An overview of Cladoceran studies conducted in mine water impacted lakes

Adamczuk M (2016) Past, present, and future roles of small cladoceran Bosmina longirostris (O. F. Müller, 1785) in aquatic ecosystems. Hydrobiologia 767:1–11 Arruda JA, Marzolf GR, Faulk RT (1983) The role of suspended sediments in the nutrition of zooplankton in turbid reservoirs. Ecology 64:1225–1235 Battarbee RW (1999) The importance of paleolimnology to lake restoration. Hydrobiologia 395(396):149–159 Belyaeva M, Deneke R (2007) Colonization of acidic mining lakes: Chydorus sphaericus and other Cladocera within a dynamic horizontal pH gradient (pH 3 − 7) in lake Senftenberger See (Germany). Hydrobiologia 594:97–108 Belyaeva M, Taylor DJ (2009) Cryptic species within the Chydorus sphaericus species complex (Crustacea: Cladocera) revealed by molecular markers and sexual stage morphology. Mol Phylogenet Evol 50:534–546 Bennett K (1996) Determination of the number of zones in a biostratigraphical sequence. New Phytol 132:155–170 Błędzki LA, Rybak JI (2016) Freshwater crustacean zooplankton of Europe. Springer, Swizerland Bossuyt BTA, Janssen CR (2005) Copper toxicity to different field-collected cladoceran species: intra- and inter-species sensitivity. Environ Pollut 136:145–154 Bourg ACM, Loch JPG (1995) Mobilization of heavy metals as affected by pH and redox conditions. In: Salomons W, Stigliani WM (eds) Biogeodynamics of pollutants in soils and sediments. Environmental science. Springer, Berlin, pp 87–102 Bownik A (2017) Daphnia swimming behavior as a biomarker in toxicity assessment: a review. Sci Total Environ 601–602:194–205 Bozelli RL (1996) The influence of bauxite tailings on the cladoceran populations of Lake Batata, Amazonia, Brazil. Int Rev Hydrobiol 81:621–634 Bradbury JP, Megarad RO (1972) Stratigraphic record of pollution in Shagawa Lake, Northeastern Minnesota. Geol Soc Am Bull 83:2639–2648 Brooks JL, Dodson SI (1965) Predation, body size and composition of plankton. Science 150:28–35 Cain DJ, Luoma SN, Carter JL, Fend SV (1992) Aquatic insects as bioindicators of trace element contamination in cobble-bottom rivers and streams. Can J Fish Aquat Sci 49:2141–5154 Camargo JA, Alonso A, Salamanca A (2005) Nitrate toxicity to aquatic animals: a review with new data for freshwater invertebrates. Chemosphere 58:1255–1267 Canadian Government (2002) Metal mining effluent regulations. SOR/2002-222 Canton SP, Ward JV (1981) Benthos and zooplankton of coal strip mine ponds in the mountains of northwestern Colorado, U.S.A. Hydrobiologia 85:23–31 Chen G, Shi H, Tao J, Chen L, Liu Y, Lei G, Liu X, Smol P (2016) Industrial arsenic contamination causes catastrophic changes in freshwater ecosystem. Sci Rep 5:17419. https://doi.org/10.1038/srep17419 Clarke KR (1993) Non-parametric multivariate analysis of changes in community structure. Aust J Ecol 18:117–143 Coard MA, Cousen SM, Cuttler AH, Dean HJ, Dearing JA, Eglinton TI, Greaves AM, Lacey KP, O’Sullivan PE, Pickering DA, Rhead MM, Rodwell JK, Simola H (1983) Paleolimnological studies of annually-laminated sediments in Loe Pool, Cornwall, U.K. Hydrobiologia 103:185–191 Cuker BE (1987) Field experiment on the influences of suspended clay and P on the plankton of a small lake. Limnol Oceanogr 32:840–847 Dekker T, Greve GD, Ter Laak TL, Boivin ME, Veuger B, Gortzak G, Dumfries S, Lücker SMG, Kraak MHS, Admiraal W, van der Geest HG (2005) Development and application of a sediment toxicity test using the benthic cladoceran Chydorus sphaericus. Environ Pollut 140:231–238 Doig LE, Schiffer ST, Liber K (2015) Reconstructing the ecological impacts of eight decades of mining, metallurgical, and municipal activities on a small boreal lake in Norther Canada. Integr Environ Assess Manag 11:490–501 Draves JF, Fox MC (1998) Effects of a mine tailings spill on feeding and metal concentrations in juvenile perch (Perca fluviatilis). Environ Toxicol Chem 17:1626–1632 Dumont HJ (1989) The non-marine Cladocera in Belgium. In: Wouters K, Baert, L (eds) Proceedings of the symposium “Invertebrates of Belgium”. Brussel, 25–26 November 1988, pp 137–142 ECOTOX (2017) The ecotoxicology database. https://cfpub.epa.gov/ecotox/ecotox_home.cfm. Accessed 17 May 2017 El-Bassat RA, Taylor WD (2007) The zooplankton community of Lake Abo Zaabal, a newly-formed mining lake in Cairo, Egypt. Afr J Aquat Sci 32:185–192 Elphick JR, Davies M, Gilron G, Canaria EC, Lo B, Bailey HC (2011) An aquatic toxicological evaluation of sulfate: the case for considering hardness as a modifying factor in setting water quality guidelines. Environ Toxicol Chem 30:247–257 European Union (2000) Directive 2000/60/EC of the European Parliament and of the Council of 23 October 2000 establishing a framework for community action in the field of water policy. Off J Eur Communities L327:1–72 Ferrari CR, Wisniewski MJ, Roque CV, Ronque LB, Campos MB, Rodgher S, Nascimento MRL, de Azevedo H (2009) Preliminary assessment of the zooplankton community composition in a region under the influence of a uranium mine (Caldas, southeastern Brazil). International Nuclear Atlantic Conference—INAC 2009. Rio de Janeiro, RJ, Brazil, September 27 to October 2, 2009 (ISBN 978-85-99141-03-8) Ferrari CR, de Azevedo H, Wisniewski MJS, Roddgher S, Roque CV, Nascimento MRL (2015) An overview of an acidic uranium mine pit lake (Caldas, Brazil): composition of the zooplankton community and limnochemical aspects. Mine Water Environ 34:343–351 Ferrari CR, de Azevedo H, Nascimento F, Rodgher S, Almeida T, Bruschi AL, Nascimento MRL, Bonifacio RL (2017) Effects of the discharge of uranium mining effluents on the water quality of the reservoir: an integrative chemical and ecotoxicological assessment. Sci Rep 7:13919. https://doi.org/10.1038/s41598-017-14100-w Garrido AV, Bozelli RL, De Esteves FA, Alves LS (2003) Long-term patterns of the planktonic cladoceran community of Batata Lake, Amazonia, Brazil. Acta Limnol Bras 15:41–53 Griffiths K, Thienpont J, Jeziorski A, Smol JP (2018) The impact of Ca-rich diamond mining effluent on downstream communities in softwater lakes of the Northwest Territories, Canada. Can J Fish Aquat Sci. https://doi.org/10.1139/cjfas-2017-0469 Hart RC (1987) Population dynamics and production of five crustacean zooplankton in a subtropical reservoir during years of contrasting turbidity. Freshw Biol 18:287–318 Harwell MA, Harwell CC, Weinstein DA, Kelly JR (1987) Anthropogenic stresses on ecosystems: issues and indicators of response and recovery. ERC-153. Ecosystems Research Center, Ithaca Heine-Fuster I, Vega-Retter C, Sabat P, Ramos-Jiliberto R (2010) Osmoregulatory and demographic responses to salinity of the exotic cladoceran Daphnia exilis. J Plankton Res 32:1405–1411 Holopainen IJ, Holopainen A-L, Huitu E, Rahkola-Sorsa M, Zingel P (2008) The pelagic food web in forest lakes affected by alkaline mining waste in NW Russia. Est J Ecol 57:214–228 Hudson-Edwards KA, Dold B (2015) Mine waste characterization, management and remediation. Minerals 5:82–85 Jäger IS, Hölker F, Flöder S, Walz N (2011) Impact of Chaoborus flavicans on the zooplankton in a mesotrophic lake—a three year study. Internat Rev Hydrobiol 96:191–208 Jeppesen E, Nõges P, Davidson T, Haberman J, Nõges T, Blank K, Lauridsen T, Søndergaard M, Sayer C, Laugaste R, Johansson L, Bjerring R, Amsinck S (2011) Zooplankton as indicators in lakes: a scientific—based plea for including zooplankton in the ecological quality assessment of lakes according to the European Water Framework Directive (WFD). Hydrobiologia 676:279–297 Kerfoot WC, Robbins JA, Weider LJ (1999) A new approach to historical reconstruction: combining descriptive and experimental paleolimnology. Limnol Oceanogr 44:1232–1247 Kirk KL, Gilbert JJ (1990) Suspended clay and the population dynamics of planktonic rotifers and cladocerans. Ecology 71:1741–1755 Klapper H, Schultze M (1995) Geogenically acidified mining lakes—living conditions and possibilities of restoration. Int Rev Hydrobiol 80:639–653 Koivisto S, Ketola M (1995) Effects of copper on life-history traits of Daphnia pulex and Bosmina longirostris. Aquat Toxicol 32:255–269 Koivisto S, Ketola M, Walls M (1992) Comparison of 5 cladoceran species in short- and long-term copper exposure. Hydrobiologia 248:125–136 Korhola A, Rautio M (2001) Cladocera and other Branchiopod crustaceans. In: Smol JP, Birks HJB, Last WM (eds) Tracking environmental change using lake sediments, vol 4. Zoological indicators. Kluwer Academic Publishers, Dordrecht, pp 5–41 Korosi JB, Kurek J, Smol JP (2013) A review on utilizing Bosmina size structure archieved in lake sediments to infer historic shifts in predation regimes. J Plankton Res 53:444–460 Kozlova T, Wood CM, McGeer JC (2008) The effect of water chemistry on the acute toxicity of nickel to cladoceran Daphnia pulex and the development of a biotic ligand model. Aquat Toxicol 91:221–228 Kurek J, Kirk JL, Muir DCG, Wang X, Evans MS, Smol JP (2012) Legacy of a half century of Athabasca oil and development recorded by lake ecosystems. Proc Natl Acad Sci USA 110:1761–1766 Labaj AL, Jeziorski A, Kurek J, Smol JP (2014) Long-term trends in Cladoceran assemblages related to acidification and subsequent liming of Middle Lake (Sudbury Canada). Water Air Soil Pollut 225:1868. https://doi.org/10.1007/s11270-014-1868-2 Labaj AL, Kurek J, Jeziorski A, Smol JP (2015) Elevated metal concentrations inhibit biological recovery of Cladocera in previously acidified boreal lakes. Freshw Biol 60:347–359 Lampert W (2011) Daphnia: development of a model organism in ecology and evolution. Excellence in ecology, book 21. International Ecology Institute, Oldendorf Leppänen J, Siitonen S, Weckström J (2016) The stability of cladoceran communities in sub-arctic NW Finnish Lapland lakes. Polar Biol 40:2211–2223 Leppänen J, Weckström J, Korhola A (2017a) Paleolimnological fingerprinting of the impact of acid mine drainage after 50 years of chronic pollution in a southern Finnish lake. Water Soil Air Pollut 228:227. https://doi.org/10.1007/s11270-017-3417-2 Leppänen J, Weckström J, Korhola A (2017b) Mining pollution triggered a regime shift in cladoceran community of Lake Kirkkojärvi. J Paleolimnol, S Finland. https://doi.org/10.1007/s10933-018-0030-3 Leppänen J, Weckström J, Korhola A (2017c) Multiple mining impacts induce widespread changes in ecosystem dynamics in a boreal lake. Sci Rep 7:10581. https://doi.org/10.1038/s41598-017-11421-8 Lindenmayer DB, Likens GE (2009) Adaptive monitoring: a new paradigm for long-term research and monitoring. Trends Ecol Evol 24:482–486 Lopes I, Goncalves F, Soares AMVM, Ribeiro R (1999) Discriminating the ecotoxicity due to metals and to low pH in acid mine drainage. Ecotox Environ Safe 44:207–214 Lundstedt L, Brett MT (1991) Differential growth rates of three cladoceran species in response to mono- and mixed-algal cultures. Limnol Oceanogr 36:159–165 Maia-Barbosa PM, Bozelli RR (2005) Length-weight relationships for five cladoceran species in an Amazonian lake. Braz Arch Biol Technol 48:303–308 Markert BA, Breure AM, Zechmeister HG (2003) Definitions, strategies and principles for bioindication/biomonitoring. In: Markert BA, Breure AM, Zechmeister HG (eds) Bioindicators & biomonitors. Principles, concepts and applications. Trace metals and other contaminants in the environment 6. Elsevier, Kidlington, pp 3–39 McCabe GD, O’Brien WJ (1983) The effects of suspended silt on feeding and reproduction of Daphnia pulex. Am Midl Nat 110:324–337 Melville GE (1995) Changes in pelagic crustacean zooplankton of high-boreal Island Lake, Saskatchewan, associated with uranium mining. Environ Monit Assess 34:45–58 Miller GC, Lyons WB, Davis A (1996) Understanding the water quality of pit lakes. Environ Sci Technol 30:118A–123A Molenda T (2014) Impact of saline mine water: development of a meromictic reservoir in Poland. Mine Water Environ 33:327–334 Moreira FWA, Leite MGP, Fujaco MAG, Mendoca FPC, Campos LP, Eskinazi-Sankt’Anna EM (2016) Assessing the impacts of mining activities on zooplankton functional diversity. Acta Limnol Bras. https://doi.org/10.1590/S2179-975X0816 Moser M, Weisse T (2011) The most acidified Austrian lake in comparison to a neutralized mining lake. Limnologica 41:303–315 Nevalainen L, Luoto TP (2013) Limnological deterioration forces community and phenotypic changes in Cladocera: tracking eutrophication of Mallusjärvi, a lake in southern Finland. Boreal Env Res 18:209–222 Nixdorf B, Mischke U, Leßmann D (1998) Chrysophytes and chlamydomonads: pioneer colonists in extremely acidic mining lakes (pH < 3) in Lusatia (Germany). Hydrobiologia 369(370):315–327 Niyogi S, Wood CM (2004) Biotic ligand model, a flexible tool for developing site-specific water quality guidelines for metals. Environ Sci Technol 38:6177–6192 Nordstrom DK (2011) Mine waters: acidic to circumneutral. Elements 7:393–398 Persoone G, Baudo R, Cotman M, Blaise C, Thompson KCL, Moreira-Santos M, Vollat B, Törökne A, Han T (2009) Review on the acute Daphnia magna toxicity test—evaluation of the sensitivity and the precision of assays performed with organisms from laboratory cultures or hatched from dormant eggs. Knowl Manag Aquat Ecosyst 393:1. https://doi.org/10.1051/kmae/2009012 Reichl C, Schatz M, Zsak G (2016) World mining data. Volume 31. Minerals Production. International organizing committee for the world mining congresses. Federal Ministry of Science, Research and Economy, Vienna Rogalski MA (2015) Tainted resurrection: metal pollution is linked with reduced hatching and high juvenile mortality in Daphnia egg banks. Ecology 96:1166–1173 Rumes B, Eggermont H, Verschuren D (2011) Distribution and faunal richness of Cladocera in western Uganda crater lakes. Hydrobiologia 676:39. https://doi.org/10.1007/s10750-011-0829-7 Salmelin J, Leppänen MT, Karjalainen AK, Vuori K-M, Gerhardt A, Hämäläinen H (2017) Assessing ecotoxicology of biomining effluents in stream ecosystems by in situ invertebrate bioassays: a case study in Talvivaara, Finland. Environ Toxicol Chem 36:147–155 Sarma SSS, Nandini S (2006) Review of recent ecotoxicological studies on cladocerans. J Environ Sci Health B 41:1417–1430 Saros JE (2009) Integrating neo- and paleolimnological approaches to refine interpretations of environmental change. J Paleolimnol 41:243–252 Schultze M, Pokrandt K-H, Hille W (2010) Pit lakes of the Central German lignite mining district: creation, morphometry and water quality aspects. Limnologica 40:148–155 Schultze M, Boehrer B, Wendt-Potthoff K, Sánchez-España J, Castendyk D (2017) Meromictic pit lakes: case studies from Spain, Germany and Canada and general aspects of management and modelling. In: Gulati RD, Zadereev ES, Degermendzhi AG (eds) Ecology of meromictic lakes. Springer, Berlin, pp 235–275 Sienkiewicz E, Gąsiorowski M (2016) The evolution of a mining lake-From acidity to natural neutralization. Sci Total Environ 557–558:343–354 Smirnov N (2017) Physiology of the Cladocera. Elsevier Academic Press, London Smol JP (1992) Paleolimnology: an important tool for effective ecosystem management. J Aquat Ecosyst Health 1:49–58 Sofyan A, Shaw JR, Birge WJ (2009) Metal trophic transfer from algae to cladocerans and the relative importance of dietary metal exposure. Environ Toxicol Chem 25:1034–1041 Stankovic I, Ternjej I (2009) New data on Croatian crustacean plankton fauna (Copepoda & Cladocera) in Cingi-Lingi Lake. Nat Croat 18:181–184 Stankovic I, Ternjej I, Mihaljevic Z, Furac L, Kerovec M (2011) Crustacean plankton community (Crustacea: Copepoda and Cladocera) in gypsum karst lakes and their relation to abiotic parameters. Hydrobiologia 666:145–153 Sterner RW (2009) Role of zooplankton in aquatic ecosystems. In: Likens GE (ed) Encyclopedia of inland waters. Academic Press, Oxford, pp 678–688 Stewart RA, Saiki MK, Kuwabara JS, Alpers CN, Marvin-DiPasquale M, Krabbenhoft DP (2008) Influence of plankton mercury dynamics and trophic pathways on mercury concentrations of top predator fish of a mining-impacted reservoir. Can J Fish Aquat Sci 65:2351–2366 Stow CA, Carpenter SR, Webster KE, Frost TM (1998) Long-term environmental monitoring: some perspectives from lakes. Ecol Appl 8:269–276 Suhett AL, Santangelo JM, Bozelli RL, Steinberg CEW, Farjalla VF (2015) An overview of the contribution of studies with cladocerans to environmental stress research. Acta Limnol Bras 27:145–159 Thienpont JR, Korosi JB, Hargan KE, Williams T, Eickmeyer DC, Kimpe LE, Palmer MJ, Smol JP, Blais JM (2016) Multi-trophic level response to extreme metal contamination from gold mining in a subarctic lake. Proc R Soc Lond B Biol Sci 283:1836. https://doi.org/10.1098/rspb.2016.1125 Tolotti M, Milan M, Szeroczynska K (2016) Subfossil Cladocera as a powerful tool for paleoecological reconstructions. Adv Oceanogr Limnol. https://doi.org/10.4081/aiol.2016.6467 Tõnno I, Agasild H, Kõiv T, Freiberg R, Nõges P, Nõges T (2016) Algal diet of small-bodied crustacean zooplankton in a cyanobacteria-dominated eutrophic Lake. PLoS ONE 11(4):e0154526. https://doi.org/10.1371/journal.pone.0154526 Vad CF, Horvàth Z, Kiss KT, Àcs È (2012) Microcrustacean (cladoceran, copepod) communities in artificial lakes in the region of the north hungarian mountains, with special reference to the adventive species. Acta Zool Acad Sci Hung 58:47–61 Valente T, Gomes CL (2007) The role of two acidophilic algae as ecological indicators of acid mine drainage sites. J Iber Geol 33:283–294 Van Dam RA, Harford AJ, Lunn SA, Gagnon MM (2014) Identifying the cause of toxicity of a saline mine water. PLoS ONE 9(9):e106857. https://doi.org/10.1371/journal.pone.0106857 Vandysh OI (2004) Zooplankton as an indicator of the state of lake ecosystems polluted with mining wastewater in the Kola Peninsula. Russ J Ecol 35:134–140 Vink J, Verschoor A (2010) Biotic ligand models: availability, performance and applicability for water quality assessment. Deltares, Netherlands Von Der Ohe PC, Liess M (2004) Relative sensitivity distribution of aquatic invertebrates to organic and metal compounds. Environ Toxicol 23:150–156 Wolkersdorfer C, Bowell R (2005) Contemporary Reviews of Mine Water Studies in Europe, Part 3. Mine Water Environ 24:58–76. https://doi.org/10.1007/s10230-005-0074-2 Watling HR (2015) Review of biohydrometallurgical metals extraction from polymetallic mineral resources. Minerals 5:1–60 Wilk-Woźniak E, Zurek R (2006) Phytoplankton and its relationships with chemical parameters and zooplankton in the meromictic Piasecno reservoir, South Poland. Aquat Ecol 40:165–176 Wilk-Woźniak E, Pociecha A, Ciszewski D, Aleksander-Kwaterczak U, Walusiak E (2011) Phyto- and zooplankton in fishponds contaminated with heavy metal runoff from a lead-zinc mine. Oceanol Hydrobiol Stud 40:77–85 Winegardner AK, Salter N, Aebischer S, Pienitz R, Derry AM, Wing B, Beisner BE, Gregory-Eaves I (2017) Cladoceran diversity dynamics in lakes from a northern mining region: responses to multiple stressors characterized by alpha and beta diversity. Can J Fish Aquat Sci 74:1654–1667 Wollmann K, Deneke R, Nixdorf B, Packroff G (2000) Dynamics of planktonic food webs in three mining lakes across a pH gradient (pH 2-4). Hydrobiologia 433:3–14 Yount JD, Niemi GJ (1990) Recovery of lotic communities and ecosystems from disturbance—a narrative review of case studies. Environ Manage 14:547–569 Zawisza E, Zawiska I, Correa-Metrio A (2016) Cladocera community composition as a function of physicochemical and morphological parameters of dystrophic lakes in NE Poland. Wetlands 36:1131–1142 Zhou Q, Zhang J, Fu J, Shi J, Jiang G (2008) Biomonitoring: an appealing tool for assessment of metal pollution in the aquatic ecosystem. Anal Chim Acta 606:135–150