SEARCH

SEARCH BY CITATION

References

  • Ashforth, D. & Yan, N.D. (2008) The interactive effects of calcium concentration and temperature on the survival and reproduction of Daphnia pulex at high and low food concentrations. Limnology and Oceanography, 53, 420432.
  • Birch, J.C., Newton, A.C., Aquino, C.A., Cantarello, E., Echeverria, C., Kitzberger, T., Schiappacasse, I. & Garavito, N.T. (2010) Cost-effectiveness of dryland forest restoration evaluated by spatial analysis of ecosystem services. Proceedings of the National Academy of Sciences, 107, 2192521930.
  • Cairns, J. (2006) Restoring damaged aquatic ecosystems. The Journal of Social, Political and Economic Studies, 31, 5374.
  • Campbell, L.M., Gray, N.J., Hazen, E.L. & Shackeroff, J.M. (2009) Beyond baselines: rethinking priorities for ocean conservation. Ecology and Society, 14, 14.
  • Dillon, P.J., Yan, N.D., Scheider, W.A. & Conroy, N. (1979) Acidic lakes in Ontario, Canada: their extent and responses to base and nutrient additions. Archiv für Hydrobiologie-Beiheft Ergebnisse der Limnologie, 13, 317336.
  • Dixit, S.S., Dixit, A.S., Smol, J.P. & Keller, W. (1995) Reading the records stored in the lake sediments: a method of examining the history and extent of industrial damage to lakes. Restoration and Recovery of an Industrial Region (ed. J. Gunn), pp. 3344. Springer-Verlag, New York, NY.
  • Duarte, C.M., Conley, D.J., Carstensen, J. & Sánchez-Camacho, M. (2009) Return to Neverland: shifting baselines affect eutrophication restoration targets. Estuaries and Coasts, 32, 2936.
  • Frost, T.M., Fischer, J.M., Klug, J.L., Arnott, S.E. & Montz, P.K. (2006) Trajectories of zooplankton recovery in the Little Rock Lake whole-lake acidification experiment. Ecological Applications, 16, 353367.
  • Girard, R.E., Clark, B.J., Yan, N.D., Reid, R.A., David, S.M., Ingram, R.G. & Findeis, J.G. (2007) History of chemical, physical and biological methods, sample locations and lake morphometry for the Dorset Environmental Science Centre (1973–2006). Ontario Ministry of the Environment Data Report.
  • Gray, D.K. & Arnott, S.E. (2009) Recovery of acid damaged zooplankton communities: measurement, extent, and limiting factors. Environmental Reviews, 17, 8199.
  • Gray, D.K. & Arnott, S.E. (2011) Does dispersal limitation impact the recovery of zooplankton communities damaged by a regional stressor? Ecological Applications, 21, 12411256.
  • Gunn, J.M. (1996) Restoring the smelter-damaged landscape near Sudbury, Canada. Restoration and Management Notes, 14, 129136.
  • Hairston, N.G. (1996) Zooplankton egg banks as biotic reservoirs in changing environments. Limnology and Oceanography, 41, 10871092.
  • Hannah, L., Midgley, G.F. & Millar, D. (2002) Climate change-integrates conservation strategies. Global Ecology & Biogeography, 11, 485495.
  • Hermoso, V., Januchowski-Hartley, S., Linke, S. & Possingham, H.P. (2011) Reference vs. present-day conditions: early planning decisions influence the achievement of conservation objects. Aquatic Conservation: Marine and Freshwater Ecosystems, 21, 500509.
  • Hilderbrand, R.H., Watts, A.C. & Randle, A.M. (2005) The myths of restoration ecology. Ecology and Society, 10, 19.
  • Holt, C.A., Yan, N.D. & Somers, K.M. (2003) pH 6 as the threshold to use in critical load modeling for zooplankton community change with acidification in lakes of south-central Ontario: accounting for morphometry and geography. Canadian Journal of Fisheries and Aquatic Sciences, 60, 151158.
  • Huber, P.R., Greco, S.E. & Thorne, J.H. (2010) Boundaries make a difference: the effects of spatial and temporal parameters on conservation planning. The Professional Geographer, 62, 409425.
  • Hughes, R.M., Whittier, T.R., Rohm, C.M. & Larsen, D.P. (1990) A regional framework for establishing recovery criteria. Environmental Management, 14, 673683.
  • ITIS. (2012) Integrated Taxonomic Information System on-line database (http://www.itis.gov). Accessed 6 August 2012.
  • Jeziorski, A. & Yan, N.D. (2006) Species identity and aqueous calcium concentrations as determinants of calcium concentrations of freshwater crustacean zooplankton. Canadian Journal of Fisheries and Aquatic Sciences, 63, 10071013.
  • Keller, W.(.B.). (2009) Limnology in northeastern Ontario: from acidification to multiple stressors. Canadian Journal of Fisheries and Aquatic Sciences, 66, 11891198.
  • Keller, W. & Yan, N.D. (1998) Biological recovery from lake acidification: zooplankton communities as a model of patterns and processes. Restoration Ecology, 6, 364375.
  • Keller, W. & Yan, N.D. (1991) Recovery of crustacean zooplankton species richness in Sudbury area lakes following water quality improvements. Canadian Journal of Fisheries and Aquatic Sciences, 48, 16351644.
  • Keller, W., Yan, N.D., Somers, K.M. & Heneberry, J.H. (2002) Crustacean zooplankton communities in lakes recovering from acidification. Canadian Journal of Fisheries and Aquatic Sciences, 59, 726735.
  • Keller, W., Yan, N.D., Gunn, J.M. & Heneberry, J. (2007) Recovery of acidified lakes: lessons from Sudbury, Ontario, Canada. Water, Air, and Soil Pollution: Focus, 7, 317322.
  • Khan, F.R., Keller, W.(.B.)., Yan, N.D., Welsh, P.G., Wood, C.M. & McGeer, J.C. (2012) Application of biotic ligand and toxic unit modeling approaches to predict improvements in zooplankton species richness in smelter-damaged lakes near Sudbury, Ontario. Environmental Science and Technology, 46, 16411649.
  • Kilgour, B.W., Somers, K.M. & Matthews, D.E. (1998) Using the normal range as a criterion for ecological significance in environmental monitoring and assessment. Ecoscience, 5, 542550.
  • Koivisto, S., Ketola, M. & Walls, M. (1992) Comparison of five cladoceran species in short- and long-term copper exposure. Hydrobiologia, 248, 125136.
  • Lautenbach, W.E., Miller, J., Becket, P.J., Negusanti, J.J. & Winterhalder, K. (1995) Municipal land restoration program: the regreening process. Restoration and Recovery of an Industrial Region (ed. J.M. Gunn), pp. 109122. Springer-Verlag, New York, NY.
  • Leschen, A.S., Ford, K.H. & Evans, N.T. (2010) Successful eelgrass (Zostera marina) restoration in a formerly eutrophic estuary (Boston Harbor) supports the use of a multifaceted watershed approach to mitigating eelgrass loss. Estuaries and Coasts, 33, 13401354.
  • Michener, W.K. (1997) Quantitatively evaluating restoration experiments: research design, statistical analysis, and data management considerations. Restoration Ecology, 5, 324337.
  • Miller, J.R. & Hobbs, R.J. (2007) Habitat restoration–do we know what we're doing? Restoration Ecology, 15, 382390.
  • MOE. (1983) Handbook of analytical methods for environmental samples. Ontario Ministry of the Environment Report.
  • MOEE. (1994) Water management policies, guidelines, provincial water quality objectives. Ontario Ministry of the Environment and Energy Technical Report, Toronto, Ontario, Canada, 31 p.
  • Nõges, P., Van de Bund, W., Cardoso, A.C. & Heiskanen, A.-S. (2007) Impact of climatic variability on parameters used in typology and ecological quality assessment of surface waters-implications on the Water Framework Directive. Hydrobiologia, 584, 373379.
  • Owen, R., Duncan, W. & Pollard, P. (2001) Definition and establishment of reference conditions. REFCOND discussion paper for evaluation of techniques. Scottish Environmental Protection Agency, Aberdeen, Scotland.
  • Palmer, M.A. (2009) Reforming watershed restoration: science in need of application and applications in need of science. Estuaries and Coasts, 32, 117.
  • Palmer, M.E., Yan, N.D., Paterson, A.M. & Girard, R.E. (2011) Water quality changes in south-central Ontario lakes and the role of local factors in regulating lake response to regional stressors. Canadian Journal of Fisheries and Aquatic Sciences, 68, 10381050.
  • Pauly, D. (1995) Anecdotes and the shifting baseline syndrome of fisheries. Trends in Ecology and Evolution, 10, 430.
  • Persson, G. (2008) Zooplankton response to long-term liming: comparison of 15 limed and 15 reference lakes in Sweden. Limnologica, 38, 113.
  • Pinnegar, J.K. & Engelhard, G.H. (2008) The ‘shifting baseline’ phenomenon: a global perspective. Reviews in Fish Biology and Fisheries, 18, 116.
  • Pollard, H.G., Colbourne, J.K. & Keller, W.(.B.). (2003) Reconstruction of centuries-old Daphnia communities in a lake recovering from acidification and metal contamination. Ambio, 32, 214218.
  • Ravenscroft, C., Scheller, R.M., Mladenoff, D.J. & White, M.A. (2010) Forest restoration in a mixed-ownership landscape under climate change. Ecological Applications, 20, 327346.
  • Reynoldson, T.B., Norris, R.H., Resh, V.H., Day, K.E. & Rosenberg, D.M. (1997) The reference condition: a comparison of multimetric and multivariate approaches to assess water-quality impairment using benthic macroinvertebrates. Journal of the North American Benthological Society, 16, 833852.
  • Sala, O.E., Chapin, F.S., Armestro, J.J., Berlow, E., Bloomfield, J., Dirzo, R., Huber-Sanwald, E., Huenneke, L.F., Jackson, R.B., Kinzig, A., Leemans, R., Lodge, D.M., Mooney, H.A., Oesterheld, M., Poff, N.L., Sykes, M.T., Walker, B.H., Walker, M. & Wall, D.H. (2000) Global biodiversity scenarios for the year 2100. Science, 287, 17701774.
  • Scheider, W., Adamski, J. & Paylor, M. (1975) Reclamation of acidified lakes near Sudbury, Ontario. Ontario Ministry of the Environment Report, Toronto, Ontario.
  • SER (Society for Ecological Restoration) International Science and Policy Working Group. (2004) The SER International Primer on Ecological Restoration. Society for Ecological Restoration International, Tucson, AZ.
  • Snucins, E., Gunn, J., Keller, B., Dixit, S., Hindar, A. & Henriksen, A. (2001) Effects of regional reductions in sulphur deposition on the chemical and biological recovery of lakes within Killarney Park, Ontario, Canada. Environmental Monitoring and Assessment, 67, 179194.
  • Sprules, W.G. (1977) Crustacean zooplankton communities as indicators of limnological conditions: an approach using principal component analysis. Journal of the Fisheries Research Board of Canada, 34, 962975.
  • Thorpe, A.S. & Stanley, A.G. (2011) Determining appropriate goals for restoration of imperiled communities and species. Journal of Applied Ecology, 48, 275279.
  • Toledo, D., Agudelo, M.S. & Bentley, A.L. (2011) The shifting of ecological restoration benchmarks and their social impacts: digging deeper into Pleistocene re-wilding. Restoration Ecology, 19, 564568.
  • Toth, L.A. (2010) Unrealized expectations for restoration of a floodplain plant community. Restoration Ecology, 18, 810819.
  • Valois, A.E., Keller, W.B. & Ramcharan, C.W. (2010) Abiotic and biotic processes in lakes recovering from acidification: the relative roles of metal toxicity and fish predation as barriers to zooplankton re-establishment. Freshwater Biology, 55, 25852597.
  • Valois, A.E., Keller, W.B. & Ramcharan, C.W. (2011) Recovery in a multiple stressor environment: using the reference condition approach to examine zooplankton community change along opposing gradients. Journal of Plankton Research, 33, 14171429.
  • White, P.S. & Walker, J.L. (1997) Approximating nature's variation: selecting and using reference information in restoration ecology. Restoration Ecology, 5, 338349.
  • Wilson, K.A., Lulow, M., Burger, J., Fang, Y.-C., Anderson, C., Olson, D., O'Connell, M. & McBride, M.F. (2011) Optimal restoration: accounting for space, time and uncertainty. Journal of Applied Ecology, 48, 715725.
  • Winter, J.G., Keller, W., Paterson, A.M. & Yan, N.D. (2008) Three decades of recovery of the phytoplankton community in Clearwater Lake (Sudbury, Ontario) from acid and metal contamination. Verhandlungen des Internationalen Verein Limnologie, 30, 247252.
  • Yan, N.D. (1979) Phytoplankton community of an acidified, heavy metal-contaminated lake near Sudbury, Ontario: 1973–1977. Water, Air, and Soil Pollution, 11, 4355.
  • Yan, N.D. & Dillon, P.J. (1984) Experimental neutralization of lakes near Sudbury, Ontario. Environmental Impacts of Smelters (ed. J. Nriagu), p. 417. Wiley & Sons, New York, NY.
  • Yan, N.D. & Strus, R. (1979) Crustacean zooplankton communities of acidic, metal- contaminated lakes near Sudbury, Ontario. Technical Report LTS 79-4. Ontario Ministry of the Environment, Rexdale, Ontario, Canada.
  • Yan, N.D., Girard, R. & Boudreau, S. (2002) An introduced predator (Bythotrephes) reduces zooplankton species richness. Ecology Letters, 5, 481485.
  • Yan, N.D., Keller, W., Somers, K.M., Pawson, T.W. & Girard, R. (1996) Recovery of crustacean zooplankton communities from acid and metal contamination: comparing manipulated and reference lakes. Canadian Journal of Fisheries and Aquatic Sciences, 53, 13011327.
  • Yan, N.D., Girard, R., Heneberry, J.H., Keller, W.B., Gunn, J.M. & Dillon, P.J. (2004) Recovery of copepod, but not cladoceran, zooplankton from severe and chronic effects of multiple stressors. Ecology Letters, 7, 452460.
  • Yan, N.D., Somers, K.M., Girard, R.E., Paterson, A.M., Keller, W.(.B.)., Ramcharan, C.W., Rusak, J.A., Ingram, R., Morgan, G.E. & Gunn, J.M. (2008) Long-term trends in zooplankton of Dorset, Ontario, lakes: the probable interactive effects of changes in pH, total phosphorus, dissolved organic carbon, and predators. Canadian Journal of Fisheries and Aquatic Sciences, 65, 862877.
  • Zeng, Y. & Hopke, P.K. (1994) Comparison of the source locations and seasonal patterns for acidic species in precipitation and ambient particles in Southern Ontario, Canada. The Science of the Total Environment, 143, 245260.