Sains Malaysiana 44(5)(2015): 657–662
Otolith Shape Analyses
and Dimensions of the Anchovy Engraulis encrasicolusL. in the Black and Marmara Seas
(Analisis Bentuk Otolit dan Dimensi Ikan Bilis Engraulis encrasicolusL. di Laut Hitam dan Marmara)
MELEK ZENGІN*, SEMRA SAYGІN
& NAZMІ POLAT
Ondokuz Mayis University, Faculty of Art and Sciences, Biology
Department, Atakum,
Samsun
Diserahkan: 4
September 2014/Diterima: 30 Disember 2014
ABSTRACT
Otoliths, which can
be used for the evaluation of relationships between the environment and
organisms, are structures consisting of calcium carbonate. The aim of this
study was to realize the shape analysis. In addition, it is to detect the
characteristics of otolith biometrics in order to determine the relationship
between the fish size of Engraulis encrasicolus L. from the Black and
Marmara Seas. The samples were obtained from the Black and Marmara Seas between
December 2013 and February 2014. The relationships between the TL (Total
length) and OL (Otolith length), TL and OB (Otolith breadth), and TL and OW (Otolith
weight) were determined using the linear regression equation. Form factor,
roundness, circularity and rectangularity were used for shape analyses.
According to the data, there was no difference between localities (p>0.05). Moreover, there was no difference between
the left and right otoliths of the individuals sampled from the same locality (p>0.05).
According to the regression coefficient for relationships of TL-OL, TL-OB and TL-OW, otolith length was identified as the best index
for estimating fish length (r2>0.70). It showed that
index values were statistically different between two populations (p<0.001).
Keywords: Black Sea; Engraulis encrasicolus;
Marmara Sea; otolith dimensions; shape analysis
ABSTRAK
Otolit yang boleh digunakan untuk menilai hubungan antara persekitaran dan organisma, adalah struktur yang terdiri daripada kalsium karbonat. Kajian ini bertujuan untuk merealisasikan analisis bentuk. Di samping itu, ia juga bagi mengesan ciri-ciri otolit biometrik untuk menentukan hubungan antara saiz ikan Engraulis encrasicolus L. dari Laut Hitam dan Marmara. Sampel diperoleh dari Laut Hitam dan Marmara antara Disember 2013 dan Februari 2014. Hubungan antara TL (Jumlah panjang) dan OL (panjang Otolit), TL dan OB (kelebaran Otolit) serta TL dan OW (berat Otolit) telah ditentukan dengan menggunakan persamaan regresi linear. Faktor bentuk, kebundaran, kebulatan dan segi empat tepat telah digunakan untuk analisis bentuk. Mengikut data, tiada perbezaan antara lokaliti (p>0.05). Selain itu, tiada perbezaan antara otolit kiri dan kanan daripada sampel dari kawasan yang sama (p>0.05). Menurut pekali regresi bagi hubungan TL-OL, panjang otolit TL-OB dan TL-OW telah dikenal pasti sebagai indeks terbaik untuk menganggar panjang ikan (r2>0.70). Ini menunjukkan bahawa nilai indeks berbeza secara statistik antara dua populasi (p<0.001).
Kata kunci: Analisis bentuk; dimensi otolit; Engraulis encrasicolus; Laut Hitam; Laut Marmara
RUJUKAN
Aydın,
R., Calta, M., Sen, D. & Coban,
M.Z. 2004. Relationships between fish lengths and otolith length in the
population of Chondrostoma regium(Heckel, 1843)
inhabiting Keban Dam Lake. Pak. J. Bio. Sci.
7: 1550-1553.
Bani, A., Poursaeid, S. & Tuset,
V.M. 2013. Comparative morphology of the sagittal otolith in three species of
south Caspian gobies. J. Fish Biol. 82: 1321-1332.
Basusta, A.,
Bal, H. & Aslan, E. 2013. Otolith biometry - total length relationships in
the population of Hazar Bleak, Alburnus heckeli(Battalgil,
1943) inhabiting Lake Hazar, Elazig, Turkey. Pak.
J. Zool. 45: 1180-1182.
Battaglia, P., Malara, D., Romeo, T. & Andaloro,
F. 2010. Relationships between otolith size and fish size in some mesopelagic
and bathypelagic species from Mediterranean Sea (Strait of Messina, Italy). Sci.
Mar. 74: 605-612.
Begg,
G.A. & Brown, R.W. 2000. Stock identification of haddock Melanogrammus aeglefinus on Georges Bank based on otolith shape analysis. Trans. Am. Fish. Soc.
129: 935-945.
Bostancı, D.
2009. Otolith biometry - body length relationships in four fish species (chub,
pikeperch, crucian carp, and common carp). J.
Freshwater Ecol. 24: 619-624.
Burke,
N., Brophy, D. & King, P.A. 2008. Shape analysis
of otolith annuli in Atlantic herring (Clupea harengus): A new method for tracking fish
populations. Fish. Res. 91: 133-143.
Campana,
S.E. 2005. Otolith elemental composition as a natural marker of fish stocks. In Stock Identification Methods Applications in Fishery Sciences, edited by Cadrin, S.X., Friedland, K.
& Waldman, J.R. Massachusetts: Elsevier Academic Press. pp. 227-245.
Campana,
S.E. & Thorrold, S.R. 2001. Otoliths, increments,
and elements: Keys to a comprehensive understanding of fish populations? Can.
J. Fish Aquat. Sci. 58: 30-38.
Campana,
S.E. & Casselman, J.L. 1993. Stock discrimination
using otolith shape analysis. Can. J. Fish. Aquat.
Sci. 50: 1062-1083.
Caneco, B.,
Silva, A. & Morais, A. 2004. Morphometric
variation among anchovy (Engraulis encrasicholusL.) populations from the Bay of Biscay
and Iberian waters. ICES CM 2004/EE: 24.
Dawson,
W.A. 1991. Otolith measurements as a method of identifying factors affecting
first year growth and stock separation of mackerel (Scomber scombrusL.). J. Cons. Int. Explor. Mer. 47: 303-317.
DeVries, D.A., Grimes, C.B. & Prager, M.H. 2002. Using otolith
shape analysis to distinguish eastern Gulf of Mexico and Atlantic Ocean stocks
of king mackerel. Fish. Res. 57: 51-62.
Erdoğan, Z., Turan, C. & Torcu Koç, H. 2009. Morphologic and allozyme analyses of European anchovy (Engraulis encrasicolus(L. 1758)) in the Black, Marmara and
Aegean Seas. Acta Adriat. 50: 77-90.
Friedland,
K.D. & Reddin, D.G. 1994. Use of otolith
morphology in stock discriminations of Atlantic salmon (Salmo salar). Can. J. Fish Aquat.
Sci. 51: 91-98.
Gonzales-Salas,
C. & Lenfant, P. 2007. Interannual variability and intraannual stability of the otolith
shape in European anchovy Engraulis encrasicolus(L.) in the Bay of Biscay. J. Fish.
Biol. 70: 35-49.
Härkönen,
T.J. 1986. Guide to the Otoliths of the Bony Fishes of the Northeast
Atlantic. Hellerup: Danbiu.
Harvey,
J.T., Loughlin, T.R., Perez, M.A. & Oxman, D.S. 2000. Relationship between fish size and
otolith length for 63 species of fishes from the Eastern North Pacific Ocean. NOAA
Technical Report NMFS 150.
Hossucu, B.,
Kaya, M. & Taşkavak, E. 1999. An
investigation of growth parameters and otolith-total length relationship of Solea solea(L.,
1758) (Pisces: Soleidae) in İzmir Bay. Israel
J. Zool. 45: 277-287.
Hunt,
J.J. 1992. Morphological characteristics of otoliths for selected fish in the
Northwest Atlantic. J. Northw. Atl. Fish. Sci. 13:
63-75.
Leguá, J.,
Plaza, G., Pèrez, D. & Arkhipkin,
A. 2013. Otolith shape analysis as a tool for stock identification of the
southern blue whiting, Micromesistius australis. Lat. Am. J. Aquat.
Res. 41: 479-489.
Lombarte, A.
1992. Changes in otolith area: Sensory area ratio with body size and depth. Environ.
Biol. Fish. 33: 405-410.
Lombarte, A.
& Lleonart, J. 1993. Otolith size changes related
with body growth, habitat depth and temperature. Environ. Biol. Fish. 37:
297-306.
Lord,
C., Morat, F., Lecomte-Finiger,
R. & Keith, P. 2012. Otolith shape analysis for three Sicyopterus (Teleostei: Gobioidei: Sicydiinae) species from New Caledonia and Vanuatu. Environ.
Biol. Fish. 93: 209-222.
Pawson,
M.G. & Jennings, S. 1996. A critique of methods for stock identification in
marine capture fisheries. Fish. Res. 25: 203-217.
Reddin,
D.G., Stansbury, D.E. & Short, P.B. 1988.
Continent of origin of Atlantic salmon (Salmo salarL.) at West Greenland. ICES J. Mar. Sci. 44: 180-188.
Russ,
J.C. 1990. Computer-assisted Microscopy: The Measurement and Analysis of
Images. New York: Plenum Press.
Sadighzadeh, Z., Valinassab, T., Vosugia,
G., Motallebi, A.A., Fatemi,
M.R., Lombarte, A. & Tuset,
V.M. 2014. Use of otolith shape for stock identification of John’s snapper, Lutjanus johnii(Pisces: Lutjanidae), from the Persian Gulf and the Oman Sea. Fish.
Res. 155: 59-63.
Short,
J.A., Gburski, C.M. & Kimura, D.K. 2006. Using
otolith morphometrics to separate small Walleye
Pollock Theragra chalcogramma from Arctic cod Boreogadus saidain mixed samples. Alaska Fish. Res. Bull. 12:
147-152.
Sen,
D., Aydın, R. & Çatla, M. 2001.
Relationships between fish length and otolith length in the population of Capoeta capoeta umbla(Heckel, 1843)
inhabiting Hazar Lake, Elazığ,
Turkey. Arch. Pol. Fish. 9: 267-272.
Torres,
G.J., Lombarte, A. & Morales-Min, B. 2000.
Sagittal otolith size and shape variability to identify geographical
intraspecific differences in three species of the genus Merluccius. J. Mar. Biol. Ass. UK. 80: 333-342.
Treacy,
S.D. & Crawford, T.W. 1981. Retrieval of otoliths and statoliths from gastrointestinal contents and scats of marine mammals. J. Wildl. Manage. 45: 990-993.
Tudela, S.
1999. Morphological variability in a Mediterranean, genetically homogeneous
population of the European anchovy, Engraulis encrasicolus. Fish. Res. 42: 229-243.
Turan, C., Ergüden, D., Gürlek, M., Başusta, N. & Turan, F.
2004. Morphometric structuring of the anchovy (Engraulis encrasicolusL.) in the Black, Aegean and
Northeastern Mediterranean Seas. Turk. J. Vet. Anim. Sci. 28: 865-871.
Tuset,
V.M., Lombarte, A. & Assis, C.A. 2008. Otolith
atlas for the western Mediterranean, north and central eastern Atlantic. Sci.
Mar. 72S1 : 7-198.
Tuset,
V.M., Rosin, P.L. & Lombarte A. 2006. Sagittal
otolith shape as useful tool for the identification of fishes. Fish. Res. 81:
316-325.
Tuset,
V.M., Lombarte, A., Gonza´lez,
J.A., Pertusa, J.F. & Lorente,
M.J. 2003a. Comparative morphology of the sagittal otolith in Serranus spp. J. Fish. Biol. 63:
1491-1504.
Tuset,
V.M., Loranzo, A., Gonzàlez,
J.A., Pertusa, J.F. & Garcìa- Dìaz, M.M. 2003b. Shape indices to identify regional
differences in otolith morphology of comber, Serranus cabrilla(L., 1758). J. Appl. Ichthyol. 19: 88-93.
Vignon, M.
& Morat, F. 2010. Environmental and genetic
determinant of otolith shape revealed by a non-indigenous tropical fish. Mar.
Ecol. Prog. Ser. 411: 231-241.
Waessle,
J.A., Lasta, C.A. & Favero,
M. 2003. Otolith morphology and body size relationships for juvenile for
juvenile Sciaenidae in the Rìo de la Plata estuary (35-36ºS). Sci. Mar. 67: 233-240.
Williams,
R. & McEldowney, A. 1990. A guide to the fish
otoliths from waters off the Australian Antarctic Territory, Heard and
Macquarie Islands. ANARE Res. Notes. 75: 1-173.
Yilmaz,
S., Yazicioglu, O., Saygin (Ayaydin), S. & Polat,
N. 2014. Relationships of otolith dimensions with body length of European
perch, Perca fluviatilis L., 1758 from Lake Ladik, Turkey. Pak. J. Zool. 46: 1231-1238.
Zorica, B., Snovčić, G. & Čıkeś Keč, V. 2010. Preliminary data on the study of
otolith morphology of five pelagic fish species from the Adriatic Sea
(Croatia). Acta Adriat. 5: 89-96.
*Pengarang untuk surat-menyurat;
email: melek.zengin@omu.edu.tr
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