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Indicators of ecological change: comparison of the early response of four organism groups to stress gradients

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Abstract

A central goal in monitoring and assessment programs is to detect change early before costly or irreversible damage occurs. To design robust early-warning monitoring programs requires knowledge of indicator response to stress as well as the uncertainty associated with the indicator(s) selected. Using a dataset consisting of four organism groups (fish, macrophytes, benthic diatoms and macroinvertebrates) and catchment, riparian and in-stream physico-chemical variables from 77 mountain and 85 lowland streams we determined the relationships between indicator response and complex environmental gradients. The upper (>75th percentile) and lower (<25th percentiles) tails of principal component (PC) gradients were used to study the early response of the four organism groups to stress. An organism/metric was considered as an early warning indicator if the response to the short gradients was more robust (higher R2 values, steeper slope and lower error) than the null model (organism response to the full PC gradient). For mountain streams, both fish and macrophyte CA scores were shown to exhibit an early warning response to the upper tail of the 1st PC gradient when compared to the null model. Five of the eight metrics showed better response to the upper tail of the 2nd PC gradient compared to the null model, while only one metric (macrophyte CA scores) showed improvement when compared to the lower tail of the 2nd PC gradient. For lowland streams all four organism-groups showed better response (CA scores) to the upper tail of the PC gradient when compared to the null model. Only one metric (fish CA scores) regressed against the lower tail of the 2nd PC gradient was found to be more robust than the PC2 null model. These findings indicate that the nonlinear relationships of organism/metric response to stress can be used to select potentially robust early warning indicators for monitoring and assessment.

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References

  • M. T. Barbour J. Gerritsen B. D. Snyder J. B. Stribling (1998) Rapid bioassessment protocols for use in streams and wadeable rivers: periphyton, benthic macroinvertebrates and fish EditionNumber2 EPA/841/B/98-010 U.S. Environmental Protection Agency Office of Water Washington, DC

    Google Scholar 

  • European Commission, 2000. Directive 2000/60/EC of the European Parliament and of the Council – Establishing a framework for Community action in the field of water policy, Brussels, Belgium, 23 October 2000

  • Furse, M. T., A. Schmidt-Kloiber, J. Strackbein, J. Davy-Bowker, A. Lorenz, J. van der Molen J. & P. Scarlett, 2004. Results of the sampling programme. A report to the European Commission. Framework V Project STAR (EVK1-CT-2001_00089)

  • M. O. Hill (1973) ArticleTitleReciprocal averaging: an eigenvector method of ordination Journal of Ecology 61 237–249 Occurrence Handle10.2307/2258931

    Article  Google Scholar 

  • Hering, D., R. K. Johnson, S. Kramm, S. Schmutz, K. Szoszkiewicz & P. F. M. Verdonschot. Assessment of European rivers with diatoms, macrophytes, invertebrates and fish: a comparative metric-based analysis of organism response to stress, submitted manuscript

  • Hering, D. & J. Strackbein, 2002. STAR stream types and sampling sites. A report to the European Commission. Framework V Project STAR (EVK1-CT-2001_00089)

  • Holmes, N. T. H., J. R. Newman, S. Chadd, K. J. Rouen, L. Saint & F. H. Dawson, 1999. Mean Trophic Rank: A users manual. R & D Technical Report No. E 38, Environment Agency, Bristol, UK

  • R. K. Johnson T. Wiederholm D. M. Rosenberg (1993) Freshwater biomonitoring using individual organisms, populations and species assemblages of benthic macroinvertebrates D. M. Rosenberg V. H. Resh (Eds) Freshwater Biomonitoring and Benthic Macroinvertebrates Chapman and Hall New York 40–158

    Google Scholar 

  • R. K. Johnson D. Hering M. T. Furse R. T. Clarke (2006) ArticleTitleDetection of ecological change using multiple organism groups: metrics and uncertainty Hydrobiologia 566 115–137

    Google Scholar 

  • R. Kolkwitz M. Marsson (1902) ArticleTitleGrundsätze für die biologische Beurteilung des Wassers nach seiner Flora und Fauna Mitteilungen Prüfungsanstalt Wasserversorgung und Abwasserreinigung 1 33–72

    Google Scholar 

  • J. L. Metcalfe (1989) ArticleTitleBiological water-quality assessment of running waters based on macroinvertebrate communities – history and present status in Europe Environmental Pollution 60 101–139 Occurrence Handle15092393 Occurrence Handle1:CAS:528:DyaL1MXmtVWju7c%3D Occurrence Handle10.1016/0269-7491(89)90223-6

    Article  PubMed  CAS  Google Scholar 

  • Raven, P. J., N. T. H. Holmes, F. H. Dawson, P. J. A. Fox, M. Everard, I. R. Fozzard & K. J. Rouen, 1998. River habitat quality – the physical character of rivers and streams in the UK and Isle of Man. River Habitat Survey Report Number 2, Environment Agency, Bristol, Scottish Environment Protection Agency, Stirling, Environment and Heritage Service, Belfast, 84 pp

  • InstitutionalAuthorNameSAS (1994) JMP – Statistics Made Visual, Version 3.1 SAS Institute Inc Cary, NC, USA

    Google Scholar 

  • D. Stanner P. Bordeau (1995) Europe’s Environment: The Dobris Assessment European Environment Agency Luxembourg 712

    Google Scholar 

  • R. J. Stevenson R. C. Bailey M. C. Harrass C. P. Hawkins J. Alba-Tercedor C. Couch S. Dyer F. A. Fulk J. M. Harrington C. T. Hunsaker R. K. Johnson (2004) Designing data collection for ecological assessments M. -T. Barbour S. B. Norton H. R. Preston K. W. Thornton (Eds) Ecological Assessment of Aquatic Resources: Linking science to decision making SETAC Pensacola, FL, USA 55–84

    Google Scholar 

  • C. F. J. ter Braak (1988) CANOCO – a FORTRAN program for canonical community ordination by [partial] [detrended] [canonical] correspondence analysis, principal component analysis and redundancy analysis (version 3.15) Agricultural Mathematics Group Wageningen, The Netherlands

    Google Scholar 

  • C. F. J. ter Braak (1990) Update Notes: CANOCO Version 3.10 Agricultural Mathematics Group Wageningen, The Netherlands

    Google Scholar 

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Authors and Affiliations

  1. Department of Environmental Assessment, Swedish University of Agricultural Sciences, P.O. Box 7050 , SE-750 07, Uppsala, Sweden

    Richard K. Johnson

  2. Department of Hydrobiology, University of Duisburg-Essen, D-45117, Essen, Germany

    Daniel Hering

  3. Centre for Ecology and Hydrology, Winfrith Technology Centre, Winfrith Newburgh, DT2 8ZD, Dorchester, Dorset, UK

    Mike T. Furse

  4. Freshwater Ecology, Alterra Green World Research, Droevendaalsesteeg 3a, NL-36700 AA, Wageningen, The Netherlands

    Piet F. M. Verdonschot

Authors
  1. Richard K. Johnson
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  2. Daniel Hering
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  3. Mike T. Furse
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  4. Piet F. M. Verdonschot
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Correspondence to Richard K. Johnson.

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Johnson, R.K., Hering, D., Furse, M.T. et al. Indicators of ecological change: comparison of the early response of four organism groups to stress gradients. Hydrobiologia 566, 139–152 (2006). https://doi.org/10.1007/s10750-006-0100-9

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  • DOI: https://doi.org/10.1007/s10750-006-0100-9

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