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Water, Air, and Soil Pollution

, Volume 119, Issue 1–4, pp 387–420 | Cite as

Effects of Environmental Stress on Forest Crown Condition in Europe. Part IV: Statistical Analysis of Relationships

  • Jaco M. Klap
  • Jan H. Oude Voshaar
  • Wim De VriesEmail author
  • Jan Willem Erisman
Article

Abstract

Site-specific estimates for various environmentalstress factors were related with measured crowncondition data at a systematic 16 ×: 16 km2 gridover Europe, according to previously statedhypotheses, using a multiple regression approach,including interactions, and lagged effects of stressfactors. Methodological differences among countriesaccounted for >30% of the variation in defoliation.Nevertheless, crown condition was found to varynaturally with tree age, altitude, drought stress and,most likely, also pathogenic fungi and insects.Significant impacts of air pollution (specificallyozone but also NOx, SOx and acid deposition)were found at regional levels in parts of centralEurope, particularly for deciduous species. Impactsseemed less significant for conifers, especially forspruce, but this might be affected by confoundingeffects or strong correlations between (a harsh)climate and (low) atmospheric deposition in the areawhere spruce predominates. National studies indicatethat ozone and acid deposition can have a significanteffect on the defoliation of spruce as well. Weconclude that while forest condition varies naturally,continued emissions will contribute further to forestdecline in the long term.

acid deposition air pollution correlative study critical load defoliation Fagus sylvatica forest vitality meteorological stress Picea abies Pinus sylvestris Quercus ilex Quercus petraea Quercus robur 

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References

  1. Aronsson, A.: 1980, Frost hardiness in Scots pine. II Hardiness during winter and spring in young trees of different mineral status. Studia Forestalia Suecica 155, 1.Google Scholar
  2. Baeumler, A.: 1995, 'Marginal Regression Models for Spatial or Temporal Correlated Forest Damage Data', in R. W. Payne (ed.), Spatial and Temporal Modelling in Agricultural Research, Rothamsted IACR-Rothamsted, Proceedings of Fourth HARMA Workshop, pp. 32–42.Google Scholar
  3. Bouhot, L., Landmann, G. and Pierrat, J.-C.: 1992, Résultat de l'exercise d'intercalibration entre équipes, Ministère de l'agriculture et de la pêche. Département de santé des forêts.Google Scholar
  4. Branderud, T. E.: 1995, The effects of experimental nitrogen addition on the mycorrhizal fungus floar in an oligotrophic spruce forest in Gårdsjön, Sweden. For. Ecol. Manage. 71, 111.Google Scholar
  5. Chappelka, A. H., Chevone, B. I. and Burk, T. E.: 1985, Growth response of yellow poplar (Liriodendron tulpifera L.) seedlings to ozone, sulphur dioxide and simulated acidic precipitation, alone and in combination. Experimental Botany 25, 233.Google Scholar
  6. De Kam, M., Versteegen, C. M., Van den Burg, J. and Van der Werf, D. C.: 1991, Effects of fertilization with ammonium sulphate on the development of Spaeropsis sapinea in Corsican pine. Neth. J. Plant Path. 97, 265.Google Scholar
  7. De Vries, W.: 1993, Average critical loads for nitrogen and sulfur and its use in acidification abatement policy in The Netherlands. Water, Air, and Soil Pollut. 68, 399.Google Scholar
  8. De Vries, W. and Kros, J.: 1989, 'The Long-Term Impact of Acid Deposition on the Aluminium Chemistry of an acid Forest Soil', in J. Kämäri, D. F. Brække, A. Jenkins, S. A. Norton and R. F. Wright (eds.), Regional Acidification Models. Geographic Extent and Time Development, pp. 113–128.Google Scholar
  9. De Vries, W., Leeters, E. E. J. M. and Hendriks, C. M. A.: 1995, Effects of acid deposition on Dutch forest ecosystems. Water, Air, and Soil Pollut. 85, 1063.Google Scholar
  10. De Vries, W., Klap, J. M. and Erisman, J. W.: 2000a, 'Effects of environmental stress and forest crown condition in Europe. Part I: hypotheses and approach to the study', Water, Air, and Soil Pollut. 119, 317.Google Scholar
  11. De Vries, W., Reinds, G. J., Klap, J. M., Van Leeuwen, E. P. and Erisman, J. W.: 2000b, 'Effects of environmental stress on forest crown condition in Europe. Part III: estimation of critical deposition and concentration levels and their exceedances', Water, Air, and Soil Pollut. 119, 363.Google Scholar
  12. Emberson, L. D., Kuylenstierna, J. C. I., Ashmore, M. R., Cambridge, H. M. and Cinderby, S.: 1996, 'Mapping Relative Sensitivuty of Vegetation to Ozone in Europe: A Preliminary Analysis', in M. Knoflacher and G. Soja (eds.), Exceedances of Critical Loads and Levels, Proceedings of a international workshop, November 1996, Vienna, pp. 22–24.Google Scholar
  13. EC and UN/ECE: 1997a, Forest condition in Europe. 1997 Executive report.UN/ECE and EC. Geneva, Brussels.Google Scholar
  14. Erisman, J.W., Potma, C., Draaijers, G. P. J. and Van Leeuwen, E. P.: 1996, A generalised description of the deposition of acidifying pollutants on a small scale in Europe. Water, Air, and Soil Pollut. 85, 2101.Google Scholar
  15. Ferretti, M., Cenni, E. and Cozzi, A.: 1994, Assessment of tree crown transparancy and discolouration as perfomed by surveyors from six European countries. Linnaea ambiente. Firenze.Google Scholar
  16. Hendriks, C. M. A., Van den Burg, J., Oude Voshaar, J. H. and Van Leeuwen, E. P.: 1997, Relationships between forest condition and stress factors in The Netherlands in 1995. Wageningen, DLO Winand Staring Centre. Report 148.Google Scholar
  17. Innes, J. L., Landmann, G. and Mettendorf, B.: 1993, Consistency of observation of forest tree defoliation in three European countries. Environmental Monitoring and Assessment 25, 29.Google Scholar
  18. Kerstiens, G.: 1995, Cuticular ware performance of European trees and shrubs grown in polluted and unpolluted atmospheres, and its relation to stomatal response to humidity in beech (Fagus sylvatica L.). New Phytol. 112, 13.Google Scholar
  19. Klap, J. M., de Vries, W., Erisman J. W. and van Leeuwen, E. P.: 1997, Relationships between forest condition and natural and anthropogenic stress factors on the European scale; pilot study. Wageningen, DLO Winand Staring Centre. Report 150.Google Scholar
  20. Klap, J. M., de Vries, W., Hendriks, C. M. A., Oude Voshaar, J. J., Reinds, G. J., van Leeuwen, E. P. and Erisman, J. W.: 1998, Assessment of the possibilities to derive relationships between stress factors and forest condition for Europe. Wageningen, DLO Winand Staring Centre. Report 149.Google Scholar
  21. Liang, K. Y. and Zeger, S. L.: 1986, Longitudinal data analysis using generalized linear models, Biometrika 73, 13.Google Scholar
  22. Lammel, R.: 1984, Endgültige Ergebnisse und bundesweite Kartierung der Waldschadenserhebung. Allg. Forstz. 39, 340.Google Scholar
  23. Mather, R. A.: 1994, Forest Condition in Great Britain, 1988 to 1992. Oxford, University of Oxford. 53 p.Google Scholar
  24. Montoya, R. and Sanchez, G.: 1992, Analísis de los resultados de evaluación sobre espcies forestales mediterraneas. Segovia, Instituto nacional para conservación de la naturaleza.Google Scholar
  25. Müller-Edzards, C., de Vries, W. and Erisman, J. W. (eds.): 1997a, Ten years of forest condition monitoring in Europe - Studies in temporal development, spatial distribution and impacts of natural and anthropogenic stress factors. Technical background report. EC and UN/ECE. Geneva, Brussels.Google Scholar
  26. Müller-Edzards, C., Erisman, J. W., de Vries, W., Dobbertin, M. and Gosh, S.: 1997b, Ten years of forest condition monitoring in Europe, Studies on temporal development, spatial distribution and impacts of natural and anthropogenic stress factors. Overview Report. EC and UN/ECE. Brussels, Geneva.Google Scholar
  27. Nakos, G.: 1995, 8th International EU/ICP-Forest intercalibration course for Mediterranean countries. Forest Research Institute, Athens, Greece.Google Scholar
  28. Nelleman, C. and Frogner, T.: 1994, Spatial patterns of spruce defoliation seen in relation to acid depostion, critical loads and natural growth condition in Norway. Ambio 23(4-5), 255.Google Scholar
  29. Olsthoorn, A. F. M.: 1998, Soil acidification effects on fine root growth of Douglas-fir on sandy soil. Ph.D. Thesid, Wageningen Agricultural University.Google Scholar
  30. Pierrat, J.-C. and Landmann, G.: 1996, Methods of standardizing results of annual assessment of crown condition in European forests. Interim Report. INRA/ENGREF, Nancy; Min. Agri. DSF, Paris.Google Scholar
  31. Schneider, B. U., Meyer, J., Schulze, E.-D. and Zech, W.: 1989, 'Root and Mycorrizal Development in Healthy and Declining Norway Spruce Stands', in E. D. Schulze, O. L. Lange and R. Oren (eds.), Forest Decline and Air Pollution, Berlin, Springer Verlag, pp. 370–391.Google Scholar
  32. Schütt, P., Blaschke, H., Hogue, E., Koch, W., Lang, K. J. and Schuck, H. J.: 1983, Erste Ergebnisse einer botanischen Inventur des 'Fichtensterbens'. Forstwiss. Zentralbl. 96, 177.Google Scholar
  33. Solberg, S. and Tørseth, K.: 1997, Crown condition of Norway spruce in relation to sulphur and nitrogen deposition and soil properties in southeast Norway. Environmental Pollution 96(1), 19.Google Scholar
  34. Sverdrup, H. and Warfvinge, P.: 1993, The effect of soil acidification in the growth of trees, grass and herbs as expressed by the (Ca+Mg+K)/Al ration. Reports in ecology and environmental engineering 1993: 2. Lund University, Dept. of Chemical Engineering II.Google Scholar
  35. Thimonier, A., Dupouey, J. L., Bost, F. and Becker, M.: 1994, Simultaneous eutrophication and acidification of a forest in North-East France. New Phytol. 126, 533.Google Scholar
  36. Thomson, M. G. and Nelleman, C.: 1994, Isolation of natural factors affecting crown density and crown color in coniferous forest: Implications for monitoring of forest decline. Ambio 23, 251.Google Scholar
  37. Van den Burg, J. and Kiewiet, H. P.: 1989, Veebezetting en de naaldsamenstelling van grove den, Douglas en Corsicaanse den in het Peelgebied in de periode 1956 t/m 1988. Een onderzoek naar de betekenis van de veebezetting voor het optreden van bosschade. Wageningen, Instituut voor Bosbouw en Groenbeheer. Rapport 559.Google Scholar
  38. Van Dobben, H. F., Vocks, M. J. M. R., Jansen, E. and Dirkse, G. M.: 1994, Veranderingen in de ondergroei van het Nederlandse dennenbos over de periode 1985-1993. IBN Rapport 085.Google Scholar
  39. Van Leeuwen, E. P., Hendriks, C. M. A., Klap, J. M., de Vries, W., De Jong, E. and Erisman, J. W.: 2000, 'Effects of environmental stress on forest crown condition in Europe. Part II: estimation of stress induced by meteorology and air pollutants', Water, Air, and Soil Pollut. 119, 385.Google Scholar
  40. Van Pul, W. A. J., Potma, C. J. M., van Leeuwen, E. P., Draaijers, G. P. J. and Erisman, J. W.: 1995, EDACS: European Deposition maps of Acidifying Components on a Small Scale. Model description and results. RIVM report No. 722401005. Bilthoven, The Netherlands.Google Scholar
  41. Vanmechelen, L., Groenemans, R. and van Ranst, E.: 1997, Forest soil condition report: Results of a large scale survey. Brussels, Geneva, EC, UN/ECE and Flemish Community.Google Scholar

Copyright information

© Kluwer Academic Publishers 2000

Authors and Affiliations

  • Jaco M. Klap
    • 1
  • Jan H. Oude Voshaar
    • 1
  • Wim De Vries
    • 1
    Email author
  • Jan Willem Erisman
    • 2
  1. 1.DLO – Winand Staring Centre for Integrated Land Soil and Water Research (SC-DLO)WageningenThe Netherlands
  2. 2.Energy Centre Netherlands (ECN)PettenThe Netherlands

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