Araştırma Makalesi
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Yıl 2023, Cilt: 8 Sayı: 2, 106 - 118, 07.08.2023
https://doi.org/10.28978/nesciences.1338143

Öz

Kaynakça

  • Adel, M., Mohammadmoradi, K., & Ley-Quiñonez, C.P. (2017). Trace element concentrations in muscle tissue of milk shark, (Rhizoprionodon acutus) from the Persian Gulf. Environmental Science and Pollution Research, 24(6), 5933-5937. https://doi.org/10.1007/s11356-016-8358-6.
  • Álvaro-Berlanga, S., Calatayud-Pavía, C.E., Cruz-Ramírez, A., Soto-Jiménez, M.F., & Liñán-Cabello, M.A. (2021). Trace elements in muscle tissue of three commercial shark species: Prionace glauca, Carcharhinus falciformis, and Alopias pelagicus off the Manzanillo, Colima coast, Mexico. Environmental Science and Pollution Research, 28,22679-22692. https://doi.org/10.1007/s11356-020-12234-5.
  • Barrera-García, A., O'Hara, T., Galván-Magaña, F., Méndez-Rodríguez, L.C., Castellini, J.M., & Zenteno-Savín, T. (2013). Trace elements and oxidative stress indicators in the liver and kidney of the blue shark (Prionace glauca). Comparative Biochemistry and Physiology Part A, 165, 483-490. https://doi.org/10.1016/j.cbpa.2013.01.024.
  • Bears, H., Richards, J.G., & Schulte, P.M. (2006). Arsenic exposure alters hepatic arsenic species composition and stress-mediated gene expression in the common killifish (Fundulus heteroclitus). Aquatic Toxicology, 77, 257-266. https://doi.org/10.1016/j.aquatox.2005.12.008.
  • Bosch, A.C., O’Neill, B., Sigge, G.O., Kerwath, S.E., & Hoffman, L.C. (2016). Heavy metal accumulation and toxicity in smoothhound (Mustelus mustelus) shark from Langebaan Lagoon, South Africa, Food Chemistry, 190, 871-878. https://doi.org/10.1016/j.foodchem.2015.06.034.
  • Celechovska, O,, Harkabusova, V., Macharackova, B., Vitoulova, E., & Lavickova, A. (2011). Accumulation of arsenic during the growing period of rainbow trout (Oncorhynchus mykiss). Acta Veterinaria Brno, 80, 219-225. https://doi.org/10.2754/avb201180020219.
  • Cockell, K.A., Hilton, J.W., & Bettger, W.J. (1991). Chronic toxicity of dietary disodium arsenate heptahydrate to juvenile rainbow trout (Oncorhynchus mykiss). Archives of Environmental Contamination and Toxicology, 21, 518-552. https://doi.org/10.1007/BF01183873.
  • Compagno, L.J.V. (1984). FAO Species Catalogue. Vol. 4. Sharks of the world. An annotated and illustrated catalogue of shark species known to date. Part 1 - Hexanchiformes to Lamniformes. FAO Fish Finder – Synopses,. 125(4/1), 1-249. Rome, FAO.
  • Compagno, L.J.V. (2001). Sharks of the world. An annotated and illustrated catalogue of shark species known to date. Vol. 2. Bullhead, mackerel and carpet sharks (Heterodontiformes, Lamniformes and Orectolobiformes). FAO species catalogue. Fish. Purp., 1(2), 269 p. FAO, Rome.
  • Corsolini, S., Ancora, S., Bianchi, N., Mariotti, G., Leonzio, C., & Christiansen, J.S. (2014). Organotropism of persistent organic pollutants and heavy metals in the Greenland shark Somniosus microcephalus in NE Greenland. Marine Pollution Bulletin, 87,381-387. https://doi.org/10.1016/j.marpolbul.2014.07.021.
  • Çiftçi, N., Ayas, D., & Bakan, M. (2021). The comparison of heavy metal level in surface water, sediment and biota sampled from the polluted and unpolluted sites in the northeastern Mediterranean Sea. Thalassas: An International Journal of Marine Sciences, 37,319-330 https://doi.org/10.1007/s41208-020-00239-3.
  • Delshad, S.T., Mousavi, S.A., Islami, H.R., & Pazira, A. (2012). Mercury concentration of the whitecheek shark, Carcharhinus dussumieri (Elasmobranchii, Chondrichthyes), and its relation with length and sex. Pan-American Journal of Aquatic Sciences, 7(3), 135-142.
  • Di Giulio, R.T., & Meyer, J.N. (2008). Reactive oxygen species and oxidative stress. pp. 273-326. In: Di Giulio, R.T., Hinton, D.E. (Eds.), The Toxicology of Fishes. CRC Press, Boca Raton, FL.
  • Doğdu, S. A., Çiftçi, N., Ayas, D., & Turan, C. (2021). Potential Usage of Pufferfish Dentin as a Metal Accumulation Indicator. Journal of Water Chemistry and Technology, 43, 269-275. https://doi.org/10.3103/S1063455X21030061
  • Duker, A.A., Carranza, E.J.M., & Hale, M. (2005). Arsenic geochemistry and health. Environment International, 31 (5), 631-641. https://doi.org/10.1016/j.envint.2004.10.020.
  • Endo, T., Hisamichi, Y., Haraguchi, K., Kato, Y., Ohta, C., & Koga, N. (2008). Hg, Zn and Cu levels in the muscle and liver of tiger sharks (Galeocerdo cuvier) from the coast of Ishigaki Island, Japan: relationship between metal concentrations and body length. Marine Pollution Bulletin, 56, 1774-1780. https://doi.org/10.1016/j.marpolbul.2008.06.003.
  • Exley, C., Chappell, J.S., & Birchall, J.D. (1991). A mechanism for acute aluminium toxicity in fish. Journal of Theoretical Biology, 151(3), 417-428. https://doi.org/10.1016/S0022-5193(05)80389-3.
  • Francesconi, K.A., Edmonds, J.S., & Morita, M. (1994). Determination of arsenic and arsenic species in marine environmental samples. pp. 189-219, In: Nriagu JO eds. Arsenic in the Environment, Part I: Cycling and Characterization. New York: John Wiley & Sons.
  • Goldstein, R., & Schnellmann, R. (1996). Toxic reponses of the kidney. pp. 417-422. In: Klaassen, C. (Ed.), Casarett and Doull's Toxicology: The Basic Science of Poisons. McGraw-Hill, New York. Grotti, M., Soggia, F., Lagomarsino, C., Goessler, W., & Francesconi, K.A. (2008). Arsenobetaine is a significant arsenical constituent of the red Antarctic alga Phyllophora antarctica. Environmental Chemistry, 5, 171-175. https://doi.org/10.1071/EN08025.
  • Hahn, M.E., & Hestermann, E.V. (2008). Receptor mediated mechanisms of toxicity. pp. 235-272, In: Di Giulio, R.T., Hinton, D.E. (Eds.), The Toxicology of Fishes. CRC Press, New York..
  • Jardine, T., Kidd, K., & O'Driscoll, N. (2013). Food web analysis reveals effects of pH on mercury bioaccumulation at multiple trophic levels in streams. Aquatic Toxicology, 132 (133), 46-52. https://doi.org/10.1016/j.aquatox.2013.01.013.
  • Kumari, B., Kumar, V., Sinha, A.K., Ahsan, J., Ghosh, A.K.,Wang, H., & DeBoek, G. (2017). Toxicology of arsenic in fish and aquatic systems. Environmental Chemistry Letters, 15, 43-64. https://doi.org/10.1007/s10311-016-0588-9.
  • Lara, A., Galván-Magaña, F., Elorriaga-Verplancken, F., Marmolejo-Rodríguez, A.J., Gonzalez-Armas, R., Arreola-Mendoza, L., Sujitha, S.B., & Jonathan, M.P. (2020). Bioaccumulation and trophic transfer of potentially toxic elements in the pelagic thresher shark Alopias pelagicus in Baja California Sur, Mexico. Marine Pollution Bulletin, 156, 111192. https://doi.org/10.1016/j.marpolbul.2020.111192.
  • Marques, A.F.S., Alves, L.M.F., Moutinho, A., Lemos, M.F.L., & Novais, S.C. (2021). Scyliorhinus canicula (Linnaeus, 1758) metal accumulation: A public health concern for Atlantic fish consumers?. Marine Pollution Bulletin, 169, 112477. https://doi.org/10.1016/j.marpolbul.2021.112477.
  • McMillan, P.J., Griggs, L.H., Francis, M.P., Marriott, P.J., Paul, L.J., Mackay, E., Wood, B.A., Sui, H., & Wei, F. (2011). New Zealand fishes. Volume 3: A field guide to common species caught by surface fishing. New Zealand Aquatic Environment and Biodiversity Report No. 69. 145 p.
  • Mendil, D., Demirci, Z., Tuzen, M., & Soylak, M. (2010). Seasonal investigation of trace element contents in commercially valuable fish species from the Black sea, Turkey. Food and Chemical Toxicology, 48, 865-870. https://doi.org/10.1016/j.fct.2009.12.023.
  • Michalska-Mosiej, M., Socha, K., Soroczynska, J., Karpinska, E., Łazarczyk, B., & Borawska, M.H. (2016). Selenium, zinc, copper, and total antioxidant Status in the Serum of patients with chronic tonsillitis. Biological Trace Element Research, 173, 30-34 http://dx.doi.org/10.1007/s12011-016-0634-2.
  • Monette, M.Y., Bjornson, B.T., & McCormick, S.D. (2008). Effects of short-term acid and aluminium exposure on the parr-smolt transformation in Atlantic Salmon (Salmo salar) disruption of seawater tolerance and endocrine status. General and Comparative Endocrinology, 158, 122-130. https://doi.org/10.1016/j.ygcen.2008.05.014.
  • Mull, C.G., Blasius, M.E., O’Sullivan, J., & Low, C.G. (2012). Heavy metals, trace elements, and organochlorine contaminants in muscle and liver tissue of juvenile white sharks (Carcharodon carcharias) from the Southern California bight. In: Domeier, M.L. (Ed.), Global Perspectives on the Biology and Life History of the Great White Shark. CRC Press, Florida.
  • Nicolaus, E.M., Bendall, V.A., Bolam, T.P., Maes, T., & Ellis, J.R. (2016). Concentrations of mercury and other trace elements in porbeagle shark Lamna nasus. Marine Pollution Bulletin, 112(1-2), 406–410. https://doi.org/10.1016/j.marpolbul.2016.07.047
  • Ohki, A., Nakajima, T., & Maeda, S. (2002). Studies on the accumulation and transformation of arsenic in freshwater organisms II. Accumulation and transformation of arsenic compounds by Tilapia mossambica. Chemosphere, 46, 325-331. https://doi.org/10.1016/S0045-6535(01)00085-6.
  • Olgunoğlu, M.P., Artar, E., & Olgunoğlu, İ.A. (2015). Comparison of Heavy Metal Levels in Muscle and Gills of Four Benthic Fish Species from the Northeastern Mediterranean Sea. Polish Journal of Environmental Studies, 24 (4), 1743-1748. https://doi.org/10.15244/pjoes/38972.
  • Ong, M.C., & Gun, S.L. (2017). Assessment of metallic trace elements in the muscles and fins of four landed elasmobranchs from Kuala Terengganu Waters, Malaysia. Marine Pollution Bulletin, 124, 1001-1005. https://doi.org/10.1016/j.marpolbul.2017.08.019.
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First Report on the Elemental Composition of the Bigeye Thresher Shark Alopias superciliosus Lowe, 1841 from the Mediterranean Sea

Yıl 2023, Cilt: 8 Sayı: 2, 106 - 118, 07.08.2023
https://doi.org/10.28978/nesciences.1338143

Öz

Cartilaginous fish species have ecological importance. Besides, the ecotoxicological studies on these species are pretty insufficient. In this study, Al, Cr, Mn, Fe, Cu, Zn, As, Pb, Cd, and Sr levels were determined in muscle, liver, gill, kidney, spleen, stomach, and gonad tissues of Alopias superciliosus (Female, 240 cm TL) caught from Mersin Bay. Tissue metal analysis was determined by Inductively Coupled Plasma Mass Spectrometry (ICP-MS). A statistical difference was found among the tissues in terms of the metals. Fe was determined to be the highest level in all tissues (p<0.05). The relation between tissues in terms of Fe level was determined as Liver>Gill>Spleen>Gonad>Kidney>Stomach>Muscle. Zn was detected at higher levels in the liver and stomach and As in other tissues after Fe. Al has the highest level after Zn and As and was mainly found in the gills. The tissue Cu and Zn levels were found in the same order from highest to lowest as Liver>Gonad>Kidney>Spleen≥ Stomach>Gill>Muscle. Sr was higher in the stomach, gonad, and kidney than in the other tissues. Cd levels were found in higher than Pb levels in the examined tissues. Liver Cd level was determined as 57.37 µg g-1 dw. Except for the liver, Mn levels were found low than Cr levels in the examined tissues. The distinction between the tissue levels of the investigated elements has changed depending on the functional differences between the tissues and metal metabolisms.

Kaynakça

  • Adel, M., Mohammadmoradi, K., & Ley-Quiñonez, C.P. (2017). Trace element concentrations in muscle tissue of milk shark, (Rhizoprionodon acutus) from the Persian Gulf. Environmental Science and Pollution Research, 24(6), 5933-5937. https://doi.org/10.1007/s11356-016-8358-6.
  • Álvaro-Berlanga, S., Calatayud-Pavía, C.E., Cruz-Ramírez, A., Soto-Jiménez, M.F., & Liñán-Cabello, M.A. (2021). Trace elements in muscle tissue of three commercial shark species: Prionace glauca, Carcharhinus falciformis, and Alopias pelagicus off the Manzanillo, Colima coast, Mexico. Environmental Science and Pollution Research, 28,22679-22692. https://doi.org/10.1007/s11356-020-12234-5.
  • Barrera-García, A., O'Hara, T., Galván-Magaña, F., Méndez-Rodríguez, L.C., Castellini, J.M., & Zenteno-Savín, T. (2013). Trace elements and oxidative stress indicators in the liver and kidney of the blue shark (Prionace glauca). Comparative Biochemistry and Physiology Part A, 165, 483-490. https://doi.org/10.1016/j.cbpa.2013.01.024.
  • Bears, H., Richards, J.G., & Schulte, P.M. (2006). Arsenic exposure alters hepatic arsenic species composition and stress-mediated gene expression in the common killifish (Fundulus heteroclitus). Aquatic Toxicology, 77, 257-266. https://doi.org/10.1016/j.aquatox.2005.12.008.
  • Bosch, A.C., O’Neill, B., Sigge, G.O., Kerwath, S.E., & Hoffman, L.C. (2016). Heavy metal accumulation and toxicity in smoothhound (Mustelus mustelus) shark from Langebaan Lagoon, South Africa, Food Chemistry, 190, 871-878. https://doi.org/10.1016/j.foodchem.2015.06.034.
  • Celechovska, O,, Harkabusova, V., Macharackova, B., Vitoulova, E., & Lavickova, A. (2011). Accumulation of arsenic during the growing period of rainbow trout (Oncorhynchus mykiss). Acta Veterinaria Brno, 80, 219-225. https://doi.org/10.2754/avb201180020219.
  • Cockell, K.A., Hilton, J.W., & Bettger, W.J. (1991). Chronic toxicity of dietary disodium arsenate heptahydrate to juvenile rainbow trout (Oncorhynchus mykiss). Archives of Environmental Contamination and Toxicology, 21, 518-552. https://doi.org/10.1007/BF01183873.
  • Compagno, L.J.V. (1984). FAO Species Catalogue. Vol. 4. Sharks of the world. An annotated and illustrated catalogue of shark species known to date. Part 1 - Hexanchiformes to Lamniformes. FAO Fish Finder – Synopses,. 125(4/1), 1-249. Rome, FAO.
  • Compagno, L.J.V. (2001). Sharks of the world. An annotated and illustrated catalogue of shark species known to date. Vol. 2. Bullhead, mackerel and carpet sharks (Heterodontiformes, Lamniformes and Orectolobiformes). FAO species catalogue. Fish. Purp., 1(2), 269 p. FAO, Rome.
  • Corsolini, S., Ancora, S., Bianchi, N., Mariotti, G., Leonzio, C., & Christiansen, J.S. (2014). Organotropism of persistent organic pollutants and heavy metals in the Greenland shark Somniosus microcephalus in NE Greenland. Marine Pollution Bulletin, 87,381-387. https://doi.org/10.1016/j.marpolbul.2014.07.021.
  • Çiftçi, N., Ayas, D., & Bakan, M. (2021). The comparison of heavy metal level in surface water, sediment and biota sampled from the polluted and unpolluted sites in the northeastern Mediterranean Sea. Thalassas: An International Journal of Marine Sciences, 37,319-330 https://doi.org/10.1007/s41208-020-00239-3.
  • Delshad, S.T., Mousavi, S.A., Islami, H.R., & Pazira, A. (2012). Mercury concentration of the whitecheek shark, Carcharhinus dussumieri (Elasmobranchii, Chondrichthyes), and its relation with length and sex. Pan-American Journal of Aquatic Sciences, 7(3), 135-142.
  • Di Giulio, R.T., & Meyer, J.N. (2008). Reactive oxygen species and oxidative stress. pp. 273-326. In: Di Giulio, R.T., Hinton, D.E. (Eds.), The Toxicology of Fishes. CRC Press, Boca Raton, FL.
  • Doğdu, S. A., Çiftçi, N., Ayas, D., & Turan, C. (2021). Potential Usage of Pufferfish Dentin as a Metal Accumulation Indicator. Journal of Water Chemistry and Technology, 43, 269-275. https://doi.org/10.3103/S1063455X21030061
  • Duker, A.A., Carranza, E.J.M., & Hale, M. (2005). Arsenic geochemistry and health. Environment International, 31 (5), 631-641. https://doi.org/10.1016/j.envint.2004.10.020.
  • Endo, T., Hisamichi, Y., Haraguchi, K., Kato, Y., Ohta, C., & Koga, N. (2008). Hg, Zn and Cu levels in the muscle and liver of tiger sharks (Galeocerdo cuvier) from the coast of Ishigaki Island, Japan: relationship between metal concentrations and body length. Marine Pollution Bulletin, 56, 1774-1780. https://doi.org/10.1016/j.marpolbul.2008.06.003.
  • Exley, C., Chappell, J.S., & Birchall, J.D. (1991). A mechanism for acute aluminium toxicity in fish. Journal of Theoretical Biology, 151(3), 417-428. https://doi.org/10.1016/S0022-5193(05)80389-3.
  • Francesconi, K.A., Edmonds, J.S., & Morita, M. (1994). Determination of arsenic and arsenic species in marine environmental samples. pp. 189-219, In: Nriagu JO eds. Arsenic in the Environment, Part I: Cycling and Characterization. New York: John Wiley & Sons.
  • Goldstein, R., & Schnellmann, R. (1996). Toxic reponses of the kidney. pp. 417-422. In: Klaassen, C. (Ed.), Casarett and Doull's Toxicology: The Basic Science of Poisons. McGraw-Hill, New York. Grotti, M., Soggia, F., Lagomarsino, C., Goessler, W., & Francesconi, K.A. (2008). Arsenobetaine is a significant arsenical constituent of the red Antarctic alga Phyllophora antarctica. Environmental Chemistry, 5, 171-175. https://doi.org/10.1071/EN08025.
  • Hahn, M.E., & Hestermann, E.V. (2008). Receptor mediated mechanisms of toxicity. pp. 235-272, In: Di Giulio, R.T., Hinton, D.E. (Eds.), The Toxicology of Fishes. CRC Press, New York..
  • Jardine, T., Kidd, K., & O'Driscoll, N. (2013). Food web analysis reveals effects of pH on mercury bioaccumulation at multiple trophic levels in streams. Aquatic Toxicology, 132 (133), 46-52. https://doi.org/10.1016/j.aquatox.2013.01.013.
  • Kumari, B., Kumar, V., Sinha, A.K., Ahsan, J., Ghosh, A.K.,Wang, H., & DeBoek, G. (2017). Toxicology of arsenic in fish and aquatic systems. Environmental Chemistry Letters, 15, 43-64. https://doi.org/10.1007/s10311-016-0588-9.
  • Lara, A., Galván-Magaña, F., Elorriaga-Verplancken, F., Marmolejo-Rodríguez, A.J., Gonzalez-Armas, R., Arreola-Mendoza, L., Sujitha, S.B., & Jonathan, M.P. (2020). Bioaccumulation and trophic transfer of potentially toxic elements in the pelagic thresher shark Alopias pelagicus in Baja California Sur, Mexico. Marine Pollution Bulletin, 156, 111192. https://doi.org/10.1016/j.marpolbul.2020.111192.
  • Marques, A.F.S., Alves, L.M.F., Moutinho, A., Lemos, M.F.L., & Novais, S.C. (2021). Scyliorhinus canicula (Linnaeus, 1758) metal accumulation: A public health concern for Atlantic fish consumers?. Marine Pollution Bulletin, 169, 112477. https://doi.org/10.1016/j.marpolbul.2021.112477.
  • McMillan, P.J., Griggs, L.H., Francis, M.P., Marriott, P.J., Paul, L.J., Mackay, E., Wood, B.A., Sui, H., & Wei, F. (2011). New Zealand fishes. Volume 3: A field guide to common species caught by surface fishing. New Zealand Aquatic Environment and Biodiversity Report No. 69. 145 p.
  • Mendil, D., Demirci, Z., Tuzen, M., & Soylak, M. (2010). Seasonal investigation of trace element contents in commercially valuable fish species from the Black sea, Turkey. Food and Chemical Toxicology, 48, 865-870. https://doi.org/10.1016/j.fct.2009.12.023.
  • Michalska-Mosiej, M., Socha, K., Soroczynska, J., Karpinska, E., Łazarczyk, B., & Borawska, M.H. (2016). Selenium, zinc, copper, and total antioxidant Status in the Serum of patients with chronic tonsillitis. Biological Trace Element Research, 173, 30-34 http://dx.doi.org/10.1007/s12011-016-0634-2.
  • Monette, M.Y., Bjornson, B.T., & McCormick, S.D. (2008). Effects of short-term acid and aluminium exposure on the parr-smolt transformation in Atlantic Salmon (Salmo salar) disruption of seawater tolerance and endocrine status. General and Comparative Endocrinology, 158, 122-130. https://doi.org/10.1016/j.ygcen.2008.05.014.
  • Mull, C.G., Blasius, M.E., O’Sullivan, J., & Low, C.G. (2012). Heavy metals, trace elements, and organochlorine contaminants in muscle and liver tissue of juvenile white sharks (Carcharodon carcharias) from the Southern California bight. In: Domeier, M.L. (Ed.), Global Perspectives on the Biology and Life History of the Great White Shark. CRC Press, Florida.
  • Nicolaus, E.M., Bendall, V.A., Bolam, T.P., Maes, T., & Ellis, J.R. (2016). Concentrations of mercury and other trace elements in porbeagle shark Lamna nasus. Marine Pollution Bulletin, 112(1-2), 406–410. https://doi.org/10.1016/j.marpolbul.2016.07.047
  • Ohki, A., Nakajima, T., & Maeda, S. (2002). Studies on the accumulation and transformation of arsenic in freshwater organisms II. Accumulation and transformation of arsenic compounds by Tilapia mossambica. Chemosphere, 46, 325-331. https://doi.org/10.1016/S0045-6535(01)00085-6.
  • Olgunoğlu, M.P., Artar, E., & Olgunoğlu, İ.A. (2015). Comparison of Heavy Metal Levels in Muscle and Gills of Four Benthic Fish Species from the Northeastern Mediterranean Sea. Polish Journal of Environmental Studies, 24 (4), 1743-1748. https://doi.org/10.15244/pjoes/38972.
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Ayrıntılar

Birincil Dil İngilizce
Konular Hidrobiyoloji, Balık Biyolojisi, Balık Zararlıları ve Hastalıkları
Bölüm 1
Yazarlar

Nuray ÇİFTÇİ Bu kişi benim

Bedii CİCİK Bu kişi benim

Deniz AYAS Bu kişi benim

Yayımlanma Tarihi 7 Ağustos 2023
Gönderilme Tarihi 19 Aralık 2022
Yayımlandığı Sayı Yıl 2023 Cilt: 8 Sayı: 2

Kaynak Göster

APA ÇİFTÇİ, N., CİCİK, B., & AYAS, D. (2023). First Report on the Elemental Composition of the Bigeye Thresher Shark Alopias superciliosus Lowe, 1841 from the Mediterranean Sea. Natural and Engineering Sciences, 8(2), 106-118. https://doi.org/10.28978/nesciences.1338143

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