Hammond L, Altringham J D, Wardle C S
School of Biology, University of Leeds, Leeds LS2 9JT, UK.
J Exp Biol. 1998 May;201(Pt 10):1659-71. doi: 10.1242/jeb.201.10.1659.
Strain and activity patterns were determined during slow steady swimming (tailbeat frequency 1.5-2.5 Hz) at three locations on the body in the slow myotomal muscle of rainbow trout Oncorhynchus mykiss using sonomicrometry and electromyography. Strain was independent of tailbeat frequency over the range studied and increased significantly from +/-3.3 % l0 at 0.35BL to +/-6 % at 0.65BL, where l0 is muscle resting length and BL is total body length. Muscle activation occurred significantly later in the strain cycle at 0.35BL (phase shift 59 degrees) than at 0.65BL (30 degrees), and the duration of activity was significantly longer (211 degrees at 0.35BL and 181 degrees at 0.65BL). These results differ from those of previous studies. The results have been used to simulate in vivo activity in isolated muscle preparations using the work loop technique. Preparations from all three locations generated net positive power under in vivo conditions, but the negative power component increased from head to tail. Both kinematically, and in the way its muscle functions to generate hydrodynamic thrust, the rainbow trout appears to be intermediate between anguilliform swimmers such as the eel, which generate thrust along their entire body length, and carangiform fish (e.g. saithe Pollachius virens), which generate thrust primarily at the tail blade.
利用超声微测技术和肌电图,在虹鳟鱼(Oncorhynchus mykiss)慢速肌节肌的身体三个位置,测定了其在缓慢稳定游泳(摆尾频率1.5 - 2.5赫兹)时的应变和活动模式。在所研究的频率范围内,应变与摆尾频率无关,且从0.35倍体长(BL)处的±3.3%初始长度(l0)显著增加到0.65倍体长处的±6%,其中l0为肌肉静息长度,BL为鱼体全长。肌肉激活在应变周期中出现在0.35倍体长处(相移59度)比在0.65倍体长处(30度)显著更晚,并且活动持续时间显著更长(0.35倍体长处为211度,0.65倍体长处为181度)。这些结果与先前的研究不同。这些结果已被用于使用功环技术模拟离体肌肉制剂中的体内活动。来自所有三个位置的制剂在体内条件下产生净正功率,但负功率分量从头至尾增加。在运动学上,以及在其肌肉产生水动力推力的方式上,虹鳟鱼似乎介于鳗形游泳者(如鳗鱼,其在整个身体长度上产生推力)和鲹形鱼类(如绿青鳕Pollachius virens,其主要在尾叶产生推力)之间。
