The Relationship of Bristle Worm, Protodorvillea kefersteini (McIntosh, 1869) (Eunicida, Dorvilleidae) Abundance with Environmental Variables in Çardak Lagoon (Turkish Straits) Exposed to domestic Discharge
Ertan Dağlı, A. Suat Ateş, Seçil Acar, Yeşim BüyükateşThis study presents the correlations between opportunistic polychatea, Protodorvillea kefersteini (McIntosh, 1869) abundance, and environmental variables in Çardak Lagoon. Samplings were carried out on the bottoms using a 30x30 cm quadrate seasonally between 1 and 1.8 m depths of seven sampling points in October 2018, February, April, and June 2019. A total of 1094 specimens belonging to P. kefersteini were collected. Environmental variables such as gravel content in sediment, pH, and salinity levels in the water had the highest correlations with the abundance through the sampling periods. Considering the sampling points, the highest correlation value was between water salinity and the abundance. Sediment gravel content, pH, salinity, temperature, anionic surfactant levels, and NO2+NO3 were major environmental variables affecting P. kefersteini abundance in the study area spatially and temporally.
PDF Görünüm
Referanslar
- Afli, A., Ayari, R., Zaabi, S. 2008. Ecological quality of some Tunisian coast and lagoon locations. by using benthic community parameters and biotic indices. Estuarine, Coastal and Shelf Sciences, 80, 269-280. google scholar
- Aguirrezabalaga, F. & Ceberio, A. (2003). Dorvilleidae (Polychaeta) from the Capbreton Canyon (Bay of Biscay, NE Atlantic) with the description of Pettiboneia sanmartini sp. nov. Cahiers de Biologie Marine, 44 (1), 41-48. google scholar
- Alalykina, I.L. & Polyakova, N.E. (2022). New species of Ophryotrocha (Annelida: Dorvilleidae) associated with deep-sea reducing habitats in the Bering Sea, Northwest Pacific. Deep-Sea Research Part II, 206, 105217. https://doi.org/10.1016/j.dsr2.2022.105217. google scholar
- Allen, J.R.L. (1997). Subfossil mammalian tracks (Flandrian) in the Severn Estuary. S.W. Britain: mechanics of formation, preservation and distribution, Philosophical Transactions of the Royal Society, London B. 352, 481-518. google scholar
- Cabral-Olivera, J., Mendes, S., Maranhâo, P. & Pardal, M.A. (2014). Effects of sewage pollution on the structure of rocky shore macroinvertebrate assemblages. Hydrobiologia, 726, 271-283. http://doi.org/10.1007/ s10750-013-1773-5. google scholar
- Can Yılmaz, E. (2009). The polychaeta of the Homa lagoon (Izmir Bay). Dokuz Eylül University, Institute of Natural and Applied Sciences, PhD. Thesis, 60 pp. google scholar
- Carlton, J.T. (1985). Transoceanic and interoceanic dispersal of coastal marine organisms: the biology of ballast water. Oceanography and Marine Biology Annual Review 23: 313-371. google scholar
- Como, S., Magni, P., Casu, D., Floris, A., Giordani, G., Natale, S., Fenzi, G.A., Signa, G., & De Falco, G. (2007). Sediment characteristics and macrofauna distribution along a human-modified inlet in the Gulf of Oristano (Sardinia, Italy). Marine Pollution Bulletin, 54, 733-744. google scholar
- Çınar, M.E., Dağlı, E. & Açık, Ş. (2011). Annelids (Polychaeta and Oligochaeta) from the Sea of Marmara, with descriptions of five new species. Journal of Natural History, 45 (33-34), 2105-2143. http://doi. org/10.1080/00222933.2011.582966. google scholar
- Çınar, M.E., Dağlı, E., Çağlar, S. & Albayrak, S. (2015). Polychaetes from the northern part of the Sea of Marmara with the description of a new species of Polydora (Annelida:Polychaeta: Spionidae). Mediterranean Marine Science, 16, 524-532. http://doi.org/10.12681/mms.1226. google scholar
- Dauvin, J.C. (2008). Effects of heavy metal contamination on the macrobenthic fauna in estuaries: the case of the Seine estuary. Marine Pollution Bulletin, 57 (1-5), 22-40. http://doi.org/ 10.1016/j. marpolbul.2007.10.016. google scholar
- Del-Pilar-Ruso, Y., De-La-Ossa-Carretero, J.A., Loya-Fernandez, A., Ferrero-Vicente, L. M., Gimenez-Casalduero, F. & Sânchez-Lizaso, J.L. (2009). Assessment of soft-bottom Polychaeta assemblage affected by a spatial confluence of impacts: Sewage and brine discharges. Marine Pollution Bulletin, 58 (5), 776-782. http://doi. org/10.1016/j.marpolbul.2009.03.002. google scholar
- Elias, R., Rivero, M.S. & Vallarino, E.A. (2003). Sewage impact on the composition and distribution of Polychaeta associated to intertidal mussel beds of the Mar del Plata rocky shore, Argentina. Iheringia, Ser Zool., Porto Alegre, 93 (3), 309-318. google scholar
- Ergen, Z., Çınar M.E. & Dağlı E. (2004). Effects of fish farming in the distribution of polychaetes in the Aegean Sea, Rapport de la Commission International Exploration de la Mer Mediterranee, 37, 350. google scholar
- Fauchald, K. & Rouse, G. (1997). Polychaeta systematics: Past and present. Zoologica Scripta, 26 (2), 71-138. google scholar
- Fauchald, K. (1977). The Polychaete Worms. Definitions and Keys to the Orders. Families and Genera. Natural History Museum of Los Angeles County Allan Hancock Found. Science Series, Los Angeles, 28, 1-188. google scholar
- Fernândez-Romero, A., Moreira, J. & Guerra-Garcıa, J. M. (2019). Marinas: An overlooked habitat for exploring the relation among polychaete assemblages and environmental factors. Marine Pollution Bulletin, 138, 584-597. https://doi.org/10.1016/j.marpolbul.2018.11.064. google scholar
- Guerra-Garcia, J.M. & Garcia-Gomez, J.C. (2004). Polychaete assemblages and sediment pollution in a harbour with two opposing entrances. Helgoland Marine Research, 58, 183-191. google scholar
- Hamdy, R., Elebiary, N., Abdel Naby, F., Borghese, J., Dorgham, M., Hamdan, A. & Musco, L. (2023). Hard-bottom polychaetes exposed to multiple human pressure along the Mediterranean coast of Egypt. Water, 15, 997. https://doi.org/10.3390/w15050997. google scholar
- Hiscock, K., Southward, A., Tittley, I. & Hawkins, S. (2004). Effects of changing temperature on benthic marine life in Britain and Ireland. Aquatic Conservation: Marine and Freshwater Ecosystems, 14 (4), 333-362. google scholar
- Hutchings, P. (1998). Biodiversity and functioning of polychaetes in benthic sediments. Biodiversity and Conservation, 7, 1133-1145. google scholar
- Karakassis, I., Tsapakis, M., Hatziyanni, E., Papadopoulou, K.-N., & Plaiti, W. (2000). Impact of cage farming of fish on the seabed in three Mediterranean coastal areas. ICES Journal of Marine Science, 57 (5), 1462-1471. https://doi.org/10.1006/jmsc.2000.0925. google scholar
- Kopiy, V. (2018). Some aspects of the biology and the present state of the population of Protodorvillea kefersteini (Polychaeta: Dorvilleidae) in the coastal zone of the Crimea (The Black Sea). Diversity in Coastal Marine Sciences, Edited by C. Finkl and C. Makowski, Coastal Research Library book series, Springer Publ., 23, 405-412. google scholar
- Koutsoubas D., Dounas, C., Arvanitidis C., Kornilios S., Petihakis G., Triantafyllou G. & Eleftheriou, A. (2000). Macrobenthic community structure and disturbance assessment in Gialova Lagoon, Ionian Sea. ICES Journal of Marine Science, 57, 1472-1480. google scholar
- Kurt Şahin, G., Dağlı, E. & Sezgin, M. (2017). Spatial and temporal variations of soft bottom polychaetes of Sinop Peninsula (southern Black Sea) with new records. Turkish Journal of Zoology, 41, 89-101, http:// doi:10.3906/zoo-1510-15. google scholar
- Leonhard, S.B. (2006). Horns Rev offshore wind farm. Environmental impact assessment of sea bottom and marine biology. Technical Report, 54 Environmental Sciences; 17 Wind Energy; Seabed; Environmental Impact Statements; Wind Turbines; Offshore Sıtes, 43 pp. google scholar
- Lourido, A. Cacabelos, E. & Troncoso, J.S. (2008). Patterns of distribution of the polychaete fauna in subtidal soft sediments of the Rı'a de Alda'n (north-western Spain). Journal of the Marine Biological Association of the United Kingdom, 88 (2), 263-275. http:// doi. org/10.1017/S0025315408000696. google scholar
- Magni, P., Micheletti, S., Casu, D., Floris, A., de Falco, G. & Castelli, A. (2004). Macrofaunal community structure and distribution in a muddy coastal lagoon. Chemistry and Ecology, 20 (1), 397-S409. google scholar
- Martins, R., Sampaio, L., Rodrigues, A.M. & Quintino, V. (2013). Soft-bottom Portuguese continental shelf polychaetes: Diversity and distribution. Journal of Marine Systems, 123-124, 41-54. https://doi. org/10.1016/j.jmarsys.2013.04.008. google scholar
- MES (2010). Marine Macrofauna Genus Trait Handbook. Marine Ecological Surveys Limited. http://www.genustraithandbook.org.uk/ google scholar
- Mikac, B. (2015). A sea of worms: Polychaete checklist of the AdriaticSea. Zootaxa 3943, 001-172. http://doi.org/10.11646/zootaxa.3943.1.1. google scholar
- Muxika, I., Borja, Â. & Bonne, W. (2005). The suitability of the marine biotic index (AMBI) to new impact sources along European coasts. Ecological Indicators, 5 (1), 19-31. google scholar
- Nunez, J., Maggio, Y & Riera, R. (2013). Dorvilleidos (Polychaeta,Dorvilleidae) recolectados durante el proyecto“FaunaIberica”y catâlogo de las especies fcero-baleares. Graellsia, 69, 275-282. http://doi.org/10.3989/graellsia.2013.v69.i2. google scholar
- Pearson, T.H., & Stanley, S.O. (1979). Comparative measurement of the redox potential of marine sediments as a rapid means of assessing the effect of organic pollution. Marine Biology, 53, 371-379. google scholar
- Santos, M.E.M., Silva, C.C. & de Azevedo-Cutrim, A.C.G. (2021). Spatial-temporal distribution of polychaeta in urbanized sandy beaches of northeastern Brazil: Tools for environmental assessment. Oecologia Australis, 25 (4), 834-845. https://doi.org/10.4257/oeco.2021.2504.04. google scholar
- Simonini, R. & Prevedelli, D. (2003). Effects of temperature on two Mediterranean population of Dinophilus gyrociliatus (Polychaeta: Dinophilidae) II. Effects on demographic parameters. Journal of Experimental Marine Biology and Ecology, 291, 95-110. google scholar
- Strickland, J.D.H. & Parsons, T.R. (1972). A Practical Handbook of Seawater Analysis. Fisheries Research Board of Canada. Ottawa, 167, 310 p. google scholar
- Terlizzi, A., De Falco, G., Felline, S., Fiorentino, D., Gambi, M.C. & Cancemi, G. (2010). Effects of marine cage aquaculture on macrofauna assemblages associated with Posidonia oceanica meadows. Italian Journal of Zoology, 77, 362-371. google scholar
- Tillin, H.M. (2016). Protodorvillea kefersteini and other polychaetes in impoverished circalittoral mixed gravelly sand. In Tyler-Walters H. and Hiscock K. (eds) Marine Life Information Network: Biology and Sensitivity Key Information Reviews, [on-line]. Plymouth: Marine Biological Association of the United Kingdom. https://dx.doi. org/10.17031/marlinhab.1115.1. google scholar
- Warwick, R.M., Collins, N.R., Gee, J.M. & Geaorge, C.L. (1986). Species size distributions of benthic and pelagic Metazoa: evidence for interaction? Marine Ecology Progress Series, 34, 63-68. google scholar
- Warwick, R.M. (2001). Evidence for the effects of metal contamination on the intertidal macrobenthic assemblages of the Fal Estuary. Marine Pollution Bulletin, 42 (2), 145-148. google scholar
- WORMS, 2023. World Register of Marine Species. Accessed by http:// https://www.marinespecies.org. google scholar
- Zaâbi, S., Gillet, P., Afli, A. & Boumaiza, M. (2009). Biodiversity of polychaetous annelids from the peninsula of Cap Bon, northeast coast of Tunisia. Zoosymposia, 2, 587-600. google scholar
- Zaâbi, S., Gillet, P., Afli, A., & Boumaiza, M. (2010). Structure and diversity of polychaetous annelids population along the eastern coast of the Cap Bon Peninsula (north-east coast of Tunisia, western Mediterranean). Marine Biodiversity Records, page 1 of 11, 3, e100. http:// doi.org/10.1017/S1755267210000850. google scholar
- Zaabi-Sendi, S. (2013). Etude faunistique et ecologique des annelides polychetes de la cote nord-est de la Tunisie (Peninsule du Cap Bon, Mediterranee Ouest). These de Doctorat, Universite de Carthage, Faculte des Sciences de Bizerte, 494 pp. google scholar
Atıflar
Biçimlendirilmiş bir atıfı kopyalayıp yapıştırın veya seçtiğiniz biçimde dışa aktarmak için seçeneklerden birini kullanın
DIŞA AKTAR
APA
Dağlı, E., Ateş, A., Acar, S., & Büyükateş, Y. (2023). The Relationship of Bristle Worm, Protodorvillea kefersteini (McIntosh, 1869) (Eunicida, Dorvilleidae) Abundance with Environmental Variables in Çardak Lagoon (Turkish Straits) Exposed to domestic Discharge. Aquatic Sciences and Engineering, 39(1), 24-29. https://doi.org/10.26650/ASE20241322577
AMA
Dağlı E, Ateş A, Acar S, Büyükateş Y. The Relationship of Bristle Worm, Protodorvillea kefersteini (McIntosh, 1869) (Eunicida, Dorvilleidae) Abundance with Environmental Variables in Çardak Lagoon (Turkish Straits) Exposed to domestic Discharge. Aquatic Sciences and Engineering. 2023;39(1):24-29. https://doi.org/10.26650/ASE20241322577
ABNT
Dağlı, E.; Ateş, A.; Acar, S.; Büyükateş, Y. The Relationship of Bristle Worm, Protodorvillea kefersteini (McIntosh, 1869) (Eunicida, Dorvilleidae) Abundance with Environmental Variables in Çardak Lagoon (Turkish Straits) Exposed to domestic Discharge. Aquatic Sciences and Engineering, [Publisher Location], v. 39, n. 1, p. 24-29, 2023.
Chicago: Author-Date Style
Dağlı, Ertan, and A. Suat Ateş and Seçil Acar and Yeşim Büyükateş. 2023. “The Relationship of Bristle Worm, Protodorvillea kefersteini (McIntosh, 1869) (Eunicida, Dorvilleidae) Abundance with Environmental Variables in Çardak Lagoon (Turkish Straits) Exposed to domestic Discharge.” Aquatic Sciences and Engineering 39, no. 1: 24-29. https://doi.org/10.26650/ASE20241322577
Chicago: Humanities Style
Dağlı, Ertan, and A. Suat Ateş and Seçil Acar and Yeşim Büyükateş. “The Relationship of Bristle Worm, Protodorvillea kefersteini (McIntosh, 1869) (Eunicida, Dorvilleidae) Abundance with Environmental Variables in Çardak Lagoon (Turkish Straits) Exposed to domestic Discharge.” Aquatic Sciences and Engineering 39, no. 1 (Nov. 2024): 24-29. https://doi.org/10.26650/ASE20241322577
Harvard: Australian Style
Dağlı, E & Ateş, A & Acar, S & Büyükateş, Y 2023, 'The Relationship of Bristle Worm, Protodorvillea kefersteini (McIntosh, 1869) (Eunicida, Dorvilleidae) Abundance with Environmental Variables in Çardak Lagoon (Turkish Straits) Exposed to domestic Discharge', Aquatic Sciences and Engineering, vol. 39, no. 1, pp. 24-29, viewed 22 Nov. 2024, https://doi.org/10.26650/ASE20241322577
Harvard: Author-Date Style
Dağlı, E. and Ateş, A. and Acar, S. and Büyükateş, Y. (2023) ‘The Relationship of Bristle Worm, Protodorvillea kefersteini (McIntosh, 1869) (Eunicida, Dorvilleidae) Abundance with Environmental Variables in Çardak Lagoon (Turkish Straits) Exposed to domestic Discharge’, Aquatic Sciences and Engineering, 39(1), pp. 24-29. https://doi.org/10.26650/ASE20241322577 (22 Nov. 2024).
MLA
Dağlı, Ertan, and A. Suat Ateş and Seçil Acar and Yeşim Büyükateş. “The Relationship of Bristle Worm, Protodorvillea kefersteini (McIntosh, 1869) (Eunicida, Dorvilleidae) Abundance with Environmental Variables in Çardak Lagoon (Turkish Straits) Exposed to domestic Discharge.” Aquatic Sciences and Engineering, vol. 39, no. 1, 2023, pp. 24-29. [Database Container], https://doi.org/10.26650/ASE20241322577
Vancouver
Dağlı E, Ateş A, Acar S, Büyükateş Y. The Relationship of Bristle Worm, Protodorvillea kefersteini (McIntosh, 1869) (Eunicida, Dorvilleidae) Abundance with Environmental Variables in Çardak Lagoon (Turkish Straits) Exposed to domestic Discharge. Aquatic Sciences and Engineering [Internet]. 22 Nov. 2024 [cited 22 Nov. 2024];39(1):24-29. Available from: https://doi.org/10.26650/ASE20241322577 doi: 10.26650/ASE20241322577
ISNAD
Dağlı, Ertan - Ateş, A. Suat - Acar, Seçil - Büyükateş, Yeşim. “The Relationship of Bristle Worm, Protodorvillea kefersteini (McIntosh, 1869) (Eunicida, Dorvilleidae) Abundance with Environmental Variables in Çardak Lagoon (Turkish Straits) Exposed to domestic Discharge”. Aquatic Sciences and Engineering 39/1 (Nov. 2024): 24-29. https://doi.org/10.26650/ASE20241322577