• صفحه اصلی
  • اندازه گیری میزان غلظت عناصر سنگین در بافت عضله ماهی کلمه (Rutilus rutilus caspicus Yakovlev, 1870) (مطالعه موردی: رودخانه سیاه درویشان، استان گیلان)

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آدرس مقاله


کد مقاله : JEST-1904-4661 (R1) بازدید : 125 صفحه: 223 - 236

10.22034/jest.2019.44267.4661

نوع مقاله: پژوهشی

اندازه گیری میزان غلظت عناصر سنگین در بافت عضله ماهی کلمه (Rutilus rutilus caspicus Yakovlev, 1870) (مطالعه موردی: رودخانه سیاه درویشان، استان گیلان)

محورهای موضوعی : محیط زیست حوزه های آبخیز رودخانه ها

محمد اتفاق دوست 1 , حمید علاف نویریان 2

1 - دانشجوی دکتری گروه شیلات، دانشکده منابع طبیعی، دانشگاه گیلان، صومعه سرا، گیلان، ایران. *(مسوول مکاتبات)
2 - دانشیار گروه شیلات، دانشکده منابع طبیعی، دانشگاه گیلان، صومعه سرا، گیلان، ایران.

تاریخ دریافت : 1398/02/01 تاریخ پذیرش : 1398/06/06 تاریخ انتشار : 1399/08/01

کلید واژه: عناصر سمی و ضروری, بافت عضله, ماهی کلمه, جذب اتمی,

چکیده مقاله :

زمینه و هدف: عنصرهای سنگین به دلیل برخورداری از ماهیتی تخریب ناپذیر، زمینه ساز تهدیدی جدی برای سلامت آبزیان و همچنین انسان ها در صورت تجمع یافتن سطح غلظت بالایی از آن ها در بافت موجودات آبزی است. به همین منظور مطالعه حاضر با هدف تعیین مقدار و ترتیب غلظت عناصر تجمع یافته در بافت عضله ماهی کلمه رودخانه سیاه درویشان به عنوان یکی از گونه ماهیان برخوردار از ارزش بالای اقتصادی و همینطور تعیین میزان سلامت بهداشتی آن به منظور مصارف تغذیه انسانی، انجام پذیرفته است. روش بررسی: در مطالعه کنونی، مقدار غلظت یازده عنصر (سرب، جیوه، کروم، مس، روی، کادمیوم، آرسنیک، آهن، منگنز، نیکل و سلنیوم) در بافت عضله 25 عدد ماهی کلمه (Rutilus rutilus caspicus) صید شده به کمک تور پرتابی سالیک از رودخانه سیاه درویشان استان گیلان در تابستان سال 95 پس از بهره گیری روش هضم بسته در دستگاه هضم کننده مایکروویو CEM، به وسیله دستگاه طیف سنجی جذب اتمی Varian مورد سنجش و بررسی قرار گرفتند. یافته ها: مقدار کمترین و بیشترین عنصرهای تجمع شده به ترتیب: روی 53/33-58/30، آهن 89/20-63/18، مس 24/4-54/3، منگنز 86/1-55/1، سرب 83/0-81/0، آرسنیک 79/0-74/0، نیکل 61/0-56/0، سلنیوم 51/0-46/0، کادمیوم 32/0-26/0، کروم 16/0-13/0 و جیوه 091/0-078/0 میکروگرم بر گرم وزن خشک، بود. بحث و نتیجه گیری: نتایج نشان داد، میانگین غلظت همه عناصر بافت عضله ماهی کلمه به غیر از پنج عنصر سنگین نیکل (026/0±584/0)، آرسنیک (027/0±764/0)، کادمیوم (024/0±296/0)، منگنز (166/0±665/1) و سرب (011/0±817/0)، کم تر از حد مجاز استاندارد تأیید شده توسط سازمان بین المللی FAO/WHO است.

چکیده انگلیسی:

Background and Objective: Heavy elements, due to their indissoluble structure, pose a serious threat to the health of aquatic animals as well as humans at high level of concentrations in aquatic tissues. For this purpose, the present study aims to investigate concentration and order of elements accumulated in the muscle tissue of Caspian roach (Rutilus rutilus caspicus) in Siah Darvishan River as one of the fish species with high economic value and also the determination of its health for human consumption. Method: In this study, concentration level of eleven heavy elements (Pb, Hg, Cr, Cu, Zn, Cd, As, Fe, Mn, Ni and Se) in muscle tissue of 25 Caspian roach (Rutilus rutilus caspicus) caught by cast net from Siah Darvishan River (Guilan province, Iran) in summer 2016 were digested with closed-vessel method in CEM microwave digestion system afterwards measured and evaluated using by Varian® atomic absorption spectroscopy. Findings: The least and most accumulated elements have been observed, as follows: Zinc 30.58-33.53, Iron 18.63-20.89, Copper 3.54-4.24, Manganese 1.55-1.86, Lead 0.81-0.83, Arsenic 0.74-0.79, Nickel 0.56-0.61, Selenium 0.46-0.51, Cadmium 0.26-0.32, Chromium 0.13-0.16 and Mercury 0.079-0.095 microgram per gram dry weight, respectively. Discussion and Conclusion: The results show that, mean concentrations of all elements in muscle tissue of Caspian roach, except the five heavy elements; Nickel (0.584±0.026), Arsenic (0.764±0.027), Cadmium (0.296±0.024), Manganese (1.665±0.166) and Lead (0.817±0.011), were below than the standard approved by the international organization (FAO/WHO).  

منابع و مأخذ:


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  1. Abolfathi, M., Hajimoradloo, A., Ghorbani, R., Zamani, A., 2012. Effectof starvation and refeeding on digestive enzyme activities in juvenile roach, Rutilus rutilus caspicus. Comparative Biochemistry and Physiology Part A: Molecular & Integrative Physiology, Vol. 161, pp. 166-173.

  2. Härmä, M., Lappalainen, A., Urho, L., 2008. Reproduction areas of roach (Rutilus rutilus) in the northern Baltic Sea: potential effects of climate change. Canadian Journal of Fisheries and AquaticSciences, Vol. 65, pp. 2678-2688.

  3. Halimi, M., Golpour, A., Dadras, H., Mohamadi, M., Chamanara, V., 2014. Quantitative characteristics and chemical composition in Caspian roach (Rutilus rutilus caspicus) sperm. Iranian Journal of Fisheries Sciences, Vol. 13, pp.81-90.

  4. Kiabi, B. H., Abdoli, A., Naderi, M., 1999. Status of the fish fauna in the South Caspian Basin of Iran. Zoology in the Middle East, Vol. 18, pp. 57-65.

  5. Keyvanshokooh, S., Kalbassi, M. R., 2006. Genetic variation of Rutilus rutilus caspicus (Jakowlew 1870) populations in Iran based on random amplified polymorphic DNA markers: a preliminary study. Aquaculture Research, Vol, 37, pp.1437-1440.

  6. Esmaeili, H. R., Coad, B. W., Mehraban, H. R., Masoudi, M., Khaefi, R., Abbasi, K., Mostafavi, H., Vatandoust, S., 2015. An updated checklist of fishes of the Caspian Sea basin of Iran with a note on their zoogeography. Iranian Journal of Ichthyology, Vol. 1, pp.152-184.

  7. Esmaeli, H. R., Teimori, A., Feridon, O., Abbasi, K., Brian, W. C., 2015. Alien and invasive freshwater fish species in Iran: Diversity, environmental impacts and management. Iranian Journal of Ichthyology, Vol. 1, pp. 61-72.

  8. The IUCN., 2018. Red List of Threatened Species 2018: Rutilus caspicus (Caspian Roach) (errata version published in 2018). Ed. by Jörg Freyhof and Emma Brooks. 51nd ed. IUCN Publications Services. Gland, Switzerland, pp. 9-54.

  9. Abbasi, K., Moradkhah, S., Sarpanah, A., 2007. Identification and distribution of fish fauna in Siahdarvishan River (Anzali Wetland basin). Pajouhesh-va-Sazandegi, Vol. 19, pp. 27-39.  (persian)
    10.
  10. Ghafouri, M., Ghaderi, N., Tabatabaei, M., Versace, V., Ierodiaconou, D., Barry, D., Stagnitti, F., 2010. Land use change and nutrients simulation for the Siah Darvishan basin of the Anzali wetland region, Iran. Bulletin of environmental contamination and toxicology, Vol. 84, pp. 240-244.

  11. Järup, L., 2003. Hazards of heavy metal contamination. British medical bulletin, Vol. 68, pp. 167-182.

  12. Castro-González, M., Méndez-Armenta, M., 2008. Heavy metals: Implications associated to fish consumption. Environmental toxicology and pharmacology, Vol. 26, pp. 263-271.

  13. Mazej, Z., Al Sayegh-Petkovšek, S., Pokorny, B., 2010. Heavy metal concentrations in food chain of Lake Velenjsko jezero, Slovenia: an artificial lake from mining. Archives of environmental contamination and toxicology, Vol. 58, pp. 998-1007.

  14. Zhong, W., Zhang, Y., Wu, Z., Yang, R., Chen, X., Yang, J., Zhu, L., 2018. Health risk assessment of heavy metals in freshwater fish in the central and eastern North China. Ecotoxicology and environmental safety, Vol. 157, pp. 343-349.

    1. Bosch, A. C., O'Neill, B., Sigge, G. O., Kerwath, S. E., Hoffman, L. C., 2016. Heavy metals in marine fish meat and consumer health: a review. Journal of the Science of Food and Agriculture, Vol. 96, pp. 32-48.

    2. Pouil, S., Bustamante, P., Warnau, M., Metian, M., 2018. Overview of trace element trophic transfer in fish through the concept of assimilation efficiency. Marine Ecology Progress Series, Vol, 588, pp. 243-254.

    3. Hosseini, S., Karaminasab, M., Batebi-Navaei, M., Aflaki, F., Monsefrad, F., Regenstein, J., Vajdi, R., 2015. Assessment of the essential elements and heavy metals content of the muscle of Kutum (Rutilus frisii kutum) fromthe south Caspian Sea and potential risk assessment. Iranian Journal of Fisheries Sciences, Vol. 14, pp. 660-671.

    4. Pourang, N., Rachti, M. L., Moazami, H., Mostafavi, P. G., 2018. Major and trace elements’ concentrations in hard and soft tissues of kutum, Rutilus kutum, from the Caspian Sea and their potential use as biomonitoring tools. Environmental monitoring and assessment, Vol. 190, pp. 431-444.

    5. Zhang, J. L., Fang, L., Song, J. Y., Luo, X., Fu, K. D., Chen, L. Q., 2019. Health risk assessment of heavy metals in Cyprinus carpio (Cyprinidae) from the upper Mekong River. Environmental Science and Pollution Research, Vol. 26, pp. 9490–9499.

    6. MOOPAM, R., 1999. Manual of oceanographic observations and pollutant analysis methods. ROPME: Regional Organization for the Protection of the Marine Environment. Ed. by Nahida AI-Majed, Hassan Mohammadi and Abdulnabi AI-Ghadban. 3rd ed. Kuwait city, Kuwait, pp. 97-164.

    7. Łuczyńska, J., Paszczyk, B., Łuczyński, M. J., 2018. Fish as a bioindicator of heavy metals pollution in aquatic ecosystem of Pluszne Lake, Poland, and risk assessment for consumer'shealth. Ecotoxicology and environmental safety, Vol. 153, pp. 60-67.

    8. Chahid, A., Hilali, M., Benlhachimi, A., Bouzid, T., 2014. Contents of cadmium, mercury and lead in fish from the Atlantic sea (Morocco) determined by atomic absorption spectrometry. Food chemistry, Vol. 147, pp. 357-360.

    9. FAO/WHO., 1993. Food and Agriculture Organization, World Health Organization. Evaluation of certain food additives and contaminants (report of the joint FAO/WHO expert committee on food additives). WHO Tech. Reports Series No. 837. 41st ed. Geneva, Switzerland, pp. 148-185.

    10. Dallinger, R., Prosi, F., Segner, H., Back, H., 1987. Contaminated food and uptake of heavy metals by fish: a review and a proposal for further research. Oecologia, Vol. 73, pp. 91-98.

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