@prefix cpm: . @prefix dc: . @prefix dcat: . @prefix dce: . @prefix dct: . @prefix grg: . @prefix iop: . @prefix ns0: . @prefix ns1: . @prefix owl: . @prefix pav: . @prefix prov: . @prefix puv: . @prefix qudt: . @prefix rdf: . @prefix rdfs: . @prefix reg: . @prefix semapv: . @prefix skos: . @prefix sssom: . @prefix void: . rdf:type skos:Concept ; dce:identifier "SDN:L22::TOOL1588" ; dc:date "2021-01-06 14:16:37.0" ; dc:identifier "SDN:L22::TOOL1588" ; pav:authoredOn "2021-01-06 14:16:37.0" ; pav:hasCurrentVersion ; pav:hasVersion ; pav:version "2" ; void:inDataset ; owl:deprecated "false" ; owl:versionInfo "2" ; skos:altLabel "McLane IFCB" , "McLane IFCB"@en ; skos:broader , ; skos:definition "An in-situ automated submersible imaging flow cytometer that generates images of particles in-flow taken from the aquatic environment. It can be used for bench top analysis as well as for pier and other wired deployments. Extended unattended deployments (6 to 9 months) are possible. The IFCB uses a combination of flow cytometric and video technology to capture high resolution images of suspended particles. Laser induced fluorescence and light scattering from individual particles are measured and used to trigger targeted image acquisition. Collected images during continuous monitoring can be processed externally with automated image classification software. Images can be classified to the genus or even species level. IFCB generates high resolution (~3.4 pixels/micron) images of suspended particles in the size range <10 to 150 µm. The instrument continuously samples at a rate of 15ml of sea water per hour. Depending on the target population the IFCB can generate on the order of 30 000 high resolution images per hour.It is depth rated to 40m."@en ; skos:inScheme ; skos:notation "SDN:L22::TOOL1588" ; skos:note "accepted"@en ; skos:prefLabel "McLane Research Laboratories Imaging FlowCytobot imaging sensor"@en ; skos:related , .