Abstract
Sea urchin embryos and sperm were utilized for evaluating the toxicity of water and sediment from two rivers, the Sarno (S) River and the Volturno (V) River, in the Campania region, Italy. The effects on developing embryos were evaluated by scoring developmental defects, whereas sperm exposure was tested for the effects on fertilization and offspring quality. Ten sampling sites from the rivers (S.1–S.4 and V.1–V.6) were monitored for water and sediment quality. Water sampling was carried out biweekly for a year (1988–1989); the samples were tested at dilutions 10−4 to 10−2 in natural seawater. Sediment tests were carried out on solid phase samples (collected in 1989 to 1992), at concentrations ranging from 2 to 10 mg/ml (dry wt) in seawater. The tests conducted on water samples mostly led to nonsignificant results in either embryo-or spermiotoxicity, possibly due to sharp changes in pollutant levels in the water column. Unlike water, sediment samples displayed clear-cut results both on embryogenesis and on fertilization success. The grain size of sediment failed to reveal any relationship with toxicity, which could only be referred to the presence of toxic contaminants (Melluso et al., 1993). The most polluted sediment samples displayed a dramatic embryo-toxicity, up to approximately 87% developmental arrest in embryos reared in 2 mg/ml of sediment from site S.1 (affected by leather tanning effluent). These results were independent of storage conditions of sediment samples (i.e., at +4°C or −20°C). A decrease in fertilization success was also induced by sediment samples from polluted sites (not by a relatively unpolluted reference sample). Interestingly, sediment spermiotoxicity appeared to be related to storage temperature in samples from two agricultural sites (S.3 and V.6), in that freezing caused a drop in sample spermiotoxicity compared to refrigeration; e.g., a sample from site V.6 stored at +4°C decreased fertilization rate (FR) to 9% versus a control value of 86%, whereas the same sample induced but a minor change following storage at −20°C (FR=68%).
In general, a better reliability was observed for sediment bioassays than for water bioassays, thus suggesting that future biomonitoring studies should mainly focus on sediment quality. The use of solid phase sediment in toxicity testing by sea urchin embryos and sperm is warranted by the present results.
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References
Abel PD (1991) Approaches to measuring the toxicity of pollutants to marine organisms. In: Abel PD, Axiak V (eds) Ecotoxicology and the marine environment. Ellis Horwood, NY, pp 19–38
Amodio R, Del Prete U, Fiore P (1984) Carico di azoto e fosforo in acque fluviali della Campania. Igiene Moderna 82:456–463
Amodio-Cocchieri R, Arnese A (1988) Organochlorine pesticide residues in fish from Southern Italian rivers. Bull Environ Contam Toxicol 40:233–239
Dinnel PA, Pagano P, Oshida PS (1988) A sea urchin test system for marine environmental monitoring. In: Burke RD, Mladenov PV, Lambert P, Parsley RL (eds) Echinoderm biology. Balkema, Rotterdam, Holland, pp 611–619
Dinnel PA, Link JM, Stober QJ, Letourneau MW, Roberts WE (1989) Comparative sensitivity of sea urchin sperm bioassays to metals and pesticides. Arch Environ Contam Toxicol 18:748–755
Melluso G, Pagano G, Esposito A, Guida M (1991) Project # ICP/CEH 039 ITA 127(G). Final Report, WHO, Mediterranean Action Plan, Athens, Greece
Melluso G, Esposito A, Guida M, Pagano G (1993) Distribution of inorganic and organic pollutants in river sediments in Campania, Italy. Submitted to Bull Environ Contam Toxicol
Pagano G, Esposito G, Giordano GG (1982) Fertilization and larval development in sea urchins following exposure of gametes and embryos to cadmium. Arch Environ Contam Toxicol 11:47–55
Pagano G, Esposito A, Bove P, DeAngelis M, Rota A, Giordano GG (1983) The effects of hexavalent and trivalent chromium on fertilization and development in sea urchins. Environ Res 30:442–452
Pagano G, Cipollaro M, Corsale G, Esposito A, Ragucci E, Giordano GG, Trieff NM (1986) The sea urchin: Bioassay for the assessment of damage from environmental contaminants: In: Cairns J, Jr (ed) Community toxicity testing. American Society for Testing and Materials, Philadelphia, PA, pp 67–92
Pagano G, Corsale G, Esposito A, Romaña LA, Trieff NM (1988) Increase of domestic sewage toxicity as a consequence of treatment by flocculating agents as determined by the sea urchin bioassay. Proc 31 ICSEM 31:166
Pagano G, Corsale G, Esposito A, Dinnel P, Romaña LA (1989) Use of sea urchin sperm and embryo bioassay in testing the sublethal toxicity of realistic pollutant levels. In: Grandjean E (ed) Carcinogenic, mutagenic, and teratogenic marine pollutants: Impact on human health and the environment. Gulf, Houston, TX, pp 153–163
Pagano G, Melluso G, Esposito A, Guida M, Ciaccio A, Corsale G (1990) Project # ICP/CEH 039-ITA 113(G), Final Report, WHO, Mediterranean Action Plan, Athens, Greece
Sakamoto H, Hayatsu H (1990) A simple method for monitoring mutagenicity of river water. Mutagens in Yodo River system, Kyoto-Osaka. Bull Environ Contam Toxicol 44:521–528
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Pagano, G., Anselmi, B., Dinnel, P.A. et al. Effects on sea urchin fertilization and embryogenesis of water and sediment from two rivers in Campania, Italy. Arch. Environ. Contam. Toxicol. 25, 20–26 (1993). https://doi.org/10.1007/BF00230706
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DOI: https://doi.org/10.1007/BF00230706