Concentrations of lead in some coastal fishes from the Baltic Sea

Estonian Journal of Ecology Pub Date : 2014-03-01 DOI:10.3176/ECO.2014.1.04

H. Voigt

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Considering the significant inflow of lead into the sea and over its vast drainage area (e.g. Ruhling et al., 1992; HELCOM, 1997, 2003, 2010; Bartnicki et al., 2000; Buse et al., 2003) this is rather surprising. In the 1970s some investigations on the concentrations of lead in certain species of Baltic fish, mainly Baltic herring (Clupea harengus membras L.) and cod (Gadus morhua callaris L.), were performed (e.g. Lehtonen, 1973; Voipio et al., 1977; Tervo et al., 1980; Perttila et al., 1982), followed by attempts at its monitoring, mainly in the muscle tissue of herring and in the liver of cod, for the Baltic Marine Environment Protection Commission (Helsinki Commission, HELCOM) by some Baltic national research institutes, e.g. the Finnish Institute of Marine Research (Haahti, 1991), the Swedish Museum of Natural History (Jorhem and Sundstrom, 1993), and the Estonian Marine Institute (Jankovski et al., 1996). In the southern Baltic Sea similar investigations additionally included sprat (Sprattus sprattus balticus Schn.), flounder (Platichthys flesus L.), perch (Perca fluviatilis L.), and some other species (Falandysz and Lorenc-Biala, 1984). After confirmation that lead mainly concentrates in internal organs, such as kidney and liver, and bone tissue of fish (e.g. Reichenbach-Klinke, 1980), and not in muscle tissue like mercury, the interest in such monitoring declined significantly, especially because the observed concentrations of lead in the muscle tissue of fish were far below the accepted security levels for fish as food for human consumption (e.g. Nuutamo et al., 1980; Haahti, 1991; Tahvonen and Kumpulainen, 1996; Leivuori, 2007). Starting again in the 1980s, monitoring of the concentrations of lead has been continued, with mainly liver and muscle tissue of herring studied (e.g. Jankovski et al., 1996; Roots and Simm, 2002; Lind et al., 2006; Leivuori, 2007). The present study focuses on the concentrations of lead in the muscle tissue and some internal organs, mainly liver, but in some cases also in gonads, kidneys, spleen, and bile, of some representative coastal fish species from various parts of the Baltic Sea, including two coastal inlets in SW Finland (isolated in the late 1950s from the Baltic Sea). The aim is to survey and to compare the concentrations of lead in the similar fish species as in previous studies from various parts of the Baltic Sea (Voigt, 1999, 2000a, 2000b, 2003, 2004, 2008a, 2008b, 2013). MATERIAL AND METHODS Some abundant coastal fish species (adults and mainly of comparable size for each species separately, with the exception for the fishes from two isolated freshwater reservoirs, see below) from various parts of the Baltic Sea (Fig. 1) were sampled in the autumn season during the years 1997-2006 for analysis of concentrations of lead in muscle tissue and some internal organs, mainly liver and gonads. 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引用次数: 3

Abstract

INTRODUCTION In contrast to other harmful metals, as e.g. mercury and cadmium, the concentrations of lead in coastal fishes from the Baltic Sea have attracted far less attention (e.g. von Westernhagen and Bignert, 1996; Jezierska and Witeska, 2001; Szefer, 2002; Pokorska et al., 2012; Nyberg et al., 2013; Boalt et al., 2014) although effects of this toxic metal on humans (e.g. Guinnee, 1972; Bremner, 1974; Brian et al., 1980; IPCS, 1989; ATSDR, 2005), fishes, mammals, and birds (e.g. Haider, 1964, 1977; NRCC, 1979; Atchison et al., 1987; Eisler, 1988; Hofer and Lackner, 1995; Pain, 1996; Dietz et al., 1998) have been documented. Considering the significant inflow of lead into the sea and over its vast drainage area (e.g. Ruhling et al., 1992; HELCOM, 1997, 2003, 2010; Bartnicki et al., 2000; Buse et al., 2003) this is rather surprising. In the 1970s some investigations on the concentrations of lead in certain species of Baltic fish, mainly Baltic herring (Clupea harengus membras L.) and cod (Gadus morhua callaris L.), were performed (e.g. Lehtonen, 1973; Voipio et al., 1977; Tervo et al., 1980; Perttila et al., 1982), followed by attempts at its monitoring, mainly in the muscle tissue of herring and in the liver of cod, for the Baltic Marine Environment Protection Commission (Helsinki Commission, HELCOM) by some Baltic national research institutes, e.g. the Finnish Institute of Marine Research (Haahti, 1991), the Swedish Museum of Natural History (Jorhem and Sundstrom, 1993), and the Estonian Marine Institute (Jankovski et al., 1996). In the southern Baltic Sea similar investigations additionally included sprat (Sprattus sprattus balticus Schn.), flounder (Platichthys flesus L.), perch (Perca fluviatilis L.), and some other species (Falandysz and Lorenc-Biala, 1984). After confirmation that lead mainly concentrates in internal organs, such as kidney and liver, and bone tissue of fish (e.g. Reichenbach-Klinke, 1980), and not in muscle tissue like mercury, the interest in such monitoring declined significantly, especially because the observed concentrations of lead in the muscle tissue of fish were far below the accepted security levels for fish as food for human consumption (e.g. Nuutamo et al., 1980; Haahti, 1991; Tahvonen and Kumpulainen, 1996; Leivuori, 2007). Starting again in the 1980s, monitoring of the concentrations of lead has been continued, with mainly liver and muscle tissue of herring studied (e.g. Jankovski et al., 1996; Roots and Simm, 2002; Lind et al., 2006; Leivuori, 2007). The present study focuses on the concentrations of lead in the muscle tissue and some internal organs, mainly liver, but in some cases also in gonads, kidneys, spleen, and bile, of some representative coastal fish species from various parts of the Baltic Sea, including two coastal inlets in SW Finland (isolated in the late 1950s from the Baltic Sea). The aim is to survey and to compare the concentrations of lead in the similar fish species as in previous studies from various parts of the Baltic Sea (Voigt, 1999, 2000a, 2000b, 2003, 2004, 2008a, 2008b, 2013). MATERIAL AND METHODS Some abundant coastal fish species (adults and mainly of comparable size for each species separately, with the exception for the fishes from two isolated freshwater reservoirs, see below) from various parts of the Baltic Sea (Fig. 1) were sampled in the autumn season during the years 1997-2006 for analysis of concentrations of lead in muscle tissue and some internal organs, mainly liver and gonads. Besides bow-nets and gillnets trawling was used for sampling. The following five fish species were focused upon: * Baltic herring, sampled from Peimari-Pemarn in the Finnish Archipelago Sea ([Angstrom]-AS), Tvarminne area at the Finnish SW coast of the Gulf of Finland (H-Tva), and Vaike Vain Strait at the western Estonian coast (VV); * smelt (Osmerus eperlanus L.) from the rivermouth area of the Kokemaenjoki-Kumoalv in the Bothnian Sea (RKK), Peimari-Pemarn (A-AS), Tvarminne (H-Tva), Vaike Vain (VV), and south-western coastal freshwater basin of Pargas-Parainen (PP); * perch from Tvarminne (H-Tva), Vaike Vain (VV), Pargas-Parainen (PP), and the southern coastal freshwater basin of Gennarby (Gby); * eelpout (Zoarces viviparus L. …

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波罗的海沿岸一些鱼类体内的铅浓度

与汞和镉等其他有害金属相比，波罗的海沿岸鱼类中铅的浓度所引起的注意要少得多(如von westerhagen和Bignert, 1996年;Jezierska and Witeska, 2001;Szefer, 2002;Pokorska et al.， 2012;Nyberg et al.， 2013;Boalt等人，2014)，尽管这种有毒金属对人类的影响(例如Guinnee, 1972;Bremner 1974;Brian et al.， 1980;ipc, 1989;ATSDR, 2005年)、鱼类、哺乳动物和鸟类(如Haider, 1964年，1977年;NRCC, 1979;Atchison et al.， 1987;艾斯勒,1988;Hofer and Lackner, 1995;疼痛,1996;Dietz et al.， 1998)有文献记载。考虑到大量铅流入海洋及其广阔的流域(如Ruhling等，1992;Helcom, 1997,2003,2010;Bartnicki et al.， 2000;Buse et al.， 2003)这是相当令人惊讶的。在20世纪70年代，对某些波罗的海鱼类，主要是波罗的海鲱鱼(Clupea harengus membras L.)和鳕鱼(Gadus morhua callaris L.)中的铅浓度进行了一些调查(例如Lehtonen, 1973;Voipio et al.， 1977;Tervo et al.， 1980;Perttila等人，1982年)，随后一些波罗的海国家研究机构，如芬兰海洋研究所(Haahti, 1991年)、瑞典自然历史博物馆(Jorhem和Sundstrom, 1993年)和爱沙尼亚海洋研究所(Jankovski等人，1996年)，为波罗的海海洋环境保护委员会(赫尔辛基委员会，HELCOM)进行了主要在鲱鱼肌肉组织和鳕鱼肝脏中的监测尝试。在波罗的海南部，类似的调查还包括鲽鱼(Sprattus Sprattus balticus Schn.)、比目鱼(Platichthys flesus L.)、鲈鱼(Perca fluviatilis L.)和其他一些物种(Falandysz和Lorenc-Biala, 1984年)。在确认铅主要集中在内部器官，如肾脏和肝脏以及鱼类的骨组织(例如Reichenbach-Klinke, 1980)，而不是像汞一样集中在肌肉组织之后，对这种监测的兴趣显著下降，特别是因为观察到的鱼类肌肉组织中的铅浓度远远低于作为人类食用的鱼类的公认安全水平(例如Nuutamo等人，1980;Haahti, 1991;Tahvonen and Kumpulainen, 1996;Leivuori, 2007)。从1980年代开始，继续监测铅浓度，主要研究鲱鱼的肝脏和肌肉组织(例如Jankovski等人，1996年;Roots and Simm, 2002;林德等人，2006;Leivuori, 2007)。目前的研究集中在肌肉组织和一些内脏器官中的铅浓度，主要是肝脏，但在某些情况下也在性腺、肾脏、脾脏和胆汁中，这些鱼类来自波罗的海不同地区，包括芬兰西南部的两个沿海入口(20世纪50年代末从波罗的海分离出来)。目的是调查和比较波罗的海不同地区的类似鱼类的铅浓度(Voigt, 1999年，2000年a, 2000年b, 2003年，2004年，2008年a, 2008年b, 2013年)。材料和方法1997-2006年秋季，我们从波罗的海不同地区采集了一些丰富的沿海鱼类(每种鱼类的成鱼和主要大小相当，两个独立淡水水库的鱼类除外，见下文)(图1)，用于分析肌肉组织和一些内脏器官(主要是肝脏和性腺)中的铅浓度。除弓网和刺网外，还使用拖网进行取样。重点研究了以下五种鱼类:波罗的海鲱鱼，样本来自芬兰群岛海([Angstrom]-AS)的Peimari-Pemarn，芬兰湾芬兰西南海岸的Tvarminne地区(H-Tva)和爱沙尼亚西部海岸的Vaike Vain海峡(VV);*来自波黑海域Kokemaenjoki-Kumoalv河口地区(RKK)、Peimari-Pemarn (A-AS)、Tvarminne (H-Tva)、Vaike Vain (VV)和parga - parainen西南沿海淡水盆地(PP)的臭鼬(Osmerus eperlanus L.);来自Tvarminne (H-Tva)， Vaike Vain (VV)， Pargas-Parainen (PP)和Gennarby南部沿海淡水盆地(Gby)的鲈鱼;* elelpout (Zoarces viviparus L. ...

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Estonian Journal of Ecology

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