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A meta analysis on the heavy metal content of two shrimp species, Penaeus semisulcatus (de Hann, 1844) and Metapenaeus monoceros (Fabricius, 1798) from İskenderun Bay

Yıl 2021, , 834 - 849, 31.08.2021
https://doi.org/10.18016/ksutarimdoga.vi.811212

Öz

Different studies even on same shrimp species and same heavy metals from same locations may be inconsistent with each other. Because of their important on a food safety risk, therefore, a meta-analysis is required to evaluate the true risk level to human consumption for these aquatic organisms. In this study, commercially important two shrimp species, Penaeus semisulcatus (de Hann, 1844) and Metapenaeus monoceros (Fabricius, 1798), from İskenderun Bay were considered in a meta-analysis for their some heavy metal content (Cadmium-Cd, Zinc-Zn, Lead-Pb, and Copper-Cu). Meta-analysis results (mean±Sd) were evaluated according to the reference values that are maximum permissible limit (dry-wet, mg/kg) for shrimp as follow; Cd (1 mg/kg), Zn (50 mg/kg), Pb (2 mg/kg) and Cu (20 mg/kg). For Cd, M. monoceros (0.93±0.02 mg/kg) was not exceeded the reference limit (p>0.05), while, P. semisulcatus (3.93±0.12 mg/kg) was exceeded (p<0.05). For Zn, M. monoceros (58.69±7.25 mg/kg) was exceeded the reference limit (p<0.05), but P. semisulcatus (50.28±8.00 mg/kg) was not exceeded (p>0.05). For Pb, both M. monoceros (10.14±4.09 mg/kg) and P. semisulcatus (6.30±2.02 mg/kg) were exceeded the reference limit (p<0.05). For Cu, M. monoceros (23.25±4.34 mg/kg) was not exceeded the reference limit (p>0.05), while P. semisulcatus (49.68±14.71 mg/kg) was exceeded (p<0.05). Despite the meta-analysis results, (i) the harmful effects of heavy metals on human health only occur when long-term consumption of contaminated crustaceans occurs, (ii) much more well organized studies (with more samples, suitable sampling strategy, etc.,) are needed to make a ultimate decision on whether the contents of these considered heavy metals in the these two shrimp species were exceeded or not the reference points.

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Proje Numarası

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Teşekkür

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Kaynakça

  • Al-Farraj AS, Sewailem MAl, Aly A, Wabel M Al, Wabel MAl 2013. Assessment and heavy metal behaviors of industrial waste water: A case study of Riyadh city, Saudi Arabia Proceedings of the International Academy of Ecology and Environmental Sciences, 3: 266-277.
  • Ali H, Khan E, Ilahi I 2019. Environmental Chemistry and Ecotoxicology of Hazardous Heavy Metals: Environmental Persistence, Toxicity, and Bioaccumulation. Journal of Chemistry, 1–14.
  • Alloway BJ 1990. Heavy metals in soils. New York: Wiley.
  • Anonymous 2008. Regulation of setting maximum levels for certain contaminants in foodstuffs. Official Gazette, 17 May, Issue 26879.
  • ATSDR 2003. Agency for Toxic Substances and Disease Registry. Retrieved Jun 20, 2017, from http://www.atsdr. cdc.gov/toxfaq.html.
  • Aytekin T, Kargın D, Çoğun HY, Temiz Ö, Varkal HS, Kargın F 2019. Accumulation and health risk assessment of heavy metals in tissues of the shrimp and fish species from the Yumurtalik coast of Iskenderun Gulf, Turkey. Heliyon, 5(8), e02131.
  • Barone G, Dambrosio A, Storelli A, Garofalo R, Busco V, Storelli M 2018. Estimated Dietary Intake of Trace Metals from Swordfish Consumption: A Human Health Problem. Toxics 6(2):22.
  • Badr N, El-Fiky A, Mostafa A, Al-Mur B, 2009. Metal pollution records in core sediments of some Red Sea coastal areas, Kingdom of Saudi Arabia. Environmental Monitoring and Assessment155, 509-526.
  • Bosch A O’Neill B, Sigge GO, Kerwath SE, Hoffman LC 2016. Heavy metals in marine fish meat and consumer health: A review. Journal of the Science of Food and Agriculture 96(1): 32–48.
  • Brien TJO, Ceryak S, Patierno SR 2003. Complexities of chromium carcinogenesis: role of cellular response, repair and recovery mechanisms. Mutation Research/Fundamental and Molecular Mechanisms of Mutagenesis, 533: 3–36.
  • Busaidi MAl, Yesudhason P, Mughairi SAl, Rahbi WAl, Harthy KAl, Mazrooei NAl, Habsi SAl 2011. Toxic metals in commercial marine fish in Oman with reference to national and international standards. Chemosphere, 85: 67–73.
  • Can MF, Mazlum Y, Demirci A, Aktaş M 2004. The Catch Composition and Catch per Unit of Swept Area (CPUE) of Penaeid Shrimps in the Bottom Trawls from İskenderun Bay, Turkey. Turkish Journal of Fisheries and Aquatic Sciences 4: 87-91.
  • Can MF, Yılmaz AB, Mazlum Y 2019. A Meta-Analysis: Geo-statistical approach on the THQ values of Cu, Zn, and Fe accumulation in some fish species from İskenderun Bay, North-Eastern Mediterranean. V. International Congress on Natural and Health Sciences (ICNHS-2019), 69-89.
  • Can MF, Yılmaz AB, Yanar A, Kılıç E 2020. Assessment of Accumulation and Potential Health Risk of Cr, Mn, Fe, Cu, and Zn in Fish from North-Eastern Mediterranean Sea. Pollution, 6(3): 597-610.
  • Censi P, Spoto SE, Saiano F, Sprovieri M, Mazzola S, Nardone G, Di Geronimo SI, Punturo R, Ottonello D 2006. Heavy metals in coastal water systems. A case study from the northwestern Gulf of Thailand. Chemosphere, 64:1167-1176.
  • Cogun HY, uzereroglu TA, Kargın YF, Fırat O 2005. Seasonal variation and tissuedistribution of heavy metals in shrimp and fish species from the Yumurtalik coast of Iskenderun gulf, Mediterranean, Bulletin of Environmental Contamination and Toxicology 75: 707–715.
  • Çoğun HY, Yüzereroğlu TA, Fırat Ö, Gök G, Kargın F 2006. Metal concentrations in fish species from the northeast Mediterranean Sea. Environmental Monitoring and Assessment 121(1-3):431-438.
  • Duysak, Ö, Ersoy B, Dural M 2013. Metal concentrations in different tissues of cuttlefish (Sepia officinalis) in Iskenderun Bay, Northeastern Mediterranean. Turkish Journal of Fisheries and Aquatic Sciences 13(2):205-210.
  • Duysak Ö, Ersoy B 2014. A Biomonitoring Study: Heavy Metals in Monodonta turbinata (Mollusca: Gastropoda) From Iskenderun Bay, North-Eastern Mediterranean. Pakistan Journal of Zoology 46(5): 1317-1322.
  • Dokmeci AH, Yildiz T, Ongen A, Sivri N 2014. Heavy metal concentration in deepwater rose shrimp species (Parapenaeus longirostris, Lucas, 1846) collected from the Marmara Sea Coast in Tekirdağ. Environmental Monitoring and Assessment 186, 2449, 2014.
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İskenderun Körfezi'ndeki iki karides türünün, Penaeus semisulcatus (de Haan, 1844) ve Metapenaeus monoceros'un (Fabricius, 1798) ağır metal içeriği üzerine bir meta analiz

Yıl 2021, , 834 - 849, 31.08.2021
https://doi.org/10.18016/ksutarimdoga.vi.811212

Öz

Aynı bölgeden alınmış ve aynı ağır metaller çalışılmış olsa bile aynı karides türlerinin ağır metal içerikleri farklı çalışmalarda birbirleri ile tutarsız olabilir. Gıda güvenliği riski açısından önemli olmaları nedeniyle, bu sucul organizmaların insan tüketimine yönelik gerçek risk düzeyini değerlendirmek için bir meta-analiz gereklidir. Bu çalışmada, İskenderun Körfezi'nden ticari açıdan önemli iki karides türü, Penaeus semisulcatus (de Hann, 1844) ve Metapenaeus monoceros (Fabricius, 1798), un bazı ağır metal içerikleri (Kadmiyum-Cd, Çinko-Zn, Kurşun-Pb ve Bakır-Cu) bir meta-analiz çalışması ile dikkate alınmıştır. Meta-analiz sonuçları (ortalama ± Sd) karides için izin verilen maksimum sınır (kuru-yaş ağırlık, mg / kg) olan referans değerlere göre aşağıdaki şekilde değerlendirilmiştir; Cd (1 mg / kg), Zn (50 mg / kg), Pb (2 mg / kg) ve Cu (20 mg / kg). Cd için M. monoceros (0,93 ± 0,02 mg / kg) referans sınır aşılmamışken (p> 0,05), P. semisulcatus (3,93 ± 0,12 mg / kg) için referans sınır aşmıştır (p <0,05). Zn için M. monoceros (58,69 ± 7,25 mg / kg) referans sınır (p <0,05) aşılmış, P. semisulcatus (50,28 ± 8,00 mg / kg) için referans sınır aşılmamıştır (p> 0,05). Pb için hem M. monoceros (10,14 ± 4,09 mg / kg) hem de P. semisulcatus (6,30 ± 2,02 mg / kg) referans sınır aşılmıştır (p <0,05). Cu için M. monoceros (23,25 ± 4,34 mg / kg) referans sınır (p> 0,05) aşılmazken, P. semisulcatus (49,68 ± 14,71 mg / kg) referans sınır aşılmıştır (p <0,05). Meta-analiz sonuçlarına rağmen, (i) ağır metallerin insan sağlığı üzerindeki zararlı etkileri yalnızca kontamine kabukluların uzun süreli tüketimi gerçekleştiğinde ortaya çıkar, (ii) bu iki karides türünün ağır metal içeriklerinin referans noktalarını aşıp aşmaığı konusunda nihai olarak karar vermek için çok daha iyi organize edilmiş çalışmalara (daha fazla örnek, uygun örnekleme stratejisi vb.) ihtiyaç vardır.

Proje Numarası

-

Kaynakça

  • Al-Farraj AS, Sewailem MAl, Aly A, Wabel M Al, Wabel MAl 2013. Assessment and heavy metal behaviors of industrial waste water: A case study of Riyadh city, Saudi Arabia Proceedings of the International Academy of Ecology and Environmental Sciences, 3: 266-277.
  • Ali H, Khan E, Ilahi I 2019. Environmental Chemistry and Ecotoxicology of Hazardous Heavy Metals: Environmental Persistence, Toxicity, and Bioaccumulation. Journal of Chemistry, 1–14.
  • Alloway BJ 1990. Heavy metals in soils. New York: Wiley.
  • Anonymous 2008. Regulation of setting maximum levels for certain contaminants in foodstuffs. Official Gazette, 17 May, Issue 26879.
  • ATSDR 2003. Agency for Toxic Substances and Disease Registry. Retrieved Jun 20, 2017, from http://www.atsdr. cdc.gov/toxfaq.html.
  • Aytekin T, Kargın D, Çoğun HY, Temiz Ö, Varkal HS, Kargın F 2019. Accumulation and health risk assessment of heavy metals in tissues of the shrimp and fish species from the Yumurtalik coast of Iskenderun Gulf, Turkey. Heliyon, 5(8), e02131.
  • Barone G, Dambrosio A, Storelli A, Garofalo R, Busco V, Storelli M 2018. Estimated Dietary Intake of Trace Metals from Swordfish Consumption: A Human Health Problem. Toxics 6(2):22.
  • Badr N, El-Fiky A, Mostafa A, Al-Mur B, 2009. Metal pollution records in core sediments of some Red Sea coastal areas, Kingdom of Saudi Arabia. Environmental Monitoring and Assessment155, 509-526.
  • Bosch A O’Neill B, Sigge GO, Kerwath SE, Hoffman LC 2016. Heavy metals in marine fish meat and consumer health: A review. Journal of the Science of Food and Agriculture 96(1): 32–48.
  • Brien TJO, Ceryak S, Patierno SR 2003. Complexities of chromium carcinogenesis: role of cellular response, repair and recovery mechanisms. Mutation Research/Fundamental and Molecular Mechanisms of Mutagenesis, 533: 3–36.
  • Busaidi MAl, Yesudhason P, Mughairi SAl, Rahbi WAl, Harthy KAl, Mazrooei NAl, Habsi SAl 2011. Toxic metals in commercial marine fish in Oman with reference to national and international standards. Chemosphere, 85: 67–73.
  • Can MF, Mazlum Y, Demirci A, Aktaş M 2004. The Catch Composition and Catch per Unit of Swept Area (CPUE) of Penaeid Shrimps in the Bottom Trawls from İskenderun Bay, Turkey. Turkish Journal of Fisheries and Aquatic Sciences 4: 87-91.
  • Can MF, Yılmaz AB, Mazlum Y 2019. A Meta-Analysis: Geo-statistical approach on the THQ values of Cu, Zn, and Fe accumulation in some fish species from İskenderun Bay, North-Eastern Mediterranean. V. International Congress on Natural and Health Sciences (ICNHS-2019), 69-89.
  • Can MF, Yılmaz AB, Yanar A, Kılıç E 2020. Assessment of Accumulation and Potential Health Risk of Cr, Mn, Fe, Cu, and Zn in Fish from North-Eastern Mediterranean Sea. Pollution, 6(3): 597-610.
  • Censi P, Spoto SE, Saiano F, Sprovieri M, Mazzola S, Nardone G, Di Geronimo SI, Punturo R, Ottonello D 2006. Heavy metals in coastal water systems. A case study from the northwestern Gulf of Thailand. Chemosphere, 64:1167-1176.
  • Cogun HY, uzereroglu TA, Kargın YF, Fırat O 2005. Seasonal variation and tissuedistribution of heavy metals in shrimp and fish species from the Yumurtalik coast of Iskenderun gulf, Mediterranean, Bulletin of Environmental Contamination and Toxicology 75: 707–715.
  • Çoğun HY, Yüzereroğlu TA, Fırat Ö, Gök G, Kargın F 2006. Metal concentrations in fish species from the northeast Mediterranean Sea. Environmental Monitoring and Assessment 121(1-3):431-438.
  • Duysak, Ö, Ersoy B, Dural M 2013. Metal concentrations in different tissues of cuttlefish (Sepia officinalis) in Iskenderun Bay, Northeastern Mediterranean. Turkish Journal of Fisheries and Aquatic Sciences 13(2):205-210.
  • Duysak Ö, Ersoy B 2014. A Biomonitoring Study: Heavy Metals in Monodonta turbinata (Mollusca: Gastropoda) From Iskenderun Bay, North-Eastern Mediterranean. Pakistan Journal of Zoology 46(5): 1317-1322.
  • Dokmeci AH, Yildiz T, Ongen A, Sivri N 2014. Heavy metal concentration in deepwater rose shrimp species (Parapenaeus longirostris, Lucas, 1846) collected from the Marmara Sea Coast in Tekirdağ. Environmental Monitoring and Assessment 186, 2449, 2014.
  • European Union, (EU) 2008. Commission Regulation (EC) No.629/2008. Setting maximum levels for certain contaminants in food stuffs. Official Journal of the European Union L 173.
  • European Union, (EU) 2001. Commission Regulation as regards heavy metals, Directive, 2001/22/EC, No: 466.
  • Everaarts JM Nieuwenhuize J 1995. Heavy metals in surface sediment and epibenthic macroinvertebrates from the coastal zone and Continental Slope of Kenya. Marine Pollution Bulletin 31: 281- 290.
  • Fabrizio F 2012. The Response of Benthic Foraminiferal Assemblages to Copper Exposure: A Pilot Mesocosm Investigation. Journal of Environmental Protection, 03(04), 342–352.
  • FAO, 1992. FAO/WHO, Food standard programme. 2nd ed. Codex Alimentarius Commission. 1: 114–190.
  • FAO 2005. Statistics division, food security statistics, food consumption. http:// www.fao.org/es/ESS/faostat/foodsecurity/indexen.htm.
  • FAO 2007. Statistics division, food security statistics, food consumption. http:// www.fao.org/es/ESS/faostat/foodsecurity/index_ en.htm.
  • FAO/WHO 2006. Food and Agriculture Organisation/ World Health Organisation. Provisional agenda, report of the 38th session of the Codex Comitte on Food Additives and Contaminants, Thirty-eight session, The hague, The Neederlands 24-28 April 2006. Retrieved Jun 20, 2017, from ftp://fao.org/codex/ccfac38/fa38-18e.pdf.
  • FAO/WHO 2004. Food and Agriculture Organization/World Health Organisation, Summary of Evaluations Performed by the Joint FAO/WHO Expert Committee on Food Additives (JECFA 1956–2003), (First through sixty first meetings). (Washington D.C.: ILSI Press, International Life Sciences Institute).
  • FAO/WHO, Joint FAO/WHO 2011. Food Standards Programme Codex Committee on Contaminants in Foods, Codex Alimentarius Commission, Hegue, Netherland.
  • Fredrick WS, Ravichandran S 2012. Hemolymph proteins in marine crustaceans. Asian Pacific Journal of Tropical Biomedicine, 2(6), 496–502.
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Toplam 79 adet kaynakça vardır.

Ayrıntılar

Birincil Dil İngilizce
Konular Yapısal Biyoloji
Bölüm ARAŞTIRMA MAKALESİ (Research Article)
Yazarlar

Mehmet Fatih Can 0000-0002-3866-2419

Yavuz Mazlum 0000-0002-9547-0966

A. Bahar Yılmaz 0000-0001-7642-4385

Abdullah Öksüz 0000-0001-8778-9320

Proje Numarası -
Yayımlanma Tarihi 31 Ağustos 2021
Gönderilme Tarihi 16 Ekim 2020
Kabul Tarihi 3 Aralık 2020
Yayımlandığı Sayı Yıl 2021

Kaynak Göster

APA Can, M. F., Mazlum, Y., Yılmaz, A. B., Öksüz, A. (2021). A meta analysis on the heavy metal content of two shrimp species, Penaeus semisulcatus (de Hann, 1844) and Metapenaeus monoceros (Fabricius, 1798) from İskenderun Bay. Kahramanmaraş Sütçü İmam Üniversitesi Tarım Ve Doğa Dergisi, 24(4), 834-849. https://doi.org/10.18016/ksutarimdoga.vi.811212

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