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dc.contributor.authorQuast, W.D.en_US
dc.contributor.otheren_US
dc.date.accessioned2010-02-15T17:04:15Z
dc.date.available2010-02-15T17:04:15Z
dc.date.issued1985en_US
dc.identifier.urihttp://hdl.handle.net/1969.3/21541
dc.description127 p., Dissertationen_US
dc.description.abstractGill ventilaiton in Aplysia californica is achieved by a stereotypic behavior pattern referred to as Respiratory Pumping (RP). The behavior consists of a rapidly sucessive contraction of the gill, siphon, mantle, and parapodia. This forces hemolymph, contained within the gill, into the heart and hemocoel while water surrounding the gill is displaced through the siphon. Upon relaxation, hemolymph refills the gill and fresh seawater returns to the mantle cavity. RP activity in Aplysia californica has been described as an irregularly-occurring behavior which is responsive to extrinsic stimuli (mechanical, photic and chemical). There are, however, three forms of RP activity, 1) simple RP activity, that which responds strictly to metabolic and respiratory requirements, 2) elicited RP activity, that which is triggered by sensory input unrelated to respiratory demands, and 3) RP seizures a previously unrecognized form of RP behavior. The irregularity of RP is derived from the imposition of RP seizures and elicited RP into the regularly-occurring simple RP activity. All RP behavior is nediated by neuronal activity arising in two clusters of autogenously firing nerve cells which rhythmically generate bursts of activity (8.5 bursts/hour invitro), and produce simple RP behavior at a low steady rate invivo (4.01 contractions/hour). Other forms of RP nehavior (i.e., elicited RP and RP seizures) are produced by sensory modulation of the pacemaker cell's androgenous rhythm. It was determined that D-lactate, a product of anaerobic glycolysis, profoundly increases the frequency of bursting from these cell clusters and concomitantly increases the rate of simple RP contractions. D-lactate concentrations in Aplysia hemolymph may be an important rate determining factor for simple RP activity during short-term exposure to hypoxic environmental conditions. The initiating mechanisms for the newly discovered behavior pattern, RP seizure, have not been identified. Some evidence suggests that the stimulus is blood-borne but not a product of anaerobiosis. The function of the Rp seizure is also unknown but the fact that it is produced by special modulation of the general neuronal mechanisms which modulate simple RP behavior, suggests that the two behaviors may have parallel physiological roles.en_US
dc.description.urihttp://gbic.tamug.edu/request.htmen_US
dc.publisherTexas A&M University.en_US
dc.relation.ispartofseries3749.00en_US
dc.relation.urien_US
dc.subjectmarine molluscsen_US
dc.subjectmarine organismsen_US
dc.subjectAplysia californicaen_US
dc.subjectgastropodsen_US
dc.subjectmolluscsen_US
dc.subjectrespirationen_US
dc.subjectneurophysiologyen_US
dc.subjectphysiologyen_US
dc.subjectmetabolismen_US
dc.titleRegulation of respiratory pumping activity in the marine gastropod mollusc Aplysia californica.en_US
dc.typeBooken_US
dc.placeCollege Station, Texasen_US
dc.seriesen_US
dc.vol-issueen_US
dc.locationGBIC Collectionen_US
dc.scaleen_US
dc.latitudeen_US
dc.longitudeen_US
dc.contract-noen_US
dc.notesen_US
dc.degreeen_US
dc.acquisition-srcen_US
dc.description-otheren_US
dc.universityen_US
dc.historyen_US
dc.call-noQL415.T4 Qu3 1985 GBAYen_US


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