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Hidrobiológica
versión impresa ISSN 0188-8897
Hidrobiológica vol.17 no.3 Ciudad de México dic. 2007
Notas científicas
Ecological data for Myxine circifrons Garman, 1899 (Myxiniformes: Myxinidae) in the gulf of California, Mexico
Información ecológica de Myxine circifrons Garman, 1899 (Myxiniformes: Myxinidae) en el golfo de California, México
Michel E. Hendrickx1 and Philip A. Hastings2
(1) Unidad Académica Mazatlán, Laboratorio de Invertebrados Bentónicos, Instituto de Ciencias del Mar y Limnología, Universidad Nacional Autónoma de México, P. O. Box 811, Mazatlán, 82000, Sinaloa. michel@ola.icmyl.unam.mx)
(2) Marine Biology Research Division, Scripps Institution of Oceanography, University of California San Diego, 9500 Gilman Dr., La Jolla, CA 92093-0208.
Recibido: 19 de octubre de 2006
Aceptado: 5 de octubre de 2007
Abstract
Specimens of the hagfish Myxine circifrons Garman, 1899, were captured in traps in three sampling stations in the southern gulf of California, Mexico. There was no clear relation between oxygen concentration and hagfish abundance. This species appears to be tolerant of moderate (0.28-0.6 ml/l) hypoxia. Other species collected in the traps include Pandalus amplus (Bate, 1888) and Heterocarpus affinis Faxon, 1893, two relatively large species of Pandalidae, and Lebbeus scrippsi Wicksten and Méndez, 1982, a small-size Hippolytidae shrimp. Capture of pandalids was low when hagfish were abundant, thus indicating that competition between the fish and shrimps might prevent the latter to enter the trap.
Keywords: Myxine circifrons, Myxiniformes, gulf of California, Mexico, new records.
Resumen
Especimenes de mixínas (peces brujas), Myxine circifrons Garman, 1899, fueron capturados con trampas en tres estaciones de muestreo en el golfo de California, México. No se observó una relación clara entre la concentración de oxígeno y la abundancia de los especímenes. La especie parece ser tolerante a un ambiente moderadamente hipóxico (0.28-0.6 ml/L). Otras especies recolectadas con las trampas incluyeron los crustáceos Pandalus amplus (Bate, 1888) y Heterocarpus affinis Faxon, 1893, dos especies relativamente grandes de Pandalidae y a Lebbeus scrippsi Wicksten y Méndez, 1982, un camarón Hippolytidae de tamaño pequeño. La captura de pandálidos en las trampas fue baja cuando los peces bruja eran abundantes, indicando así que la competencia entre éstos y los camarones pudo impedir que estos últimos entraran en la trampa.
Palabras clave: Myxine circifrons, Myxiniformes, golfo de California, México, nuevos registros.
Hagfishes include approximately 70 species of jawless, eel-like chordates that are typically associated with muddy substrates and found in marine waters from a few meters to at least 2,700 m depth (Mincarone, 2001; Nelson, 2006). Their potential importance in marine communities is indicated by their often high biomass that has been estimated at over 8,000 kg km-2 for Myxine glutinosa Linnaeus, 1758 in the gulf of Maine (Martini et al., 1997). Increasing demand for hagfish skin in the South Korean market has brought increased pressure on the hagfish fishery in Canada and the USA, and revenues reached ca $100 million US in 1990 for this Asian country (Gorbman et al., 1990; Grey et al., 2006).
During a survey in the SE gulf of California to evaluate the potential of benthic traps to capture the caridean shrimp Heterocarpus affinis Faxon, 1893, a commercially interesting species that had been collected previously in the area using a benthic sledge (see Hendrickx, 2004), the hagfish Myxine circifrons Garman, 1899 was caught in approximately 75% of the traps. The genus Myxine includes 22 species of hagfishes, of which six have been recorded in the East Pacific (Wisner & McMillan, 1995; Mincarone, 2001; Møller et al., 2005). Two of these are found in the northern hemisphere of the East Pacific: M. circifrons and M. hubbsi (Wisner & McMillan, 1995). Herein we report on the abundance of M. circifrons and some environmental data measured during this survey.
A small series of deep-water traps (three at each station) were deployed in three field stations in April 2002 during the PANDAL Cruise to the gulf of California, Mexico by the R/V "El Puma" of the Instituto de Ciencias del Mar y Limnología, UNAM, using an anchor attached to 1.2 cm tick polyethylene cable and a double buoys system (King, 1987). Fish-heads were used as bait. Traps remained on the bottom for different periods of time due to navigation time restrictions. At each station, a CTD-O2 probe (Seabird SBE probe) attached to a Rosette sampler was submerged to approximately 10 m above the bottom; water samples were simultaneously collected with opening-closing bottles. Dissolved oxygen content was measured using duplicate samples following the Winkler method. Fish specimens were preserved onboard, measured in the laboratory (TL, total length ± 0.5 mm), and identified using the key in Wisner and McMillan (1995). Voucher material (SIO 05-83; ICMYL-353.01) was deposited at the Scripps Institution of Oceanography Marine Vertebrate Collection and the fish collection of the Unidad Académica Mazatlán, in Mazatlan, Mexico.
A total of 69 specimens of adult Myxine circifrons were captured in the 9 samples (3 traps at each of 3 stations). The smallest specimen was 312 mm TL and the largest 471 mm. Most specimens were found inside traps, but a few were found attached to the external walls when the traps were retrieved on deck. Collection details are as follows. Station 1 (24o17.36'N, 108o21.86'W), 1150 m, trap 1: 7 specimens (TL 312-455 mm); Station 2 (24o51.33'N, 108o57.37'W), 850 m: trap 1, 17 specimens (TL 395-472 mm), trap 2, 6 specimens (TL 378-450 mm); Station 3 (25o40.83'N, 109o54.38'W), 1435 m: trap 1, 16 specimens (TL 330-452 mm), trap 2, 6 specimens (TL 350-435 mm), trap 3, 17 specimens (TL 360-471 mm).
The number of specimens captured per trap varied considerably, from none (St. 1, two traps with no hagfish) to 17 specimens. Catch per station estimated for a standard 24-hour period was 3.9 specimens (St. 1), 9.2 (St. 3) and 31.3 specimens (St. 2) (Table 1). Dissolved oxygen measured close to the bottom level does not indicate any clear relation between oxygen concentration and hagfish abundance. Thus this species, like other hagfishes (e.g., Hansen & Sidell, 1983) appears to be tolerant of moderate (0.28-0.6 ml/L) hypoxia, but was also found in water with a higher oxygen concentration (St. 3, 1.15 ml/L). The oxygen concentrations measured in the sampling area correspond well with previous records in the region, with a remarkable increase starting at depth > 700-800 m after an almost anoxic zone (MOZ, Minimum Oxygen Zone) that extended roughly from 150 to 750 m (Hendrickx, 2001). Epibenthic water temperatures (from 3.0 to 5.3o C) were in agreement with standard depth distribution of water masses between 850 and 1,435 m in the SE gulf of California (Alvarez-Borrego, 1983).
Only a few other species were collected in the traps, including Pandalus amplus (Bate, 1888) and H. affinis, two relatively large species of Pandalidae with potentially high commercial market value (Holthuis, 1980; Hendrickx & Wicksten, 1989). The third species that incidentally appeared in the traps was Lebbeus scrippsi Wicksten and Méndez, 1982, a small-size Hippolytidae shrimp. Capture of pandalids were low when hagfish were abundant, thus indicating that the presence of the fish on the trap walls might prevent the shrimp from gaining access to the entrance and the bait. Videos recorded near baits show that hagfish and pandalids are the first species to reach the remains of dead fish and competition among these two groups might be intense. Interestingly, a record of M. circifrons from off Colombia was recently reported from similar traps targeting a related species, Heterocarpus hostilis Faxon, 1893 (Rubio et al., 2005). The co-occurrence of hagfishes with these targeted shrimp species indicates that development of these fisheries will need to take into account the interactions of hagfishes in the capture of these shrimp species.
Myxine circifrons is known from off San Francisco, USA, to Chile at depths between ca 700 and 1,860 m. Previous records for this species are provided by Wisner and McMillan (1995), and include four samples from the gulf of California obtained between 1,190 and 1,830 m depth (Table 2). Depth records obtained during this survey correspond to the known range. Myxine hubbsi, the second eastern Pacific species of the genus recorded in the northern hemisphere, is known from 33o N to 34o S, including two localities near Cabo San Lucas, Mexico, close to the western entrance of the gulf of California. The only other hagfish species recorded from the gulf of California are Eptatretus sinus (Wisner & McMillan 1990), known from the midriff islands area in depths of 198 to 1,330 m, and Eptatretus mcconnaugheyi Wisner and McMillan, 1990, recorded from near Isla Carmen in depths of 177-415 m (Wisner & McMillan, 1990).
Acknowledgments
The authors thank the staff and crew of the R/V "El Puma" who assisted during the sampling, D. Serrano for operating the CTD-O2, E. Zatarin and C. Esquer for providing Winkler measurements, H. J. Walker for curatorial assistance, S. Ibarra for measuring specimens and A. Galaviz for providing map of Figure 1.
References
ALVAREZ-BORREGO, S. 1983. gulf of California. In: B. K. H. Ketchum (Ed.). Ecosystems of the World. 26. Estuaries and enclosed seas. Elsevier Scientific Publishing Company. pp. 427-449. [ Links ]
GORBMAN, A., H. KOBAYASHI, Y. HONMA & M. MATSUYAMA. 1990. The hagfishery of Japan. Fisheries 15: 12-18. [ Links ]
GREY, M., A. BLAIS, B. HUNT & A. C. J. VINCENT. 2006. The USA's international trade in fish leather, from a conservation perspective. Environmental Conservation 2006: 1-9. [ Links ]
HANSEN, C. A. & B. D. SIDELL. 1983. Atlantic hagfish cardiac muscle: metabolic basis of tolerance of anoxia. American Journal of Physiology - Regulatory Integrative and Comparative Physiology 244: 356-362. [ Links ]
HENDRICKX, M. E. 2001. Occurrence of a continental slope decapod crustacean community along the edge of the minimum oxygen zone in the southeastern gulf of California, Mexico. Belgian Journal of Zoology 131 (Suppl. 2): 95-109. [ Links ]
HENDRICKX, M. E. 2004. Distribution and estimation of body size and weight of four species of deep water shrimps in the SE gulf of California, Mexico. Crustaceana 76: 1025-1036. [ Links ]
HENDRICKX, M. E. & M. K. WICKSTEN. 1989. Los Pandalidae (Crustacea: Caridea) del Pacífico mexicano, con una clave para su identificación. Caldasia (Colombia) 16: 71-86. [ Links ]
HOLTHUIS, L. B. 1980. FAO species catalogue. Vol. I. Shrimps and prawns of the world. An annotated catalogue of species of interest to fisheries. FAO Fisheries Synopses 1: 1-271. [ Links ]
KING, M. 1987. Distribution and ecology of deep-water caridean shrimps (Crustacea, Natantia) near tropical Pacific islands. Bulletin of Marine Science 41: 192-203. [ Links ]
MARTINI, F., M. LESSER & J. B. HEISER. 1997. Ecology of the hagfish, Myxine glutinosa L., in the gulf of Maine: II. Potential impact on benthic communities and commercial fisheries. Journal of Experimental Marine Biology and Ecology 214: 97-106. [ Links ]
MINCARONE, M. M. 2001. Myxine sotoi, a new species of hagfish (Agnatha, Myxinidae) from Brazil. Bulletin of Marine Science 68: 479-483. [ Links ]
MØLLER, P. R., T. K. FELD, I. H. POULSEN, P. F. THOMSEN & J. G. THORMAR. 2005. Myxine jespersenae, a new species of hagfish (Myxiniformes: Myxinidae) from the North Atlantic Ocean. Copeia 2005: 374-385. [ Links ]
NELSON, J. S. 2006. Fishes of the World. 4th Ed. John Wiley & Sons, Hoboken, New Jersey. 601 p. [ Links ]
RUBIO, E. A., M. J. PEDRAZA & L. A. ZAPATA. 2005. Primer hallazgo de Myxine circifrons Garman. 1899 (Agnatha: Myxinidae) en la Costa del Pacífico de Colombia. Gayana 69: 118-121. [ Links ]
WISNER, R. L. & C. B. MCMILLAN. 1990. Three new species of hagfishes, genus Eptatretus (Cyclostomata, Myxinidae), from the Pacific coast of North America, with new data on E. deani and E. stoutii. Fishery Bulletin 88: 530-550. [ Links ]
WISNER, R. L. & C. B. MCMILLAN. 1995. Review of new world hagfishes of the genus Myxine (Agnatha, Myxinidae) with descriptions of nine new species. Fishery Bulletin 93: 530-550. [ Links ]