Zoological Laboratory, Rutgers College, New Brunswick.
J Gen Physiol. 1924 May 20;6(5):531-9. doi: 10.1085/jgp.6.5.531.
Larvae of Tenebrio while creeping show homostrophic responses, and stereotropic orientation to lateral contacts. Homostrophic orientation is inhibited by stereotropism. Both depend upon the anterior portion of the central nervous system. Stereotropic orientation due to unilateral contact, particularly at the anterior end, persists briefly after the cessation of the contact. Equal posterior bilateral contact of the body obliterates stereotropic bending. Unequal posterior bilateral contacts lead to orientation through an angle roughly proportional to the differences in contact areas. Functional symmetry in such responses is not disturbed by asymmetrical distribution of the body "hairs." The stereotropic orientation undergoes reversal of direction, central in origin, when the stimulation is sufficiently intense. Stereotropic response, leading to maintained lateral contact with a surface or to bending when the end of such a surface has been passed, is inhibited by a definite intensity of light. These findings (1) round out the demonstration that stereotropism is truly of a tropistic character, and (2) make possible the understanding of conduct in a case involving the participation of contact stimulation, phototropism, temperature, and homostrophy.
黄粉虫幼虫在爬行时表现出同向性反应和对侧向接触的向地性取向。同向性反应被向地性取向所抑制。两者都依赖于中枢神经系统的前部。由于单侧接触,特别是在前部,引起的向地性取向在接触停止后短暂持续。身体后部双侧相等的接触会消除向地性弯曲。身体后部双侧不等的接触会导致身体以大致与接触面积差异成比例的角度定向。这种反应的功能对称性不会因身体“毛发”的不对称分布而受到干扰。当刺激足够强烈时,向地性取向会发生源自中枢的方向反转。当接触表面的末端被越过时,导致与表面保持侧向接触或弯曲的向地性反应会被一定强度的光抑制。这些发现(1)充分证明了向地性确实具有向性特征,(2)使我们有可能理解在涉及接触刺激、向光性、温度和同向性参与的情况下的行为。