Abstract
Otoliths of five Hygophum species were examined by means of light and scanning electron microscopy. In otoliths of four species (H. benoiti, H. macrochir, H. reinhardtii and H. taaningi) a strong cyclic pattern of the incremental structure was observed. In the fifth species (H. hygomii) such a pattern did not exist. An analysis of archival data on mesopelagic collections suggested three types of Hygophum spp. migratory behavior in relation to the lunar cycle which corresponded with the otolith microstructure. In H. hygomii only limited influence of moon phase on the uppermost range of night-vertical migration toward the surface was observed. The abundant nighttime occurrence of this species moved from the 0 to 50 m into the 50 to 100 m depth strata at full moon. In H. benoiti, a great part of the population, mainly juveniles, showed a tendency toward cessation of the vertical migrations during the first and fourth quarters of the lunar cycle. H. macrochir and H. taaningi had the strongest correlation of behavior with the lunar cycle. Both species showed arrested vertical migrations at the new moon phase, staying at day depths during the night, i. e., below 400 m. Thus, sequences of clear growth increments in otoliths represented a fast-growth period associated with the night migration to the warm surface layers, while bands without easily distinguishable incremental structure were interpreted as a period of slow growth in deep, cold waters due to limitation of the upward migration range occurring approximately at new moon.
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Backus RH, Craddock JE (1977) Data report for Atlantic pelagic zoogeography. Tech Rep Woods Hole Oceanogr Instn: 77–4
Backus RH, Nafpaktitis BG, Craddock JE, Haedrich RL, Robison BH, Karnella C (1977) Family Myctophidae. Mem Sears Fdn mar Res 1(7): 266–297
Badcock J (1970) The vertical distribution of mesopelagic fishes collected on the SOND Cruise. J mar biol Ass UK 50: 1001–1044
Badcock J, Merrett NR (1976) Midwater fishes in the eastern North Atlantic. I. Vertical distribution and associated biology in 30°N, 23°W, with developmental notes on certain myctophids. Prog Oceanogr 7: 3–58
Boden BP, Kampa EM (1967) The influence of natural light on the vertical migrations of an animal community in the sea. Symp zool Soc Lond 19: 15–26
Brooks AL, Saenger RA (1991) Vertical size-depth distribution properties of midwater fish off Bermuda, with comparative reviews for other open ocean areas. Can J Fish aquat Sciences 48: 694–721
Brothers EB, Mathews CP, Lasker R (1976) Daily growth increments in otoliths from larval and adult fishes. Fish Bull, US 74: 1–8
Campana SE (1984) Lunar cycles of otolith growth in the juvenile starry flounder, Platichthys stellatus. Mar Biol 80: 239–246
Campana SE, Neilson JD (1985) Microstructure of fish otoliths. Can J Fish aquat Sciences 42: 1014–1032
Clarke GL (1970) Light conditions in the sea in relation to the diurnal vertical migration of animals. In: Farquhar GB (ed) Proceedings of an international symposium on biological sound cattering in the ocean. US Government Printing Office, Washington D.C., pp 41–50
Clarke TA (1973) Some aspects of the ecology of lanternfishes (Myctophidae) in the Pacific Ocean near Hawaii. Fish Bull, US 71: 401–434
Craddock JE, Backus RH, Daher MA (1987) Midwater fish data report for warm-core Gulf Stream rings cruises 1981–1982. Tech Rep Woods Hole Oceanogr Instn: 87–42
Craddock JE, Backus RH, Daher MA (1992) Vertical distribution and species composition of midwater fishes in warm-core Gulf Stream meander/ring 82-H. Deep-Sea Res 39 (Suppl 1): 203–218
Farbridge KJ, Leatherland JF (1987) Lunar periodicity of growth cycles in rainbow trout, Salmo gairdneri Richardson. J interdiscip Cycle Res 18: 169–177
Gartner JV Jr (1991) Life histories of three species of lanternfishes (Pisces: Myctophidae). I. Morphological and microstructural analysis of sagittal otoliths. Mar Biol 111: 11–20
Gartner JV Jr, Hopkins TL, Baird RC, Milliken DM (1987) The lanternfishes (Pisces: Myctophidae) of the eastern Gulf of Mexico. Fish Bull, US 85: 81–98
Gibson RN (1978) Lunar and tidal rhythms in fish. In: Thorpe JE (ed) Rhythmic activity of fishes. Academic Press, New York, pp 201–213
Giragosov VYe, Ovcharov OP (1992) Age and growth of the lanternfish, Myctophum nitidulum (Myctophidae), from the tropical Atlantic. Vop Ikhtiol 32 (2): 61–68
Gjösaeter H (1987) Primary growth increments in otoliths of six tropical myctophid species. Biol Oceanogr (NY) 4: 359–382
Goodyear RH, Zahuranec BJ, Pugh WL, Gibbs RH Jr (1972) Ecology and vertical distribution of Mediterranean midwater fishes. Mediterr biol Stud final Rep 1(3): 91–229
Grau EG, Dickhoff WW, Nishioka RS, Bern HA, Folmar LC (1981) Lunar phasing of the thyroxine surge preparatory to seaward migration of salmonid fish. Science, NY 211: 607–609
Hopkins TL, Gartner JV Jr (1992) Resource-partitioning and predation impact of a low-latitude myctophid community. Mar Biol 114: 185–197
Hulley PA (1981) Results of the research cruises of F.R.V. “Walter Herwig” to South America. LVIII. Family Myctophidae (Osteichthyes, Myctophiformes). Arch Fisch Wiss 31 (Beih 1): 1–300
Jones C (1986) Determining age of larval fish with the otolith increment technique. Fish Bull, US 84: 91–103
Karnella C (1987) Family Myctophidae, lanternfishes. In: Gibbs RH, Krueger WH (eds) Biology of midwater fishes of Bermuda Ocean Acre. Smithson Contr Zool 452: 51–168
Kavaliers M (1982) Endogenous lunar rhythm in the behavioural thermoregulation of a teleost fish, the white sucker, Catostomus commersoni. J interdiscip Cycle Res 13: 23–27
Linkowski TB (1987) Age and growth of four species of Electrona (Teleostei, Myctophidae). In: Kullander SO, Fernholm B (eds) Proceedings of the 5th Congress of European Ichthyologists. Stockholm, 12–16 August 1985. Swedish Museum of National History, Stockholm, pp 435–442
Linkowski TB, (1991) Otolith microstructure and growth patterns during the early life history of lanternfishes (family Myctophidae). Can J Zool 69: 1777–1792
Linkowski TB, Radtke RL, Lenz PH (1993) Otolith microstructure, age and growth of two species of Ceratoscopelus (Osteichthyes: Myctophidae) from the eastern North Atlantic. J exp mar Biol Ecol 167: 237–260
Loeb VJ (1979) Vertical distribution and development of larval fishes in the north Pacific central gyre during summer. Fish Bull, US 77: 777–793
Longhurst AR (1976) Vertical migration. In: Cushing DH, Walsh JJ (eds) The ecology of the seas. Saunders Company, Philadelphia, pp 116–137
Mugiya Y, Watabe N, Yamada J, Dean JM, Dunkelberger DG, Shimuzu M (1981) Diurnal rhythm in otolith formation in the goldfish, Carassius auratus. Comp Biochem Physiol 68A: 659–662
Nafpaktitis BG, Backus RH, Craddock JE, Haedrich RL, Robison BH, Karnella C (1977) Family Myctophidae. Mem Sears Fdn mar Res 1(7): 13–265
Neilson JD, Perry RI (1990) Diel vertical migrations of marine fishes: an obligate or facultative process? Adv mar Biol 26: 115–168
Neumann D (1981) Tidal and lunar rhythms. In: Aschoff J (ed) Handbook of behavioural neurobiology. Plenum Press, New York, pp 351–380
Nishimura A, Yamada J (1984) Age and growth of larval and juvenile walleye pollock, Theragra chalcogramma (Pallas), as determined by otolith daily growth increments. J exp mar Biol Ecol 82: 191–205
Ozawa T, Penaflor GC (1990) Otolith microstructure and early ontogeny of a myctophid species Benthosema pterotum. Nippon Suisan Gakk 56: 1987–1995
Pannella G (1971) Fish otoliths: daily growth layers and periodical patterns. Science, NY 172: 1124–1127
Pannella G (1974) Otolith growth pattern: an aid in age determination in temperate and tropical fishes. In: Bagenal TB (ed) The proceedings of an international symposium on the ageing of fish. Unwin Brothers, Surrey, England, pp 28–39
Pannella G (1980) Growth patterns in fish sagittae. In: Rhoads DC, Lutz RA (eds) Skeletal growth of aquatic organisms. Plenum Press, New York, pp 519–560
Pearcy WG, Lorz HV, Peterson W (1979) Comparison of the feeding habits of migratory and non-migratory Stenobrachius leucopsarus (Myctophidae). Mar Biol 51: 1–8
Radtke RL (1987) Information incorporated in Antarctic fish otoliths. In: Kullander SO, Fernholm B (eds) Proceedings of the 5th Congress of European Ichthyologists. Stockholm, 12–16 August 1985. Swedish Museum of National History, Stockholm, pp 421–425
Roe HSJ, Badcock J (1984) The diel migrations and distributions within a mesopelagic community in the North East Atlantic. 5. Vertical Migrations and feeding of fish. Prog Oceanogr 13: 389–424
Rosenberg AA (1982) Growth of juvenile English sole, Parophrys vetulus, in estuarine and open coastal nursery grounds. Fish Bull, US 80: 245–252
Spoel S van der, Schalk PH (1988) Unique deviations in depth distribution of the deep-sea fauna. Deep-Sea Res 35: 1185–1193
Tesch FW (1989) Changes in swimming depth and direction of silver eels (Anguilla anguilla L.) from the continental shelf to the deep sea. Aquat living Resour (Nantes) 2: 9–20
Torres JJ, Belman BW, Childress JJ (1979) Oxygen consumption rates of midwater fishes as a function of depth of occurrence. Deep-Sea Res 26A: 185–197
Volk EC, Schroder SL, Fresh KL (1990) Inducement of unique otolith banding patterns as a practical means to mass-mark juvenile Pacific salmon. Am Fish Soc Symp 7: 203–215
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Communicated by O. Kinne, Oldendorf/Luhe
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Linkowski, T.B. Lunar rhythms of vertical migrations coded in otolith microstructure of North Atlantic lanternfishes, genus Hygophum (Myctophidae). Marine Biology 124, 495–508 (1996). https://doi.org/10.1007/BF00351031
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DOI: https://doi.org/10.1007/BF00351031