Littoral macroinvertebrates of acidified lakes in the Bohemian Forest

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• 作者：Lenka Ungermanová ; Kate?ina Kola?íková ; Ev?en Stuchlík ; Takaaki Senoo…
• 关键词：lakes ; macroinvertebrates ; acidification ; recovery ; forest catchment
• 刊名：Biologia
• 出版年：2014
• 出版时间：September 2014
• 年：2014
• 卷：69
• 期：9
• 页码：1190-1201
• 全文大小：492 KB
• 参考文献：1. Bitu?ík P. & Svitok M. 2006. Structure of chironomid assemblages along environmental and geographical gradients in the Bohemian Forest lakes (Central Europe): An exploratory analysis. Biologia 61(Suppl. 20): S467–S476. DOI: 10.2478/s11756-007-0063-y CrossRef
  2. Boukal D.S., Boukal M., Fiká?ek M., Hájek J., Kle?ka J., Skalicky S., ??astny J. & Trávní?ek D. 2007. Katalog vodních brouk? ?esky republiky [Catalogue of water beetles of the Czech Republic]. Klapalekiana 43(Suppl.): 1-89.
  3. Boukal D.S., Fiká?ek M., Hájek J., Konvi?ka O., K?ivan V., Sejkora R., Skalicky S., Straka M., Sychra J. & Trávní?ek D. 2012. Nové a zajímavé nálezy vodních brouk? z území ?eské republiky (Coleoptera: Sphaeriusidae, Dytiscidae, Helophoridae, Hydrophilidae, Georissidae, Hydraenidae, Scirtidae, Elmidae, Dryopidae, Limnichidae, Heteroceridae) [New and interesting records of water beetles from the Czech Republic (Coleoptera: Sphaeriusidae, Dytiscidae, Helophoridae, Hydrophilidae, Georissidae, Hydraenidae, Scirtidae, Elmidae, Dryopidae, Limnichidae, Heteroceridae]. Klapalekiana 48(1-): 1-1.
  4. Braukmann U. & Biss R. 2004. Conceptual study -An improved method to assess acidification in German streams by using benthic macroinvertebrates. Limnologica -Ecology and Management of Inland Waters 34(4): 433-50. DOI: 10.1016/S0075-9511(04)80011-2 CrossRef
  5. Dangles O. & Guérold J. 2000. Structural and functional responses of benthic macroinvertebrates to acid precipitation in two forested headwater streams (Vosges Mountains, northeastern France). Hydrobiologia 418(1): 25-1. DOI: 10.1023/A:1003805902634 CrossRef
  6. Dougan W.K. & Wilson A.L. 1974. The absorptiometric determination of aluminium in water. A comparison of some chromogenic reagents and the development of an improved method. Analyst 99(1180): 413-30. DOI: 10.1039/AN9749900413 CrossRef
  7. Driscoll C.T. 1984. A procedure for the fractionation of aqueous aluminium in dilute waters. Int. J. Environ. Anal. Chem. 16(4): 93-04. DOI: 10.1080/03067318408076957 CrossRef
  8. Evans C.D., Cullen J.M., Alewell C., Marchetto A., Moldan F., Kopá?ek J., Prechtel A., Rogora M., Vesely J. & Wright R.F. 2001. Recovery from acidification in European surface waters. Hydrol. Earth Syst. Sci. 5(3): 283-97. DOI: 10.5194/hess-5-283-2001 CrossRef
  9. Fjellheim A. & Raddum G.G. 1990. Acid precipitation: Biological monitoring of streams and lakes. Sci. Total Envir. 96(1-): 57-6. DOI: 10.1016/0048-9697(90)90006-G CrossRef
  10. Fjellheim A., Raddum G.G., Vandvik V., Cog?lniceanu D., Boggero A., Brancelj A., Galas J., Sporka F., Vidinova Y., Bitusik P., Dumnicka E., Galdean N., Kownacki A., Krno I., Preda E., R?snoveanu G. & Stuchlik E. 2009. Diversity and distribution patterns of benthic invertebrates along alpine gradients. A study of remote European freshwater lakes. Adv. Limnol. 62: 167-90. DOI: 10.1127/advlim/62/2009/167
  11. Fott J., Pra?áková M., Stuchlík E. & Stuchlíková Z. 1994. Acidification of lakes in ?umava (Bohemia) and in the High Tatra Mountains (Slovakia). Hydrobiologia 274(1-): 37-7. DOI: 10.1007/BF00014625 CrossRef
  12. Frost S., Huni A. & Kershaw W.E. 1971. Evaluation of a kicking technique for sampling stream bottom fauna. Can. J. Zool. 49(2): 167-73. DOI: 10.1139/z71-026 CrossRef
  13. Graf W., Murphy J., Dahl J., Zamora-Munoz C. & Lopez-Rodriguez M.J. 2008. Trichoptera. Distribution and Ecological Preferences of European Freshwater Organisms. Volume 1. Pensoft Publishers, Sofia-Moscow, 388 pp. ISBN: 9789546424419
  14. Havas M. & Rosseland B.O. 1995. Response of zooplankton, benthos, and fish to acidification: an overview. Water Air Soil Pollut. 85(1): 51-2. DOI: 10.1007/BF00483688 CrossRef
  15. Hendrey G.R. & Wright R.F. 1976. Acid precipitation in Norway: Effects on aquatic fauna J. Great Lakes Res. 2(Suppl. 1): 192-07. DOI: 10.1016/S0380-1330(76)72327-X CrossRef
  16. Horecky J., Stuchlík E., Chvojka P., Hardekopf D.W., Mihaljevi? M. & ?pa?ek J. 2006. Macroinvertebrate community and chemistry of the most atmospherically acidified streams in the Czech Republic. Water Air Soil Pollut. 173(1-): 261-72. DOI: 10.1007/s11270-005-9071-0 CrossRef
  17. Horsák M. 2006. Mollusc community patterns and species response curves along a mineral richness gradient: a case study in fens. J. Biogeograph. 33(1): 98-07. DOI: 10.1111/j.1365-2699.2005.01359.x CrossRef
  18. Ho?ická Z., Stuchlík E., Hudec I., ?erny M. & Fott J. 2006. Acidification and the structure of crustacean zooplankton in mountain lakes: The Tatra Mountains (Slovakia, Poland). Biologia 61(18 Suppl.): S121–S134. DOI: 10.2478/s11756-006-0125-6
  19. Jeffries D.S., Clair T.A., Couture S., Dillon P.J., Dupont J., Keller W.B., McNicol D.K., Turner M.A., Vet R. & Weeber R. 2003. Assessing the recovery of lakes in southeastern Canada from effects of acidic deposition. Ambio 32(3): 176-82. DOI: 10.1579/0044-7447-32.3.176
  20. Kopá?ek J. & Hejzlar J. 1993. Semi-micro determination of total phosphorus in fresh waters with perchloric acid digestion. Int. J. Environ. Anal. Chem. 53(3): 173-83. DOI: 10.1080/03067319308045987 CrossRef
  21. Kopá?ek J., Hejzlar J., Stuchlík E., Fott J. & Vesely J. 1998. Reversibility of acidification of mountain lakes after reduction in nitrogen and sulphur emissions in Central Europe. Limnol. Oceanogr. 43(2): 357-6. DOI: 10.4319/lo.1998.43.2.0357 CrossRef
  22. Kopá?ek J., Stuchlík E., Vesely J., Schaumburg J., Anderson I.C., Fott J., Hejzlar J. & Vrba J. 2002. Hysteresis in reversal of Central European mountain lakes from atmospheric acidification. Water Air Soil Pollut. Focus 2(2): 91-14. DOI: 10.1023/A:1020190205652 CrossRef
  23. Kopá?ek J., Turek J., Hejzlar J. & Porcal P. 2011. Bulk deposition and throughfall fluxes of elements in the Bohemian Forest (Central Europe) from 1998 to 2009. Boreal Envir. Res. 16(6): 495-08.
  24. Kopá?ek J., Vesely J. & Stuchlík E. 2001. Sulphur and nitrogen fluxes and budgets in the Bohemian Forest and Tatra Mountains during the industrial revolution (1850-000). Hydrol. Earth Syst. Sci. 5: 391-05. DOI: 10.5194/hess-5-391-2001 CrossRef
  25. Kownacki A., Galas J., Dumnicka E. & Mielewczyk S. 2000. Invertebrate communities in permanent and temporary high mountain lakes (Tatra Mts.). Ann. Limnol. -Int. J. Limnol. 36(3): 181-88. DOI: 10.1051/limn/2000016 CrossRef
  26. Krno I., ?porka F., Galas J., Hamerlík L., Za?ovi?ová Z. & Bitu?ík P. 2006. Littoral benthic macroinvertebrates of mountain lakes in the Tatra Mountains (Slovakia, Poland). Biologia 61(Suppl. 18): S147–S166. DOI: 10.2478/s11756-006-0127-4 CrossRef
  27. Kubov?ík V. & Bitu?ík P. 2006. Subfossil chironomids (Diptera, Chironomidae) in three Tatra Mountain lakes (Slovakia) on an acidification gradient. Biologia 61(Suppl. 18): S213–S220. DOI: 10.2478/s11756-006-0133-6 CrossRef
  28. Landa V. & Soldán T. 1989. Roz?í?ení jepic v ?SSR a jeho změny v souvislosti se změnami kvality vody v povodí Labe [Distribution of mayflies (Ephemeroptera) in Czechoslovakia and its changes in connection with water quality changes in the Elbe basin]. Studie ?SAV, 17, Academia, Praha, 172 pp.
  29. Laudon H. & Westling O. 2005. Drought induced episodes: Can they counteract the acidification recovery in southern Sweden? p. 384. In: Brimblecombe P., Hiroshi H., Houle D. & Novak M. (eds), Acid Rain 2005, 7^th International Conference on Acid Deposition, Prague, Czech Republic, June 12-7, 2005. Conference Abstracts, ?HMú Praha, 384 pp. ISBN: 978-1-4020-5884-4
  30. Layer K., Hildrew A., Monteith D. & Woodward G. 2010. Long-term variation in the littoral food web of an acidified mountain lake. Global Change Biol. 16(11): 3133-143. DOI: 10.1111/j.1365-2486.2010.02195.x
  31. Ledger M.E. & Hildrew A.G. 2001. Growth of an acid-tolerant stonefly on epilithic biofilms from streams of contrasting pH. Freshwater Biol. 46(11): 1457-470. DOI: 10.1046/j.1365-2427.2001.00764.x CrossRef
  32. Mackereth F.J.H., Heron J. & Talling J.F. 1978. Water Analysis: Some Revised Methods for Limnologists. Freshwater Biological Association Scientific Publication no. 36. Titus Wilson & Sons Ltda, Kendal, 120 pp. ISBN: 0900386312
  33. Majer V., Cosby B.J., Kopá?ek J. & Vesely J. 2003. Modelling reversibility of central European mountain lakes from acidification: Part I -The Bohemian Forest. Hydrol. Earth Syst. Sci. 7: 494-09. DOI: 10.5194/hess-7-494-2003 CrossRef
  34. Moiseenko T.I. 2003. Effects of acidification on aquatic ecosystems. Russ. J. Ecol. 36(2): 93-02. DOI: 10.1007/s11184-005-0017-y CrossRef
  35. Moog O. (ed.) 2002. Fauna Aquatica Austriaca. A Comprehensive Species Inventory of Austrian Aquatic Organisms with Ecological Notes. 2^nd Edition 2002. Wasserwirtschaftskataster, Bundesministerium für Land- und Forstwirtschaft, Umwelt und Wasserwirtschaft, Vienna. xx pp. ISBN: 3-85 174-044-0
  36. Nedbalová L., Vrba J., Fott J., Kohout L., Kopá?ek J., Macek M. & Soldán T. 2006. Biological recovery of the Bohemian Forest lakes from acidification. Biologia 61(20 Suppl.): S453–S466. DOI: 10.2478/s11756-007-0071-y CrossRef
  37. ?kland K.A. & Kuiper J.G.J. 1982. Distribution of small mussels (Sphaeriidae) in Norway, with notes on their ecology. Malacologia 22(1-): 469-77.
  38. ?kland J. & ?kland K.A. 1986. The effects of acid deposition on benthic animals in lakes and streams. Experientia 42(5): 471-86. DOI: 10.1007/BF01946685 CrossRef
  39. Ormerod S.J., Boole P., McCahon C.P., Weatherley N.S., Pascoe D. & Edwards R.W. 1987. Short-term experimental acidification of a Welsh stream: comparing the biological effects of hydrogen ions and aluminium. Freshwater Biol. 17(2): 341-56. DOI: 10.1111/j.1365-2427.1987.tb01054.x CrossRef
  40. Oulehle F., Cosby B.J., Wright R.F., Hru?ka J., Kopá?ek J., Krám P., Evans C.D. & Moldan F. 2012. Modelling soil nitrogen: The MAGIC model with nitrogen retention linked to carbon turnover using decomposer dynamics. Envir. Pollut. 165: 158-66. DOI: 10.1016/j.envpol.2012.02.021 CrossRef
  41. Posch M., Hettelingh J.-P. & Slotweg J. (eds) 2003. Manual for Dynamic Modelling of Soil Response to atmospheric Deposition, RIVM Report 259101012. Bilthoven, Netherlands, 71 pp.
  42. Raddum G.G. & Skjelkv?le B.L. 1995. Critical limits of acidification to invertebrates in different regions of Europe. Water Air Soil Pollut. 85(2): 475-80. DOI: 10.1007/BF00476874 CrossRef
  43. Schartau A.K., Moe S.J., Sandin L., McFarland B. & Raddum G.G. 2008. Macroinvertebrate indicators of lake acidification: analysis of monitoring data from UK, Norway and Sweden. Aquat. Ecol. 42(2): 293-05. DOI: 10.1007/s10452-008-9186-7 CrossRef
  44. Schindler D.W. 1988. Effects of acid rain on freshwater ecosystems. Science 239(4836): 149-57. DOI: 10.1126/science.239.4836.149 CrossRef
  45. Soldán T., Bojková J., Vrba J., Bitu?ík P., Chvojka P., Papá?ek M., Peltanová J., Sychra J. & Tátosová J. 2012. Aquatic insects of the Bohemian Forest glacial lakes: Diversity, longterm changes and influence of acidification. Silva Gabreta 18(3): 123-83.
  46. Stuchlík E., Appleby P., Bitu?ík P., Curtis C., Fott J., Kopá?ek J., Pra?áková M., Rose N., Strunecky O. & Wright R.F. 2002. Reconstruction of long-term changes in lake water chemistry, zooplankton and benthos of a small, acidified high-mountain lake: Magic modelling and paleolimnogical analysis. Water Air Soil Pollut. Focus 2(2): 127-38. DOI: 10.1023/A:1020198424308 CrossRef
  47. Stuchlík E., Kopá?ek J., Fott J. & Ho?ická Z. 2006. Chemical composition of the Tatra Mountain lakes: Response to acidification. Biologia 61(18 Suppl.): S11–S20. DOI: 10.2478/s11756-006-0116-7 CrossRef
  48. ?porka F. 1992. Málo?tetinavce (Oligochaeta) jazier v Západnych Tatrách. Zborník prác o Tatranskom národnom parku 32: 139-48.
  49. Tixier G. & Guérold F. 2005. Plecoptera response of acidification in several head water streams in the Vosges Mountains (northeastern France). Biodivers. Conserv. 14(6): 1525-539. DOI:.10.1007/s10531-004-9790-3 CrossRef
  50. Ungermanová L. 2009. Makrozoobentos litorální zóny acidifikovanych ?umavskych jezer [Macrozoobenthos of the littoral zone of acidified lakes in the Bohemian Forest Mountains]. Diplomová práca. Univerzita Karlova v Praze, P?írodovědecká fakulta, ústav pro ?ivotní prost?edí [Ms., Diploma thesis, Charles University in Prague], 53 pp.
  51. Vesely J. 1994. Investigation of the nature of the ?umava lakes: a review. ?as. Nár. Muz. Praha, ?ada P?írodověd. 163(1-): 103-20.
  52. Vesely J., Kopá?ek J. & Norton S.A. 2003. Increasing temperature decreases aluminium concentrations in Central European lakes recovering from acidification. Limnol. Oceanogr., 48(6): 2346-354. DOI: 10.4319/lo.2003.48.6.2346 CrossRef
  53. Vranovsky M., Krno K., ?porka F. & Tomajka J. 1994. The effect of anthropogenic acidification on the hydrofauna of the lakes of the West Tatra Mountains (Slovakia). Hydrobiologia 274(1-): 163-70. DOI: 10.1007/BF00014639 CrossRef
  54. Vrba J., Kopá?ek J. & Fott J. 2002. ?umavská ledovcová jezera na p?elomu tisíciletí [Glacial Lakes in ?umava/Bohemian Forest lake on the turn of centuries]. ?iva 6: 265-69.
  55. Vrba J., Kopá?ek J., Fott J., Kohout L., Nedbalová L., Pra?áková M., Soldán T. & Schaumburg J. 2003. Long-term studies (1871-000) on acidification and recovery of lakes in the Bohemian Forest (central Europe). Sci. Tot. Envir. 310(1-): 73-5. DOI: 10.1016/S0048-9697(02)00624-1 CrossRef
  56. Wright R.F., Larssen T., Camarero L., Cosby B.J., Ferrier R.C., Helliwell R., Forsius M., Jenkins A., Kopá?ek J., Majer V., Moldan F., Posch M., Rogora M. & Schopp W. 2005. Recovery of acidified European surface water. Environ. Sci. Technol. 38/39(3): 64A-2A. PMID: 15757325 CrossRef
  
• 作者单位：Lenka Ungermanová (1)
  Kate?ina Kola?íková (1)
  Ev?en Stuchlík (1)
  Takaaki Senoo (1)
  Jakub Horecky (1)
  Ji?í Kopá?ek (2)
  Pavel Chvojka (3)
  Jolana Tátosová (1)
  Peter Bitu?ík (4)
  Arne Fjellheim (5)
  
  1. Institute for Environmental Studies, Faculty of Science, Charles University, Benátská 2, 128 01, Prague, Czech Republic
  2. Biology Centre ASCR, Institute of Hydrobiology, Na Sádkách 7, 37005, ?eskě Budějovice, Czech Republic
  3. Department of Entomology, National Museum, Kunratice 1, 148 00, Prague, Czech Republic
  4. Faculty of Science, Matthias Belius University, Tajovského 40, 974 01, Banská Bystrica, Slovakia
  5. Uni Research, Uni Environment, Thorm?hlensgt. 49 B, 5006, Bergen, Norway
  
• ISSN：1336-9563

文摘

Mountain lakes in the Bohemian Forest, on both the Czech and German sides, were atmospherically acidified mainly in the 1960s-980s and have since been recovering from acidification. In 2007, we performed the first complete study on littoral macroinvertebrates in all eight lakes. The goals of the study were to 1) compare macroinvertebrates in the lakes during the process of recovery and 2) investigate relations between the occurrence of taxa and water chemistry. Lake water pH varied from 4.6 to 5.7, concentrations of dissolved reactive Al and labile Al ranged from 118-01 and 11-70 μg L?, respectively, and DOC concentrations were ?. Altogether 73 taxa were identified from all lakes; a positive relationship was found between pH and the number of macroinvertebrate taxa. The highest number of taxa was found in the least acidic lakes Laka and Grosser Arbersee, including the mollusk Pisidium casertanum. In contrast, the lowest diversity was found in the most acidified ?ertovo jezero. Cluster analyses of macroinvertebrates and water chemistry suggested pH as the key factor influencing the occurrence of macroinvertebrate taxa. An interesting finding was the occurrence of the boreo-montane water beetle Nebrioporus assimilis in Prá?ilské record of this species in the Czech Republic since 1960.