陈慕雁，等                                                                 水产学报, 2025, 49(7): 079102

              [  6  ]   Yoshida M, Ohtsuki H. The phototactic behavior of the starfish,  [18]   Kirwan J D, Bok M J, Smolka J, et al. The sea urchin Diadema
                    Asterias  Amurensis  Lütken[J].  The  Biological  Bulletin,  1968,  africanum uses low resolution vision to find shelter and deter
                    134(3): 516-532.                                enemies[J].  Journal  of  Experimental  Biology,  2018,  221(14):
              [  7  ]   Sumner-Rooney L, Kirwan J D, Lowe E, et al. Extraocular vis-  jeb176271.
                    ion in a brittle star is mediated by chromatophore movement in  [19]   Santos R, Haesaerts D, Jangoux M, et al. The tube feet of sea
                    response to ambient light[J]. Current Biology, 2020, 30(2): 319-  urchins and sea stars contain functionally different mutable col-
                    327. e4.                                        lagenous  tissues[J].  Journal  of  Experimental  Biology,  2005,
              [  8  ]   Garm A, Nilsson D E. Visual navigation in starfish: first evid-  208(12): 2277-2288.
                    ence for the use of vision and eyes in starfish[J]. Proceedings of  [20]   Seto J, Ma Y R, Davis S A, et al. Structure-property relation-
                    the  Royal  Society  B:  Biological  Sciences,  2014,  281(1777):  ships  of  a  biological  mesocrystal  in  the  adult  sea  urchin
                    20133011.                                       spine[J]. Proceedings of the National Academy of Sciences of
              [  9  ]   Petie R, Hall M R, Hyldahl M, et al. Visual orientation by the  the United States of America, 2012, 109(10): 3699-3704.
                    crown-of-thorns  starfish  (Acanthaster  planci)[J].  Coral  Reefs,  [21]   Yamamoto M, Yoshida M. Fine Structure of the ocelli of a syn-
                    2016, 35(4): 1139-1150.                         aptid holothurian, Opheodesoma spectabilis, and the effects of
              [10]   张继文, 田涛, 姜城, 等. 海燕视觉的初步研究    [J]. 安徽农学         light and darkness[J]. Zoomorphologie, 1978, 90(1): 1-17.
                    通报, 2019, 25(8): 48-52.                   [22]   Liu X L, Lin C G, Sun L N, et al. Behavioural response of dif-
                    Zhang J W, Tian T, Jiang C, et al. A preliminary study on the  ferent  epithelial  tissues  of  sea  cucumber  (Apostichopus
                    vision  of  Asteroidea[J].  Anhui  Agricultural  Science  Bulletin,  japonicus)  to  light  and  differential  expression  of  the  light-
                    2019, 25(8): 48-52 (in Chinese).                related  gene  Pax6[J].  Marine  and  Freshwater  Behaviour  and
              [11]   Mashanov V S, Zueva O R, Heinzeller T, et al. Ultrastructure of  Physiology, 2020, 53(2): 73-85.
                    the circumoral nerve ring and the radial nerve cords in holothur-  [23]   赵鹏, 杨红生, 孙丽娜. 仿刺参  (Apostichopus japonicus) 摄食
                    ians (Echinodermata)[J]. Zoomorphology, 2006, 125(1): 27-38.  和运动器官的结构与功能  [J]. 海洋通报, 2013, 32(2): 178-
              [12]   Mashanov  V  S,  Zueva  O  R,  Heinzeller  T,  et  al.  The  central  183.
                    nervous system  of  sea  cucumbers  (Echinodermata:   Holo-  Zhao P, Yang H S, Sun L N. Study on the structures and func-
                    thuroidea) shows positive immunostaining for a chordate glial  tions  of  feeding  and  locomotor  organs  of  sea  cucumber
                    secretion[J]. Frontiers in Zoology, 2009, 6(1): 11.  Apostichopus  japonicus[J].  Marine  Science  Bulletin,  2013,
              [13]   Nilsson D E. Eyes as optical alarm systems in fan worms and  32(2): 178-183 (in Chinese).
                    ark clams[J]. Philosophical Transactions of the Royal Society of  [24]   Vandenspiegel D, Flammang P, Fourmeau D, et al. Fine struc-
                    London. Series B: Biological Sciences, 1994, 346(1316): 195-  ture  of  the  dorsal  papillae  in  the  holothurioid  Holothuria  for-
                    212.                                            skali  (Echinodermata)[J].  Tissue  and  Cell,  1995,  27(4):  457-
              [14]   Petie R, Garm A, Hall M R. Crown-of-thorns starfish have true  465.
                    image forming vision[J]. Frontiers in Zoology, 2016, 13(1): 41.  [25]   Liu L H, Cong X, Wang X M, et al. Feeding and growth are
              [15]   Birk M H, Blicher M E, Garm A. Deep-sea starfish from the  regulated by light and opsins-mediated phototransduction in sea
                    Arctic have well-developed eyes in the dark[J]. Proceedings of  cucumber  Apostichopus  japonicus[J].  Aquaculture,  2025,  594:
                    the  Royal  Society  B:  Biological  Sciences,  2018,  285(1872):  741410.
                    20172743.                                 [26]   Aruga N, Hirose E. How to wear a sandy coat: secretory cells in
              [16]   Korsvig-Nielsen C, Hall M, Motti C, et al. Eyes and negative  the dorsal epidermis in the sea cucumber Holothuria atra (Ech-
                    phototaxis  in  juvenile  crown-of-thorns  starfish,  Acanthaster  inodermata:  Holothuroidea)[J].  Zoological  Science,  2021,
                    species complex[J]. Biology Open, 2019, 8(6): bio041814.  38(3): 252-258.
              [17]   Sumner-Rooney  L,  Rahman  I  A,  Sigwart  J  D,  et  al.  Whole-  [27]   Winarni D, Eridianti S A, Suhargo L, et al. Podia histology and
                    body  photoreceptor  networks  are  independent  of  ‘lenses’  in  ultrastructure of tropical sea cucumber Phyllophorus sp. (Phyl-
                    brittle stars[J]. Proceedings of the Royal Society B: Biological  lophoridae)  and  Colochirus  quadrangularis  (Cucumaridae)
                    Sciences, 2018, 285(1871): 20172590.            from Madura Strait, Indonesia[J]. Biodiversitas, 2023, 24(10):

              中国水产学会主办  sponsored by China Society of Fisheries                          https://www.china-fishery.cn
                                                            9