Araştırma Makalesi
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Sinop Yarımadası Kıyıları (Güney Karadeniz, Türkiye) Makroalg Topluluklarının Zamansal Değişimi

Yıl 2018, , 23 - 38, 28.12.2018
https://doi.org/10.33484/sinopfbd.403065

Öz

Bu
çalışmada, Karadeniz’in Sinop Yarımadası çevresindeki mevcut denizel makroalg
türleri
nin dağılımı ve biyokütlesindeki
mevsimsel
değişimler
incelenmiştir. Örneklemeler Eylül 2013-Temmuz 2014 tarihleri arasında 2-5 m
derinlikler arasında yer alan dokuz farklı istasyonda gerçekleştirilmiştir. Alg
örnekleri tüple dalış yapılarak metal bir çerçeve (20x20cm) ile üç tekerrürlü
olarak elle toplanmıştır. Araştırma sonucunda, 6’sı Chlorophyta, 6’sı
Ochrophyta ve 18’i Rhodophyta olmak üzere toplam 30 takson tespit edilmiştir.
İstasyonlar genelinde tespit edilen en baskın türler Cystoseira crinita Duby, 1830 (%53) ve Cystoseira barbata (Stackhouse) C.Agardh, 1820 (%37) olup bunu Polysiphonia fucoides (Hudson) Greville,
1824 ve Ceramium spp. türleri izlediği
tespit edilmiştir.  İstasyonlar genelinde
ortalama en yüksek biyokütle değeri 8861.9 gm-2 (yaş ağırlık)ile
Taşocağı istasyonunda, en düşük değer ise Ayı İni Koyu (4006.8 gm-2)
istasyonundan elde edilmiştir. Örnekleme boyunca tespit edilen biyokütle değerinin
2150.6 gm-2 (Karakum
istasyonu, yaz mevsimi) ile 10947.2
gm-2 (Taşocağı istasyon, ilkbahar) arasında değişim gösterdiği
saptanmıştır. Bu çalışma ile Karadeniz’in Sinop Yarımadası kıyılarındaki
makroalg türleri ve biyokütlelerindeki mevsimsel değişikliklere değinerek
dinamikler bilgisine katkıda bulunulmaya çalışılmıştır. 

Kaynakça

  • [1] Chapman VJ, Chapman DJ, 1980. Seaweed and their uses. Chapman and Hall London. New York. [2] Sabri H, Cherifi O, Maarouf A, Cheggour M, Bertrand M, Mandi L, 2017. Wastewater impact on macroalgae biodiversity in Essaouira coast (Morocco). Journal of Materials and Environmental Sciences, 8(3): 857-862. [3] Qari R, 2017. An assessment of seaweeds Diversity and Distribution at the Bench of Nathia Gali, Karachi, Pakistan. J. Marine Sci. Res. and Dev., 7(3): 2-11. [4] Terawaki T, Hasegawa H, Arai S, Ohno M, 2001. Management-free techniques for restoration of Eisenia and Ecklonia beds along the central Pacific coast of Japan. J. Appl. Phycol. 13: 13-17. [5] Shaffer S, 2003. Preferential use of Nearshore Kelp Habitats by Juvenile Salmon and Forage Fish. Proceedings of the Georgia Basin/Puget Sound Research Conference. [6] Mohammed AI, Fredriksen S, 2004. Production, respiration and exudation of dissolved organic matter by the kelp Laminaria hyperborea along the west coast of Norway. Journal of the Marine Biological Association of the U.K., 84: 887-894 [7] Lorentsen SH, Gremillet D, Nymoen GH, 2004. Annual variation in diet of breeding Great Cormorants: Does it reflect varying recruitment of Gadoids? Waterbirds, 27: 161-169. [8] Williams SL, Smith JE, 2007. Aglobal rewiev of the distribution, taxonomy and impact of introduced seaweeds. The annual rewiew of ecology, Evolution and Systematics, 38: 327-59. [9] Cacabelos E, Olabarria C, Incera M, Troncoso JS, 2010. Effects of habitat structure and tidal height on epifaunal assemblages associated with macroalgae. Est. Coat Shelf Sci., 89: 43–52. [10] Satheesh S, Godwin-Wesley S, 2012. Diversity and distribution of seaweeds in the Kudankulam coastal waters, South-Eastern coast of India. Biodiversity journal, 3(1): 79-84. [11] Steffen W, Sanderson A, Tyson PD, Jager J, Matson PA, More III B, Oldfield F, Richardson K, Schellnhuber HJ, Turner II BL, Wasson RJ, 2004. Global Change and Earth System-A planet under pressure. Springer, Heidelberg, Germany. [12] Bat L, Akbulut M, Sezgin M, Çulha M, 2001. Effects of Sewage Pollution the Structure of the Community of Ulva lactuca, Enteremorpha linza and Rocky Macrofauna in Dışliman of Sinop. Turk J. Biol., 25: 93-102. [13] Kim BY, Kim WS, Choi HG, 2010. Seasonal variability of seaweed biomass along the vertical shore gradients of Nachido and Odo islands, the Yellow Sea, Korea. Fish Aquat. Sci. 13: 324-331. [14] Karaçuha A, Ersoy Karaçuha M, 2013. Changes of Macroalgae Biomass in Sinop Peninsula Coast of the Black Sea, Turkey. Turkish Journal of Fisheries and Aquatic Sciences, 13: 725-736. [15] Chang JS, Tsen CC, 2010. Effects of recent ecological events on the distribution and growth of macroalgae in marine waters around Taiwan. Bull. Fish. Res. Agen., 32: 11-17. [16] Carstensen J, Krause-Jensen D, Dahl K, Henriksen P, 2008. Macroalgae and phytoplankton as indicators of cological status of Danish coastal waters. National Environmental Research Institute, University of Aarhus. 90 pp. - NERI Technical Report No. 683. [17] Boero F, 1994. Fluctuations and variations in coastal marine environments. P.S.Z.N. I: Marine Ecology, 15: 3–25. [18] Occhipinti-Ambrogi A, Savini D, Forni G, 2005. Macrobenthos community structural changes off Cesenatico coast (Emilia Romagna, Northern Adriatic), a six-year monitoring programme. Sci. Total Environ., 353(1-3): 317-328. [19] Silva PC, Basson PW. Moe RL, 1996. Catalogue of the Benthic Marine Algae of the Indian Ocean. California, 1259 pp. [20] Gallardo T, Gomez Garreta A, Ribera, MA, Cormaci M, Furnari G, Giaccone G, Boudouresque ChF, 1993. Check-list of Mediterranean Seaweeds, II. Chlorophyceae. Wille I. Bot. Mar., 36: 399-421. [21] Ribera MA, Gomez Garreta A, Gallardo T, Cormaci M, Furnari G, Giaccone G, 1992. Check-list of Mediterranean Seaweeds, I. Fucophyceae (Warming 1884). Bot. Mar., 36: 109-130. [22] Bray JR, Curtis JT, 1957. An ordination of the upland forest communities of southern Wisconsin. Ecol. Monogr., 27: 325–349. [23] Prathep A, 2005. Spatial and temporal variations in diversity and percentage cover of macroalgae at Sirinart marine national park, Phuket Province, Thailand. Sci. Asia 31: 225-233. [24] Wells E, Wilkionson M, Wood P, Scanlan C, 2007. The use of mac¬roalgal species richness and composition on intertidal rocky sea¬shores in the assessment of ecological quality under the European water framework directive. Mar. Pollut. Bull., 55: 151-161. [25] Figueiredo MAO, Creed JC, 2009. Marine Algae and Plants. In: Kleber Del Claro, Paulo S. Oliveira and Victor Rico-Gray (Eds), Tropical Biology and Conservation Management. Botany Vol. IV, Encyclopedia of Life Support Systems. Eolss Publishers Co. Ltd; Oxford, United States. [26] Pawar PR, 2017. Distribution pattern & species diversity of seaweeds at Uran (Vavi, Mumbai), West coast of India. International Journal of Pure and Applied Zoology, 5(1): 25-32. [27] Littler MM, Littler DS, 1984. Relationships between macroalgal functional form groups and substrata stability in a subtropical rocky-intertidal system. J. Exp. Mar. Biol. Ecol. 74: 13-34. [28] Choi HG, Lee KH, Wan XQ, Yoo HI, Park HH, Kim JH, Chung IK. 2008. Temporal variations in seaweed biomass in Korean coasts: Woejodo and Jusamdo, Jeonbuk. Algae 23: 335-342. [29] Asmida I, Noor Akmal AB, Ahmad I, Sarah Dıyana M, 2017. Biodiversity of Macroalgae in Blue Lagoon, the Straits of Malacca, Malaysia and Some Aspects of Changes in Species Composition. Sains Malaysiana, 46(1): 1–7. [30] Elser JJ, Bracken MES, Cleland EE, Gruner DS, Harpole WS, Hillebrand H, Ngai JT, Seabloom EW, Shurin JB, Smith, JE, 2007. Global analysis of nitrogen and phosphorus limitation of primary producers in freshwater, marine and terrestrial ecosystems. Ecolog, Letters 10: 1135-1142. [31] Lünning K, 1993. Environmental and internal control of seasonal growth in seaweeds. Hydrobiology, 260/261: 1-14. [32] Denny MW, 1988. Biology and the mechanisms of the waveswept environment. Princeton University Press. Princeton. [33] Yates JL, Peckol P, 1993. Effects of nutrient availability and herbivory on polyphenolics in the seaweed Fucus vesiculosis. Ecology 74 (6): 1757– 1766. [34] Lapointe BE, Barile PJ, Yentsch CS, Littler MM, Littler DS, Kakuk B, 2004. The relative importance of nutrient enrichment and herbivory on macroalgal communities near Norman’s Pond Cay, Exumas Cays, Bahamas: a “natural” experiment. J. Exp. Mar. Biol. Ecol., 29: 275-301. [35] Huh MK, 2015. Spatial and temporal variability of seaweeds at Hwadang-ri, Jinhae Bay, Korea. Protistology, 9(2): 79–87. [36] Gagne JA, Mann KH, Chapman ARO, 1982. Sesonal pattern of growth and stroge in Laminaria lonngicruris in relation to differing pattern of availability of nitrogen in the water. Mar. Biol., 69: 91-101. [37] Lobban CS, Harrison PJ, Duncan MJ, 1985. The physiological ecology of seaweeds. Cambridge University Press, New York. [38] Wood EJF, Zieman JC, 1969. The effects of temperature on estuarine plant communities. Chesapeake Sci., 10(3–4): 172–174.
Toplam 1 adet kaynakça vardır.

Ayrıntılar

Birincil Dil Türkçe
Konular Mühendislik
Bölüm Araştırma Makaleleri
Yazarlar

Ali Karaçuha

Gökhan Yıldız

Melek Ersoy Karaçuha Bu kişi benim

Yayımlanma Tarihi 28 Aralık 2018
Gönderilme Tarihi 7 Mart 2018
Yayımlandığı Sayı Yıl 2018

Kaynak Göster

APA Karaçuha, A., Yıldız, G., & Ersoy Karaçuha, M. (2018). Sinop Yarımadası Kıyıları (Güney Karadeniz, Türkiye) Makroalg Topluluklarının Zamansal Değişimi. Sinop Üniversitesi Fen Bilimleri Dergisi, 3(2), 23-38. https://doi.org/10.33484/sinopfbd.403065


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