Abstract
A three-dimensional hydrodynamic model (ELCOM) coupled with a biological model (CAEDYM) was calibrated with field data from Lake Simcoe (2008) and used to examine the expected impact of dreissenid mussels on the distribution of phytoplankton and nutrients, mussel energetic, and the interactions with hydrodynamic conditions. In accordance with the near-shore shunt hypothesis and the actual distribution of mussels, the model predicted a considerable impact of mussels on phytoplankton in nearshore areas (<15 m depth; −38 % phytoplankton). Horizontal advection could account for the lower (−15 % phytoplankton) offshore impact despite the absence of mussels within this region of the lake. These predictions were similar to observed long-term changes in phytoplankton biomass after the dreissenid mussel invasion. Simulated decreases in the initial mussel biomass by 50 % led to increased phytoplankton nearshore, increased mussel growth and decreased phosphorus excretion relative to ingestion. In contrast, increases in initial mussel biomass by 50 % resulted in minor changes in phytoplankton, since near-bottom depletion of phytoplankton caused growth and energy-limitation of mussels. The model, which was the first to capture metabolically-driven variations of mussel-mediated nutrient cycling, predicted a partial uncoupling of carbon and phosphorus cycling by mussels, driven by varying controls on mussel growth. A 60 % increase in the intensity of three storms during the summer had little net-effect on phytoplankton biomass, but reduced energy-limitation of mussels and increased mussel growth due to increased supply of phytoplankton. Our model demonstrates that near-bottom depletion of phytoplankton is an important process limiting the impact of mussels, and indicates that it affects the mussels’ cycling of energy and nutrients. It further suggests that stronger storm events could lead to further increase of flux of organic matter from the pelagic zone to the benthos, further altering energy pathways in the lake.
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References
Ackerman JD, Loewen MR, Hamblin PF (2001) Benthic–pelagic coupling over a zebra mussel reef in western Lake Erie. Limnol Oceanogr 46:892–904
Austin JA, Allen J (2011) Sensitivity of summer Lake Superior thermal structure to metereological forcing. Limnol Oceanogr 56:1141–1154
Baranowska K, North RL, Winter J, Dillon P (2013) Long-term seasonal effects of dreissenid mussels on phytoplankton in Lake Simcoe, Ontario, Canada. Inland Waters 3:285–296
Bocaniov S, Smith REH, Spillman CM, Hipsey MR, Leon LF (2014) The nearshore shunt and the decline of the phytoplankton spring bloom in the Laurentian Great Lakes: insights from a three-dimensional lake model. Hydrobiologia 731:151–172
Boegman L, Loewen MR, Hamblin PF, Culver DA (2008a) Vertical mixing and weak stratification over zebra mussel colonies in western Lake Erie. Limnol Oceanogr 53:1093–1110
Boegman L, Loewen MR, Culver DA, Hamblin PF, Charlton MN (2008b) Spatial-dynamic modelling of algal biomass in Lake Erie: relative impacts of dreissenid mussels and nutrient loads. J Environ Eng 134:456–468
Bouffard D, Boegman L (2011) Spatio-temporal dynamics of the basin scale internal waves in Lake Simcoe. Proceedings 7th International symposium on stratified flows, Rome, Italy, August 22–26,p 6
Bunt CM, MacIssac HJ, Sprules WG (1993) Pumping rates and projected filtering impacts of juvenile zebra mussels (Dreissena polymorpha) in western Lake Erie. Can J Fish Aquat Sci 50:1017–1022
Cheng CS, Li G, Li Q, Auld H, Fu C (2012) Possible impacts of climate change on wind gusts under downscales future climate conditions over Ontario. J Climate 25:3390–3408
Cherel Y, Gillis J, Handrick Y, Maho YL (1994) Nutrient reserve dynamics and energetics during long-term fasting in the king penguin (Aptenodytes patagonicus). J Zool 234:1–12
Conroy JD, Kane DD, Dolan DM, Edwards WJ, Charlton MN, Culver DA (2005) Temporal trends in Lake Erie plankton biomass: roles of external phosphorus loading and dreissenid mussels. J Great Lakes Res 31:89–110
Cope WG, Bartsch MR, Hightower JE (2006) Population dynamics of zebra mussels Dreissena polymorpha (Pallas, 1771) during the initial invasion of the Upper Mississippi River, USA. J Molluscan Stud 72:179–188
Dayton AI (2011) Cladophora, mass transport, and the nearshore phosphorus shunt. M.Sc. thesis, Department of Environmental Engineering Science, Michigan Technical University
Depew DC, Houben AJ, Ozersky T, Hecky RE, Guildford SJ (2011) Why does Cladophora fail to reach nuisance proportions in Lake Simcoe? J Great Lakes Res 37(suppl. 3):90–102
Edwards WJ, Rehmann CR, McDonald W, Culver DA (2005) The impact of a benthic filter feeder: limitations imposed by physical transport of algae to the benthos. Can J Fish Aquat Sci 62:205–214
Eimers C, Winter JG, Scheider WA, Watmough SA, Nicholls KH (2005) Recent changes and patterns in the water chemistry of Lake Simcoe. J Great Lakes Res 31:322–332
Evans DO, Skinner AJ, Allen R, McMurtry MJ (2011) Invasion of zebra mussel, Dreissena polymorpha, in Lake Simcoe. J Great Lakes Res 37:36–45
Fréchette M, Butman CA, Geyer WR (1989) The importance of boundary-layer flows in supplying phytoplankton to the benthic suspension feeder, Mytilus edulis L. Limnol Oceanogr 34:19–36
Gergs R, Rinke K, Rothaupt KO (2009) Zebra mussels mediate benthic–pelagic coupling by biodeposition and changing detrital stoichiometry. Freshw Biol 54:1379–1391
Goedkoop W, Naddafi R, Grandin U (2011) Retention of N and P by zebra mussels (Dreissena polymorpha Pallas) and its quantitative role in the nutrient budget of eutrophic Lake Ekoln, Sweden. Biol Invasions 13:1077–1086
Guilford SJ, Depew DC, Ozersky T, Hecky RE, Smith REH (2013) Nearshore - offshore differences in planktonic chlorophyll and phytoplankton nutrient status after dreissenid establishment in a large shallow lake. Inland Waters 3:253–268
Hecky RE, Smith REH, Barton DR, Guilford SJ, Taylor WD, Charlton MN, Howell T (2004) The nearshore phosphorus shunt: a consequence of ecosystem engineering by dreissenids in the Laurentian Great Lakes. Can J Fish Aquat Sci 61:1285–1293
Higgins SN, Vander Zanden M (2010) What a difference a species makes: a meta-analysis of dreissenid mussel impacts on freshwater ecosystems. Ecol Monogr 80:179–196
Higgins SN, Malkin SY, Howell TE, Guilford SJ, Campbell L, Hiriart-Baer V, Hecky RE (2008) An ecological review of Cladophora glomerata (Chlorophyta) in the Laurentian Great Lakes. J Phycol 44:839–854
Hodges BR, Imberger J, Saggio A, Winters K (2000) Modeling basin scale waves in a stratified lake. Limnol Oceanogr 45:1603–1620
Huang A, Rao YR, Zhang W (2012) On recent trends in atmospheric and limnological variables in Lake Ontario. J Clim 25:5807–5816
Intergovernmental Panel on Climate Change (IPCC) (2007) Climate change 2007: the physical science basis, Chapter 10 and 11. Working groups I, II and III to the fourth assessment report of the intergovernmental panel on climate change. http://www.ipcc.ch/pdf/assessment-report/ar4/wg1/ar4-wg1-chapter11.pdf
Johengen TH, Nalepa TF, Fahnenstiel GL, Goudy G (1995) Nutrient changes in Saginaw Bay, Lake Huron, after the establishment of the zebra mussel (Dreissena polymorpha). J Great Lakes Res 21:449–464
Karatayev AY, Burlakova LE, Padilla DK (2002) Impacts of zebra mussels on aquatic communities and their role as ecosystem engineers. In: Leppäkoski E, Gollasch S, Olenin S (eds) Invasive aquatic species of Europe—distribution, impacts, and management. Kluwer Academic, Dordrecht, pp 433–446
Kelly NE, Young JD, Winter JG, Yan ND (2013) Dynamics of the invasive spiny water flea, Bythotrephes longimanus, in Lake Simcoe, Ontario, Canada. Inland Waters 3:75–92
Laval B, Imberger J, Hodges BR, Stocker R (2003) Modeling circulation in lakes: spatial and temporal variations. Limnol Oceanogr 48:983–994
Leon LF, Imberger J, Smith REH, Lam D, Schertzer W (2005) Modeling as a tool for nutrient management in Lake Erie. J Great Lakes Res 31:309–318
Leon LF, Smith REH, Hipsey MR, Bocaniov SA, Higgins SN, Hecky RE, Antenucci JP, Imberger JA, Guilford SJ (2011) Application of a 3D hydrodynamic-biological model for seasonal and spatial dynamics of water quality and phytoplankton in Lake Erie. J Great Lakes Res 37:41–53
Leon LF, Antenucci JP, Rao YR, McCrimmon C (2012) Summary performance of the Estuary and Lake Computer Model (ELCOM): application in the Laurentian and other Great Lakes. Water Qual Res J Canada 47:252–267
Malkin SY, Silsbe GM, Smith REH, Howell ET (2012) A deep chlorophyll maximum nourishes benthic filter feeders in the coastal zone of a large clear lake. Limnol Oceanogr 57:735–748
McCabe GJ, Clark MP, Serreze MC (2001) Trends in northern hemisphere surface cyclone frequency and intensity. J Climate 14:2763–2768
McLean K (2011) Experimental studies on the erodibility and transport behaviour of dreissenid mussel deposits in an annular flume. M.Sc. thesis, Department of Geography, University of Waterloo
Mellina E, Rasmussen JB, Mills EL (1995) Impact of zebra mussel (Dreissena polymorpha) on phosphorus cycling and chlorophyll in lakes. Can J Fish Aquat Sci 52:2553–2573
Mendelsohn R, Emanuel K, Chonabayashi S, Bakkensen L (2012) The impact of climate change on global tropical cyclone damage. Nat Clim Change 2(3):205–209
MNR and LSRCA (2013) Report on phoshphorus loads to Lake Simcoe 2007-2009. http://www.lsrca.on.ca/pdf/reports/phosphorus_2007_2009.pdf. Accessed 16 December 2013
Naddafi R, Pettersson K, P Eklöv (2008) Effects of the zebra mussel, an exotic freshwater species, on seston stoichiometry. Limnol Oceanogr 53:1973–1987
Nielsen TG, Maar M (2007) Effects of a blue mussel Mytilus edulis bed on vertical distribution and composition of the pelagic food web. Mar Ecol Prog Ser 339:185–198
Noonburg EG, Shuter BJ, Abrams PA (2003) Indirect effects of zebra mussels (Dreissena polymorpha) on the planktonic food web. Can J Fish Aquat Sci 60:1353–1368
North RL et al (2013) The state of Lake Simcoe (Ontario, Canada): the effects of multiple stressors on phosphorus and oxygen dynamics. Inland Waters 3:51–74
Nürnberg GK, LaZerte BD, Loh PS, Molot LA (2013) Quantification of internal phosphorus load in large, partially polymictic and mesotrophic Lake Simcoe Ontario. J Great Lakes Res 39:271–279
O’Connor E, McConnel C, Lembecke D, Palmer M, Stainsby A, Winter JG (2012) Annual water balances, total phosphorus budgets and total nitrogen and chloride loads to Lake Simcoe (2004–2007). Report. Lake Simcoe Region Conservation Authority. http://www.lsrca.on.ca/pdf/reports/phosphorus_etal_2004_2007.pdf
Ozersky T, Malkin SY, Barton DR, Hecky RE (2009) Dreissenid phosphorus excretion can sustain C. glomerata growth along a portion of Lake Ontario shoreline. J Great Lakes Res 35:321–328
Ozersky T, Barton DR, Depew DC, Hecky RE, Guilford SJ (2011a) Effects of water movement on the distribution of invasive dreissenid mussels in Lake Simcoe Ontario. J Great Lakes Res 37(suppl. 3):46–54
Ozersky T, Barton DR, Evans DO (2011b) Fourteen years of dreissenid presence in the rocky littoral zone of a large lake: effects on macroinvertebrate abundance and diversity. J N Am Benthol Soc 30:913–922
Padilla DK, Adolph SC, Cottingham KL, Schneider DW (1996) Predicting the consequences of dreissenid mussels on a pelagic food web. Ecol Model 85:129–144
Palmer ME, Winter JG, Young JD, Dillon PJ, Guilford SJ (2011) Introduction and summary of research on Lake Simcoe: research, monitoring, and restoration of a large lake and its watershed. J Great Lakes Res 37:1–6
Rennie MD, Evans DO (2012) Decadal changes in benthic invertebrate biomass and community structure in Lake Simcoe. Freshw Sci 31:733–749
Rennie MD, Evans DO, Young JD (2013) Increased dependence on nearshore benthic resources in the Lake Simcoe ecosystem after dreissenid invasion. Inland Waters 3:297–310
Schwalb AN, Bouffard D, Ozersky T, Boegman L, Smith REH (2013) Impacts of hydrodynamics and benthic communities on phytoplankton distributions in a large, dreissenid-colonized lake (Lake Simcoe, Ontario, Canada). Inland Waters 3:269–284
Spillman CM, Hamilton DP, Hipsey MR, Imberger I (2008) A spatially resolved model of seasonal variations in phytoplankton and clam (Tapes philippinarum) biomass in Barbamarco Lagoon, Italy. Estuar Coast Shelf S 79:187–203
Sprung M (1995) Physiological energetics of the zebra musselDreissena polymorpha in lakes III. Metabolism and net growth efficiency. Hydrobiologia 304:147–158
Stainsby EA, Winter JG, Jarjanazi H, Paterson AM, Evans DO, Young JD (2011) Changes in the thermal stability of Lake Simcoe from 1980 to 2008. J Great Lakes Res 37:55–62
Stoeckmann A (2003) Physiological energetics of Lake Erie dreissenid mussels: a basis for the displacement of Dreissena polymorpha by Dreissena bugensis. Can J Fish Aquat Sci 60:126–134
Strayer DL (2009) Twenty years of zebra mussels: lessons from the mollusk that made headlines. Front Ecol Environ 7:135–141
Trolle D, Hamilton DP, Pilditch CA, Duggan IC, Jeppesen E (2011) Predicting the effects of climate change on trophic status of three morphologically varying lakes: implications for lake restoration and management. Environ Modell Softw 26:354–370
Turner AJ, Fiore AM, Horowitz LW, Bauer M (2013) Summertime cyclones over the Great Lakes Storm Track from 1860–2100: variability, trends, and association with ozone pollution. Atmos Chem Phys 13:565–578
Winter JG, Eimers MC, Dillon PJ, Scott LD (2007) Phosphorus inputs to Lake Simcoe from 1990 to 2003: declines in tributary loads and observations on lake water quality. J Great Lakes Res 33:381–396
Winter JG, Young JD, Landre A, Stainsby E, Jarjanazi H (2011) Changes in phytoplankton community composition of Lake Simcoe from 1980 to 2007 and relationships with multiple stressors. J Great Lakes Res 37:63–71
Young JD, Winter JG, Molot L (2011) A re-evaluation of the empirical relationships connecting dissolved oxygen and phosphorus loading after dreissenid mussel invasion in Lake Simcoe. J Great Lakes Res 37:7–14
Zhang H, Culver DA, Boegman L (2008) A two-dimensional ecological model of Lake Erie: application to estimate dreissenid impacts on large lake plankton populations. Ecol Model 214:219–241
Acknowledgments
We thank Environment Canada’s Lake Simcoe Cleanup Fund for funding this study, Ontario Ministry of Natural Resources for providing the bathymetry data for this project, David Evans, Rebecca North, and Brian Ginn for sharing their field data, and Joelle Young for her comments on this manuscript.
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Schwalb, A.N., Bouffard, D., Boegman, L. et al. 3D modelling of dreissenid mussel impacts on phytoplankton in a large lake supports the nearshore shunt hypothesis and the importance of wind-driven hydrodynamics. Aquat Sci 77, 95–114 (2015). https://doi.org/10.1007/s00027-014-0369-0
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DOI: https://doi.org/10.1007/s00027-014-0369-0