Korean Journal of Environmental Biology (환경생물)

Korean Society of Environmental Biology (한국환경생물학회)
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Comparing Acute and Swimming Endpoints to Evaluate the Response of Two Freshwater Midge Species, Chironomus yoshimatsui and Chironomus riparius to Heavy Metals

요시마쯔깔따구와 리파리깔따구(파리목: 깔따구과)의 중금속에 대한 급성독성 및 유영능력 비교

  • Yoo DongHun (Kyung Nong Corporation) ;
  • Son Jino (Division of Environmental Science and Ecological Engineering, Korea University) ;
  • Mo Hyoung-ho (Division of Environmental Science and Ecological Engineering, Korea University) ;
  • Bae Yeon Jae (Department of Biology, Seoul Women's University) ;
  • Cho Kijong (Division of Environmental Science and Ecological Engineering, Korea University)
  • 유동현 (주식회사 경농) ;
  • 손진오 (고려대학교 생명환경과학대학 환경생태공학부) ;
  • 모형호 (고려대학교 생명환경과학대학 환경생태공학부) ;
  • 배연재 (서울여자대학교 자연과학대학 생물학과) ;
  • 조기종 (고려대학교 생명환경과학대학 환경생태공학부)
  • Published : 2005.06.01
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Abstract

The relative sensitivity of two freshwater non- biting midges, Chironomus yoshimatsui Martin and Sublette and C. riparius Meigan, was examined for lead, cadmium, and mercury in water- only exposures. Two endpoints were compared to assess toxicity 48 h and 96 h after exposure: Acute toxicity ($50\%$ lethal concentration: $LC_50$) and behavioral toxicity ($50\%$ effective concentration: $EC_{50}$). for the behavioral toxicity, reduction of swimming performance of two midge species in the treated conditions was compared to that in the untreated control. The sensitivities differed depending on the species and heavy metals, although some trends emerged. $LC_50$ values in C. yoshimatsui to cadmium and lead were always higher than those in C. riparius with increasing toxicity, regardless of the exposure times. The opposit was true for the mercury treatment. Similar trends were observed in the $EC_{50}$ values. The $EC_{50}$ values were always lower than the $LC_50$ values in all the treatment cases (midge species, heavy metals, and exposure times). These results indicate that the two midge species respond to the heavy metals differently: C. riparius is sensive to cadmium and lead and C. yoshimatsui to mercury. Behavioral toxicity such as swimming performance can be an effective endpoint for assessing heavy metal toxicity in water.

한국산 요시마쯔깔따구(Chironomus yoshimatsui)의 세 가지 중금속(납, 카드뮴, 수은)에 대한 급성독성 및 행동 독성을 외국 표준 실험 종인 리파리깔따구(C. riparius)와 비교하였다 48시간 및 96시간 동안 수중 노출(water-only exposure)을 시킨 후 두 가지 실험종의 반수치사농도($LC_50$)및 깔따구의 유영 능력 감소에 영향을 주는 농도($EC_{50}$)를 바탕으로 두 실험 종간의 차이를 살펴보았다. 카드뮴과 납에 대하여는 요시마쯔깔따구가 리파리깔따구에 비해 둔감한 반응을 보였으며, 수은에 대하여는 요시마쯔깔따구가 더 민감한 반응을 나타냈다. 모든 실험에서 $LC_50$값과 $EC_{50}$값의 비율이 1보다 높게 나와 사망률보다는 유영 능력을 기준으로 실시한 급성독성 평가가 더욱 민감한 결과를 얻었다. 노출 기간에 따른 급성독성 차이를 살펴본 결과 노출 기간이 길수록 급성독성 및 행동독성도 높게 나타났다.

Keywords

References

  1. 권영택, 이찬원, 안병영, 윤지훈. 1997. 준설해역 오염방지를 위한 하천 퇴적물의 오염 특성 규명. 대한환경공학회 춘계발표회 논문집
  2. 한영희, 이진환, 이순길. 1997. 한강하류의 환경학적 연구 III. 퇴적물. 한국육수학회. 39:299-305
  3. 한국곤충학회.한국응용곤충학회. 1994. 한국곤충명집. 건국대학교 출판부. pp.744
  4. 홍대일, 김성국, 1996. 금호강 퇴적물의 유독성 오염물질의 거동 특성. 환경과학논집. 낙동강환경연구소. 1:171-182
  5. Armitage PD, PS Cranston and LCV Pinder. 1995. The Chironomidae: the Biology and Ecology of non-Biting Midges. Chapman and Hall, London
  6. Eisler R. 2000. Handbook of Chemical Risk Assessment: Health Hazards to Humans, Plants, and Animals. Vol. 1-Metals. Lewis Publishers. Florida
  7. Groenendijk D, MHS Kraak and W Admiraal. 1999. Efficient shedding of accumulated metals during metamorphosis in metal-adapted populations of the midge Chironomus riparius. Environ. Toxicol. Chem. 18:1225-1231 https://doi.org/10.1897/1551-5028(1999)018<1225:ESOAMD>2.3.CO;2
  8. Haanstra L, P Doleman and JH Oude Voshaar. 1985. The use of sigmoidal response curves in soil ecotoxicological research. Plant soil 84:293-297 https://doi.org/10.1007/BF02143194
  9. LeOra Software. 1987. POLO-PC: A users guide to Probit or Logit analysis. LeOra Software, Berkeley, California
  10. Miall LC. 1895. The natural history of aquatic insects. Macmillan and Co. London. pp. 122-152
  11. Milani D, TB Reynoldson, U Borgmann and J Kolasa. 2003. The relative sensitivity of four benthic invertebrates to metals in spiked-sediment exposures and application to contaminated field sediment. Environ. Toxicol. Chem. 22:845-854 https://doi.org/10.1897/1551-5028(2003)022<0845:TRSOFB>2.0.CO;2
  12. OECD. 2001. OECD guidelines for testing of chemicalsproposal for a new guideline. 219: Sediment-Water chironomid toxicity test using spiked water
  13. Oliver DR. 1971. Life history of the Chironomidae. Annu. Rev. Entomol. 16:211-230 https://doi.org/10.1146/annurev.en.16.010171.001235
  14. Pinder LCV. 1986. Biology of freshwater Chironomidae. Annu. Rev. Entomol. 31:1-23 https://doi.org/10.1146/annurev.en.31.010186.000245
  15. Postma JF, P van Nugteren and MB Buckerr-de Jong. 1996. Increased cadmium excretion in metal-adapted populations of the midge Chironomus riparius (Diptera). Environ. Toxicol. Chem. 15:332-339 https://doi.org/10.1897/1551-5028(1996)015<0332:ICEIMA>2.3.CO;2
  16. Robertson JL and HK Preisler. 1991. Pesticide bioassays with arthropods. CRC Press. Florida
  17. SAS Institute. 1995. SAS user's guide. SAS Institute. NC
  18. Sumi Y, T Suzuki, M Yamamura, S Hatakeyama, Y Sugaya and KT Suzuki. 1984. Histochemical staining of cadmium taken up by the midge larva, Chironomus yoshimtsui (Diptera, Chironomidae). Comp. Biochem. Physiol. A. 79:353-357 https://doi.org/10.1016/0300-9629(84)90526-7
  19. Taylor EJ, SJ Blackwell, SJ Maund and D Pascoe. 1993. Effect of lindane on the life cycle of a freshwater macroinvertebrate Chironomus riparius Meigen (Insecta: Diptera). Arch. Environ. Contam. Toxicol. 24:145-150 https://doi.org/10.1007/BF01141340
  20. US Environmental Protection Agency. 1994. Short-term methods For estimating the chronic toxicity of effluents and receiving water to freshwater organisms. 3rd Edition. EPA/600/4-19/002. pp. 31-34
  21. Williams KA, DWJ Green and D Pascoe. 1985. Studies on the acute toxicity of pollutants to freshwater macroinvertebrates. 1. Cadmium. Arch. Hydrobiol. 102:461-471
  22. Yamamura M, KT Suzuki, S Hatakeyama and K Kubota. 1983. Tolerance to cadmium and cadmium-binding pro-teins induced in the midge larva, Chironomus yoshimatsui (Diptera, Chironomidae). Comp. Biochem. Physiol. C. 75: 21-24 https://doi.org/10.1016/0742-8413(83)90005-1
  23. Yoon IB and DJ Chun. 1992. Systematics of the genus Chironomus (Diptera: Chironomidae) in Korea. Entomol. Res. Bull. 18:1-14