Larval lampreys possess a functional lateral line system

被引:0
作者
S. Gelman
A. Ayali
E. D. Tytell
A. H. Cohen
机构
[1] University of Maryland,Department of Biology
[2] University of Maryland,Institute for Systems Research
[3] Tel Aviv University,Department of Zoology
来源
Journal of Comparative Physiology A | 2007年 / 193卷
关键词
Lateral line; Mechanoreception; Neuromasts; Ammocoetes; Locomotion;
D O I
暂无
中图分类号
学科分类号
摘要
Morphology of larval lampreys’ neuromasts was found to be very similar to that of adults. Activity in the lateral line nerve, elicited by a vibrating ball, indicated a functional lateralis system. Analysis revealed at least two populations of afferents, responding to opposite directions of water flow, with adapting responses. The response magnitude increased monotonically with stimulus amplitude. Larval lampreys’ neuromasts were less sensitive than those of teleosts. At low frequencies the response showed a phase lead of 200–220° with respect to the maximum of the ball displacement and a gain that was approximately linearly proportional to frequency.
引用
收藏
页码:271 / 277
页数:6
相关论文
共 50 条
  • [31] Evolution of gnathostome lateral line ontogenies
    Northcutt, RG
    BRAIN BEHAVIOR AND EVOLUTION, 1997, 50 (01) : 25 - 37
  • [32] Pattern formation in the lateral line of zebrafish
    Gompel, N
    Cubedo, N
    Thisse, C
    Thisse, B
    Dambly-Chaudière, C
    Ghysen, A
    MECHANISMS OF DEVELOPMENT, 2001, 105 (1-2) : 69 - 77
  • [33] Lateral line system in the triplefin Enneapterygius etheostomus (Perciformes: Tripterygiidae): new implications for taxonomic studies
    Masanori Nakae
    Eri Katayama
    Ryu Asaoka
    Manami Hirota
    Kunio Sasaki
    Ichthyological Research, 2012, 59 : 268 - 271
  • [34] Lateral line system in the triplefin Enneapterygius etheostomus (Perciformes: Tripterygiidae): new implications for taxonomic studies
    Nakae, Masanori
    Katayama, Eri
    Asaoka, Ryu
    Hirota, Manami
    Sasaki, Kunio
    ICHTHYOLOGICAL RESEARCH, 2012, 59 (03) : 268 - 271
  • [35] Changes in distribution of serotonin induced by spinal injury in larval lampreys: Evidence from immunohistochemistry and HPLC
    Cohen, AH
    Abdelnabi, M
    Guan, L
    Ottinger, MA
    Chakrabarti, L
    JOURNAL OF NEUROTRAUMA, 2005, 22 (01) : 172 - 188
  • [36] Morphology of the mechanosensory system of the lateral line system in Zearaja chilensis (Batoidea: Rajidae)
    Saez, Sylvia
    Lamilla, Julio
    Pequeno, German
    REVISTA DE BIOLOGIA MARINA Y OCEANOGRAFIA, 2014, 49 (01): : 55 - 59
  • [37] The ontogeny of the lateral line system in Telmatobius atacamensis (Anura, Telmatobiidae)
    Quinzio, Silvia I.
    JOURNAL OF MORPHOLOGY, 2020, 281 (01) : 4 - 16
  • [38] Flow field perception based on the fish lateral line system
    Jiang, Yonggang
    Ma, Zhiqiang
    Zhang, Deyuan
    BIOINSPIRATION & BIOMIMETICS, 2019, 14 (04)
  • [39] Cell proliferation in the developing lateral line system of zebrafish embryos
    Laguerre, L
    Soubiran, F
    Ghysen, A
    König, N
    Dambly-Chaudière, C
    DEVELOPMENTAL DYNAMICS, 2005, 233 (02) : 466 - 472
  • [40] The roles of vision and the lateral-line system in Sacramento splittail's fish-screen avoidance behaviors: Evaluating vibrating screens as potential fish deterrents
    Mussen, Timothy D.
    Cech, Joseph J., Jr.
    ENVIRONMENTAL BIOLOGY OF FISHES, 2013, 96 (08) : 971 - 980
12345