Journal of Korean Society for Atmospheric Environment (한국대기환경학회지)

Korean Society for Atmospheric Environment (한국대기환경학회)
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Comparison of Chemical Characteristics in Wet and Bulk Precipitation Collected in the Iksan Area

익산지역에서 자동 및 수동채취방식에 따른 강수의 화학적 특성 비교

  • Published : 2004.06.01
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Abstract

In order to understand the precipitation acidity and chemical composition of ion species in Iksan area as well as to know the difference of chemical characteristics in precipitation samples from the viewpoint of precipitation sampling method, precipitation samples were collected by wet-only automatic precipitation sampler and bulk manual precipitation sampler in Iksan, from March 2003 to August 2003. The mean pH of precipitation was 5.0. There was a little significant difference in the mean value of pH between automatic and manual sampler. However, pH values of some precipitation samples were lower in automatic sampler than in manual sampler, especially in case of precipitation samples with small rainfall for March 2003. The mean concentrations of each ions in precipitation were generally a little higher in precipitation samples collected by the manual sampler than in those collected by the automatic sampler because of accumulation of dry deposition on the surface of glass funnel installed at the manual sampler during the sampling period or no rainfall. Dominant species determining the acidity of precipitation, were N $H_4$$^{[-10]}$ and nss-C $a^{2+}$ for cations and nss-S $O_4$$^{2-}$ and N $O_3$$^{[-10]}$ for anions. The mean concentration of N $H_4$$^{+}$ and nss-C $a^{2+}$ were 31 $\mu$eq/L and 9 $\mu$eq/L for the automatic sampler and 40 ueq/L and 16 ueq/L for the manual sampler, respectively. In addition, nss-S $O_4$$^{2-}$ and N $O_3$$^{[-10]}$ were 27 $\mu$eq/L and 13 $\mu$eq/L for the automatic sampler and 32 $\mu$eq/L and 17 $\mu$eq/L for the manual sampler, respectively. Although the concentrations of the acidifying ions of nss-S $O_4$$^{2-}$ and N $O_3$$^{[-10]}$ were about 3 times higher than those for foreign pristine sites, precipitation acidity were estimated to be natural due to the neutralization reaction of the alkaline species of N $H_4$$^{+}$ and nss-C $a^{2+}$ with its higher concentrations. Considering the ratios of nss-S $O_4$$^{2-}$/N $O_4$$^{[-10]}$ nss-S $O_4$$^{2-}$, it was found that ammonium sulphate was dominant in Iksan precipitation. The major non-sea salt ions were maximum concentrations for March, but decreased with increasing of precipitation amount.on amount.

Keywords

References

  1. 한국대기보전학회지 v.8 no.3 해안지역과 도시지역 강수의 화학적 성상에 관한 연구 강공언;강병욱;김희강
  2. 한국대기보전학회지 v.11 no.1 강화지역 강수의 오염도 평가에 관한 연구 강공언;강병욱;김희강
  3. 한국환경공학회지 v.21 no.1 익산지역에서 봄철 강수의 화학성상과 중화능 강공언;신대윤;김희강
  4. 한국대기환경학회지 v.15 no.4 익산지역 강수의 계절별 산성도와 화학성상 강공언;오인교;김희강
  5. 한국대기보전학회지 v.12 no.4 서울지역 강수중 이온성분 분석자료의 해석 강공언;이주희;김희강
  6. 한국대기보전학회지 v.13 no.1 서울지역 강수 산성도의 장기적 경향분석 강공언;임재현;김희강
  7. 산성우현상에 관한 고찰 국립환경연구소
  8. 한국기상학회지 v.36 no.1 도시지역과 농촌지역에 내린 강수의 중화특성 김지영;전영신;조하만;최재천;남재철;김산
  9. 한국환경과학회지 v.15 no.2 경산에서의 강수의 화학성분과 지상풍과의 관계 문영수;박문기;김희종;김경이;이동인 https://doi.org/10.5322/JES.2006.15.2.141
  10. 대한환경공학회지 v.25 no.12 익산지역 겨울철 강수의 산성도와 이온성분의 화학적 특성 박승택;강공언;최규철
  11. 한국환경과학회지 v.6 no.5 김해지방의 강수의 산도 및 화하적 성분 특성 박종길;박용남;정용승;박국태
  12. 한국대기보전학회지 v.8 no.1 충청북도 농촌 지역의 강수의 산성동에 관한 기초 연구 송기형;박용남;정용승;박국태
  13. 한국대기환경학회지 v.15 no.4 목포, 여천지역 강수의 무기이온 성분농도와 거동에 관한 연구 오길영;양수인;이원진
  14. 한국대기보전학회지 v.12 no.2 충남 웅천에서 관측된 강수의 산성도 연구 이근준;정용승
  15. 우수중의 산성도 요인 분석에 관한 연구 v.10 이정우;강공언;김희강;김정규
  16. 한국기상학회지 v.39 no.1 한반도 배경지역 강수 중 수용성 이온성분의 화학적 특성 분석 조경숙;오성남;최재천;박상순;방소영
  17. 한국대기보전학회지 v.14 no.6 1994-1997년 중부지방에 내린 강수의 화학적 특성 분석 조하만;최재천;김지영;전영신;김산
  18. 한국기상학회지 v.33 no.3 1991-1995년 소백산 지역에 내린 강수의 화학 조성에 관한 연구 최재천;김성균;이민영;김산
  19. 한국대기보전학회지 v.10 no.1 고산지역 강수의 화학 성분 특성에 관한 연구 최재천;이민영;이선기
  20. 환경백서 환경처
  21. 대기환경연보 환경처
  22. 大氣汚染學會誌 v.26 no.2 酸性雨 (酸性雨とその生成メヵニズム) 原宏
  23. 環境技術 v.22 no.10 わガ國における酸性雨の分析デ一タの解析 宗森 信
  24. Atmos. Environ. v.29 no.10 Chemical composition of precipitation near an idustrial area Izmir. Tukey Al-Momani,I.F.;O.Y.Atman;M.A.Anwari;S.Tuncel;C.Kose;G.Tuncel https://doi.org/10.1016/1352-2310(95)00027-V
  25. Environ. Sci. Technol. v.16 no.6 Acid deposition American Chemical Society https://doi.org/10.1021/es00100a604
  26. The environmentalist v.5 Effects of acid depositions on forests and soils Binns,W.O. https://doi.org/10.1007/BF02240323
  27. Tellus v.18 Some remarks on simultaneous measurements of particulate contaminants including radioactivity and isotopic composition of precipitation Bleeker,W.;W.Dansgaard;W.Lablans https://doi.org/10.1111/j.2153-3490.1966.tb00298.x
  28. Atmos. Environ. v.26A Evaluating rainvwater contamination and sources in southeast Australia using factor analysis Bridgman,H.A.
  29. Atmospheric Environment v.26B Acid rain and deterioration of monuments: How old is the phenomenon? Camuffo,D.
  30. Atmos. Res. v.22 Chemical composition of acid rain in the north of Spain: the EPOCA program Casado,H.;A.Ezcurra;N.Durana;J.L.Albala;C.Garcia;I.Ureta;J.P.Lacaux;P.Van Dinh https://doi.org/10.1016/0169-8095(89)90010-0
  31. Atmos. Environ. v.34 Chemical characteristics of aerosols at coastal stationin Hong Kong. I. Seasonal variation of major ions, halogens and mineral dusts detween 1995 and 1996 Cheng,Z.L.;K.S.Lam,;.L.Y.Chan;T.Wang;K.K.Cheng https://doi.org/10.1016/S1352-2310(99)00343-X
  32. International Symposium on the Air Pollution Control Policy and Strategy Chongqing '92.27-29 October Acidification of Rivers and Lakes and Neutralization Mechanisms of Acidic Precipitation by Soil Chohji,T.;Nakagawa,C.
  33. Atmospheric Environment v.30 no.13 Temporal variation and cause of acidic precipitation from a monitoring network in Korea Chung,Y.S.;T.K.Kim;K.H.Kim https://doi.org/10.1016/1352-2310(95)00186-7
  34. Tellus v.41B Processes controlling the concentrations of $SO_4^{2-},\;NO_3^-,\;NH_4^+,\;H^+,\;HCOO^-$ and $CH_3COO^-$ in precipitation on Bermuda Galloway,J.N.;W.C.Keene;R.S.Artz;J.M.Miller;T.M.Church;A.H.Kanp https://doi.org/10.1111/j.1600-0889.1989.tb00319.x
  35. J. Geophys. Res. v.87 The composition of precipitation in remote areas of the world Galloway,J.M.;G.E.Likens;W.C.Keene;J.M.Miller https://doi.org/10.1029/JC087iC11p08771
  36. Atmos. Environ. v.18 The composition of precipitation on Amserdam lsland, Indian Ocean Galloway,J.N.;A.Gaudry https://doi.org/10.1016/0004-6981(84)90329-9
  37. Atmos. Environ. v.27B no.3 Corrosion of ancient marble monuments by rain : Evalution of preindustrial recession rates by laboratory simulations Guidobaldi,F.G.;A.M.Mecchi
  38. Acid rain and acid waters Howells,G.
  39. J. KOSAE v.18 no.E4 Studies on pollution characteristics and sources of precipitation Jeju island Kang,C.H.;W.H.Kim
  40. Water, Air, and Soil Pollution v.151 Comparison of the western and eastern coasts of Korea Kang,G.;J.L.Jr.Collett;D.Y.Shin;S.I.Fujita;H.K.Kim https://doi.org/10.1023/B:WATE.0000009854.40334.da
  41. Journal of Korean Society for Atmos. Environ. v.19 no.E1 Analysis of Precipitation Chemistry at Rural Site in the Eastern Coast, Korea Kang, Gongunn;Dae-Ywen Shin;Hui-Kang Kim
  42. Atmospheric Environment v.19 Trace elements and sea salt aerosols over the sea areas around the Indian sub-continent Khemani,L.T.;G.A.Momin;M.S.Naik;P.S.Prakasa;R.Kumar;R.Murty https://doi.org/10.1016/0004-6981(85)90095-2
  43. Proceedings of CRIEPI International Seminar on Transport and Effects of Acidic Substances, November 28-29, 1996, Nikkei Hall Air pollution research and monitoring of wet deposition in Korea Kim,H.K.
  44. Water Air and Soil Pollut v.43 Effect of simulated acid rain on the growth of soybean Kohno,Y.;T.Kobayashi https://doi.org/10.1007/BF00175579
  45. Atmos. Environ. v.34 Chemical composition of precipitation and wet deposition of major ions on the Korean peninsula Lee,B.K.;S.H.Hong;D.S.Leei https://doi.org/10.1016/S1352-2310(99)00225-3
  46. Atmos. Environ. v.25A Major ions in marine rainwater with attention to sources alkaline and acidic species Losno,P.S.(et al.)
  47. Wat. Resour. Res. v.21 Major ion chemistry and sensitivity to acid precipitation of Siera Nevada lakes Melack,J.M.;J.L.Stoddard;C.A.Ochs https://doi.org/10.1029/WR021i001p00027
  48. National trends network site operation manual, NADP manual 1999-2001 NADP
  49. Atmos. Environ. v.30 no.1 Chemical composition of rainwater in eastern France Sanusi,A.;H.Wortham;M.Millet;P.Mirabel https://doi.org/10.1016/1352-2310(95)00237-S
  50. Atmospheric chemistry and physics from air pollution to climate change Seinfeld,J.H.;S.N.Pandis
  51. Atmos. Environ. v.27B(3) First results of acidic and alkaline constituents determination in air particulates of Thessaloniki, Greece Tsitouridou,R.;C.Samara
  52. International Symposium on the Air Pollution Control Policy and Strategy Chongqing '92, 27-29 October, 1992 Ecological effects of acidic precipitation on lakek and forest Ueki,K.
  53. Atmos. Environ. v.28 no.10 Agricultural exposure to ozone and acid precipitation Westenbarger,D.A.;G.B.Frisvold https://doi.org/10.1016/1352-2310(94)90338-7
  54. Ammonia Technical Report No. 54 WTO: Environmental Health Criteria 54
  55. Atmos. Environ. v.23 no.10 Chloride aerosols in Central Northern England Willson,M.J.;A.G.Clarke;E.M.Zeki https://doi.org/10.1016/0004-6981(89)90185-6
  56. Chemical Oceanography(1, 2 Edition).Academic Salinity and the major elements of seawater Wilson,T.R.S.;Riley,J.P.(Ed);Skirrow,G.(Ed)