Eom Junho, Wood Chris M
Department of Zoology, University of British Columbia, Vancouver, British Columbia, Canada.
Bamfield Marine Sciences Centre, Bamfield, British Columbia, Canada.
J Fish Biol. 2019 Feb;94(2):261-276. doi: 10.1111/jfb.13885. Epub 2019 Jan 8.
We made anatomical and physiological observations of the breathing mechanisms in Pacific hagfish Eptatretus stoutii, with measurements of nostril flow and pressure, mouth and pharyngo-cutaneous duct (PCD) pressure and velum and heart impedance and observations of dye flow patterns. Resting animals frequently exhibit spontaneous apnea. During normal breathing, water flow is continuous at a high rate (~125 ml kg min at 12°C) powered by a two-phase unidirectional pumping system with a fast suction pump (the velum, ~22 min ) for inhalation through the single nostril and a much slower force pump (gill pouches and PCD ~4.4 min ) for exhalation. The mouth joins the pharynx posterior to the velum and plays no role in ventilation at rest or during swimming. Increases in flow up to >400 ml kg min can be achieved by increases in both velum frequency and stroke volume and the ventilatory index (product of frequency x nostril pressure amplitude) provides a useful proxy for ventilatory flow rate. Two types of coughing (flow reversals) are described. During spontaneous swimming, ventilatory pressure and flow pulsatility becomes synchronised with rhythmic body undulations.
我们对太平洋盲鳗(Eptatretus stoutii)的呼吸机制进行了解剖学和生理学观察,测量了鼻孔流量和压力、口腔和咽皮管(PCD)压力、软腭和心脏阻抗,并观察了染料流动模式。静止的动物经常出现自发性呼吸暂停。在正常呼吸过程中,水流以高速持续流动(12°C时约为125毫升/千克·分钟),由一个两相单向泵系统驱动,其中快速抽吸泵(软腭,约22次/分钟)用于通过单个鼻孔吸入,而较慢的压力泵(鳃囊和PCD,约4.4次/分钟)用于呼气。口腔在软腭后方与咽部相连,在静止或游泳时对通气不起作用。通过增加软腭频率和冲程容积,流量可增加至>400毫升/千克·分钟,通气指数(频率×鼻孔压力幅度的乘积)为通气流量提供了一个有用的指标。描述了两种咳嗽类型(流量逆转)。在自发游泳过程中,通气压力和流量的脉动与有节奏的身体波动同步。
