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Body-Shell Dimension Relations and Growth Parameters of the Invasive Ark Clam (Anadara inaequavalvis) in Turkish Coast of the Black Sea

Year 2018, Volume: 4 Issue: 1, 46 - 51, 12.11.2018

Abstract

In this paper, the relationship between bodyshell dimensions and growth parameters of ark clam (Anadara inaequavalvis Bruguière, 1789) were estimated for the Black Sea. At the end of this research, there was a significant relationship between body size and shell dimensions. In addition to this, the Von Bertalanffy growth parameters were found as L=8.61 mm, K= 0.25 and t0= -0.43 yr-1. Mortality rates were also analyzed for the ark clam as Z= 0.95 yr-1, M= 0.77 yr-1, F= 0.18 yr-1. This research is important in terms of the first study of bodyshell dimension relationships and mortality rates for Anadara inaequavalvis from the Black Sea. The ark clam can use a descriptor for the Good Environmental Status (GES) according to Marine Strategy Framework Directive (MSFD) 2th Task Group in European Commission.

References

  • IUCN Guidelines for the Prevention of Biodiversity Loss caused by Alien Invasive Species. (2000). Nairobi-Kenya. http://www.issg.org/pdf/aliens_newsletters/SupplementIssue11.pdf is retrieved.
  • Gosling, E. M. (2003). Bivalve Molluscs, Fishing News Books (1st ed.). Blackwell Publishing.
  • Olenin, S., Alemany, F., Cardoso, A.C., Gollasch, S., Goulletquer, P., Lehtiniemi, M., Aleksandrov, B., (2010). Non-indigenous species Marine Strategy Framework Directive, Task Group 2 Report, Ispra, Italy.
  • Zolotarev, V.N., Zolotarev, P.N., (1987). Bivalve Cunearca cornea a new element of the fauna in the Black Sea. Dokl. Akad. Nauk SSSR 297: 501–503.
  • de Zwaan, A., Cortesi, P., van den Thillart, G., Roos, J., Storey, K. B. (1991). Differential sensitivities to hypoxia by two anoxia- tolerant marine molluscs: a biochemical analysis. Marine Biology 111(3): 343–351.
  • Holden, J.K., R.K. Pipe, A.Q., G.C., (1994). Blood cells of the arcid clam, Scapharca inaequivalvis. Journal of the Marine Biological Association of the UK 74(2): 287–299.
  • Sahin, C., Emiral, H., Okumus, I., Gozler, A.M., Kalayci, F., Hacimurtazaoglu, N., (2009). The Benthic Exotic species of the Black Sea: Blood Cockle Anadara inaequivalvis (Bruguiere, 1789: Bivalve) and Rapa Whelk (Rapana thomasiana, Crosse, 1861: Mollusc). Journal of Animal of Veterinary Advances 8(2): 240–245.
  • Acarli, S., Lok, A., Yigitkurt, S., (2012). Growth and Survival of Anadara inaequivalvis (Bruguiere, 1789) in Sufa Lagoon, Izmir, Turkey. The Israeli Journal of Aquaculture - Bamidgeh 64: 691–697.
  • Erdogan Saglam, N., Duzgunes, E., Ogut, H., Kasapoglu, N., 2010. Introduced Species and Their Impacts in the Black Sea. In: CIESM Congress. Venice, Italy.
  • Kolyuchkina, G.A., Miljutin, D.M., (2013). Application of the Morpho-Functional Analysis of Hydrobionts (Anadara sp. cf. Anadara inaequivalvis Bivalvia) to Environmental Monitoring. Oceanology 53(2): 169–175.
  • Ricker, W.E. (1975). Computation and interpretation of biological statistics of fish populations. Canada: Bulletin Fisheries Research Board.
  • FISAT II-FAO-ICLARM, (2018). Stock Assessment Tool. 2006-2018. F. and A. I. F. F. and A. D. (online). Rome.
  • Fischer, W., Bauchot, M.L.S.M. (1987). Méditer- ranée et Mer Noire Vol II. Rome: FAO.
  • Sahin, C., Duzgunes, E., Mutlu, C., Aydin, M., Emiral, H., (1999). Determination of the Growth Parameters of the Anadara cornea R. 1844 Population by the Bhattacharya Method in the Eastern Black Sea. Tr. J. of Zoology 23: 99–105.
  • Sahin, C., Duzgunes, E., Okumus, I., (2006). Seasonal Variations in Condition Index and Gonadal Development of the Introduced Blood Cockle Anadara inaequivalvis (Bruguiere, 1789) in the Southeastern Black Sea Coast. Turkish Journal of Fisheries and Aquatic Sciences 6: 155–163.

İşgalci Anadara inaequivalvis’in Vücut-Kabuk Boyutları İlişkileri ve Büyüme Parametreleri

Year 2018, Volume: 4 Issue: 1, 46 - 51, 12.11.2018

Abstract

Bu çalışmada Karadeniz’de Anadara inaequavalvis (Bruguière, 1789)’in vücut-kabuk boyu ilişkileri ve büyüme parametreleri tahmin edilmiştir. Sonuç olarak, vücut ölçüleri ile kabuk boyutları arasında önemli bir ilişki gözlenmiştir. Buna ek olarak, Von Bertalanffy büyüme parametreleri L=8.61 mm, K= 0.25 and t0= -0.43 yr-1 olarak bulunmuştur. Ayrıca, ölüm oranları Z= 0.95 yr-1, M= 0.77 yr-1, F= 0.18 yr-1 olarak hesaplanmıştır. Bu çalışma, Anadara inaequavalvis’in vücut-kabuk boyutları arasındaki ilişki ve ölüm oranlarının tahmin edildiği ilk çalışma olma özelliği taşımaktadır. Bu tür Avrupa Komisyonu’nun Deniz Stratejisi Çerçeve Direktifi 2. Grup’ta İyi Çevre Statüsü’nün bir tanımlayıcısı olarak da kullanılmaktadır.

References

  • IUCN Guidelines for the Prevention of Biodiversity Loss caused by Alien Invasive Species. (2000). Nairobi-Kenya. http://www.issg.org/pdf/aliens_newsletters/SupplementIssue11.pdf is retrieved.
  • Gosling, E. M. (2003). Bivalve Molluscs, Fishing News Books (1st ed.). Blackwell Publishing.
  • Olenin, S., Alemany, F., Cardoso, A.C., Gollasch, S., Goulletquer, P., Lehtiniemi, M., Aleksandrov, B., (2010). Non-indigenous species Marine Strategy Framework Directive, Task Group 2 Report, Ispra, Italy.
  • Zolotarev, V.N., Zolotarev, P.N., (1987). Bivalve Cunearca cornea a new element of the fauna in the Black Sea. Dokl. Akad. Nauk SSSR 297: 501–503.
  • de Zwaan, A., Cortesi, P., van den Thillart, G., Roos, J., Storey, K. B. (1991). Differential sensitivities to hypoxia by two anoxia- tolerant marine molluscs: a biochemical analysis. Marine Biology 111(3): 343–351.
  • Holden, J.K., R.K. Pipe, A.Q., G.C., (1994). Blood cells of the arcid clam, Scapharca inaequivalvis. Journal of the Marine Biological Association of the UK 74(2): 287–299.
  • Sahin, C., Emiral, H., Okumus, I., Gozler, A.M., Kalayci, F., Hacimurtazaoglu, N., (2009). The Benthic Exotic species of the Black Sea: Blood Cockle Anadara inaequivalvis (Bruguiere, 1789: Bivalve) and Rapa Whelk (Rapana thomasiana, Crosse, 1861: Mollusc). Journal of Animal of Veterinary Advances 8(2): 240–245.
  • Acarli, S., Lok, A., Yigitkurt, S., (2012). Growth and Survival of Anadara inaequivalvis (Bruguiere, 1789) in Sufa Lagoon, Izmir, Turkey. The Israeli Journal of Aquaculture - Bamidgeh 64: 691–697.
  • Erdogan Saglam, N., Duzgunes, E., Ogut, H., Kasapoglu, N., 2010. Introduced Species and Their Impacts in the Black Sea. In: CIESM Congress. Venice, Italy.
  • Kolyuchkina, G.A., Miljutin, D.M., (2013). Application of the Morpho-Functional Analysis of Hydrobionts (Anadara sp. cf. Anadara inaequivalvis Bivalvia) to Environmental Monitoring. Oceanology 53(2): 169–175.
  • Ricker, W.E. (1975). Computation and interpretation of biological statistics of fish populations. Canada: Bulletin Fisheries Research Board.
  • FISAT II-FAO-ICLARM, (2018). Stock Assessment Tool. 2006-2018. F. and A. I. F. F. and A. D. (online). Rome.
  • Fischer, W., Bauchot, M.L.S.M. (1987). Méditer- ranée et Mer Noire Vol II. Rome: FAO.
  • Sahin, C., Duzgunes, E., Mutlu, C., Aydin, M., Emiral, H., (1999). Determination of the Growth Parameters of the Anadara cornea R. 1844 Population by the Bhattacharya Method in the Eastern Black Sea. Tr. J. of Zoology 23: 99–105.
  • Sahin, C., Duzgunes, E., Okumus, I., (2006). Seasonal Variations in Condition Index and Gonadal Development of the Introduced Blood Cockle Anadara inaequivalvis (Bruguiere, 1789) in the Southeastern Black Sea Coast. Turkish Journal of Fisheries and Aquatic Sciences 6: 155–163.
There are 15 citations in total.

Details

Primary Language English
Journal Section Research Article
Authors

Nazlı Kasapoğlu

Publication Date November 12, 2018
Submission Date January 10, 2018
Acceptance Date March 25, 2018
Published in Issue Year 2018 Volume: 4 Issue: 1

Cite

APA Kasapoğlu, N. (2018). Body-Shell Dimension Relations and Growth Parameters of the Invasive Ark Clam (Anadara inaequavalvis) in Turkish Coast of the Black Sea. Turkish Journal of Maritime and Marine Sciences, 4(1), 46-51.

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