium opilio, Leiobonum limbatum, Opilio parietinus, and Opilio ravennae). These cells exhibit all the fine-structural characteristics of insect oenocytes, in particular the conspicuous agranular endoplasmic reticulum. Radioimmunoassay after in vitro incubation of these cells has demonstrated the synthesis of alpha- and beta-ecdysone. These ecdysteroids have been found in the ovaries and tergites of the opisthosoma as well as in the oenocytes.

ArachnidEcdysoneHistologybiologyOpilio parietinusOpisthosomamedia_common.quotation_subjectSpidersCell BiologyAnatomyInsectIn vitro incubationbiology.organism_classificationEndoplasmic ReticulumPhalangium opilioPathology and Forensic MedicineAnimalsFemurOpilioEcdysone synthesismedia_commonCell and tissue research
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Behavioral roles of the sexually dimorphic structures in the male harvestman, Phalangium opilio (Opiliones, Phalangiidae)

2006

Abstract: In various animal species, male sexual dimorphic characters may be used during intrasexual contests as ornaments to attract females, or to hold them before, during, or after copulation. In the well-known harvestman, Phalangium opilio L., 1758, the behavioral functions of these male sexually dimorphic structures have never been studied in detail. Therefore, in addition to a morphometric study, 21 male contests and 43 sexual interactions were analyzed. Our observations revealed that during contests, the male cheliceral horns form a surface by which the contestants use to push each other face-to-face while rapidly tapping their long pedipalps against the pedipalps of the opponent, oc…

Sexual dimorphismbiologySexual behaviorPhalangiidaeAgonistic behaviourZoologyAnimal Science and ZoologyOpilionesAnatomyMatingbiology.organism_classificationEcology Evolution Behavior and SystematicsPhalangium opilioCanadian Journal of Zoology
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