Chemical contamination-mediated regime shifts in planktonic systems

Banerjee S, Sarkar RR, Chattopadhyay J (2019) Effect of copper contamination on zooplankton epidemics. J Theor Biol 469:61–74

Baudena M, Boni G, Ferraris L, Von Hardenberg J, Provenzale A (2007) Vegetation response to rainfall intermittency in drylands: Results from a simple ecohydrological box model. Adv Water Resour 30(5):1320–1328

Beisner BE, Haydon DT, Cuddington K (2003) Alternative stable states in ecology. Front Ecol Environ 1(7):376–382

Boettiger C, Hastings A (2013) No early warning signals for stochastic transitions: insights from large deviation theory. Proc Roy Soc B: Biol Sci 280(1766):20131372

Bossuyt BT, Janssen CR (2003) Acclimation of Daphnia magna to environmentally realistic copper concentrations. Comp Biochem Physiol C Toxicol Pharmacol 136:253–264

Camara BI, Yamapi R, Mokrani H (2017) How do copper contamination pulses shape the regime shifts of phytoplankton-zooplankton dynamics? Commun Nonlinear Sci Numer Simul 48:170–178

Carpenter SR (2005) Eutrophication of aquatic ecosystems: bistability and soil phosphorus. Proc Natl Acad Sci USA 102(29):10002–10005

Carpenter SR (2008) Phosphorus control is critical to mitigating eutrophication. Proc Natl Acad Sci USA 105(32):11039–11040

Carpenter SR, Cole JJ, Pace ML, Batt R, Brock W, Cline T, Coloso J, Hodgson JR, Kitchell JF, Seekell DA et al (2011) Early warnings of regime shifts: a whole-ecosystem experiment. Science 332(6033):1079–1082

Clements WH, Cherry DS, Hassel JHV (1992) Assessment of the impact of heavy metals on benthic communities at the Clinch River (Virginia): evaluation of an index of community sensitivity. Can J Fish Aquat Sci 49:1686–1694

Dakos V, Carpenter SR, Brock WA, Ellison AM, Guttal V, Ives AR, Kefi S, Livina V, Seekell DA, van Nes EH et al (2012) Methods for detecting early warnings of critical transitions in time series illustrated using simulated ecological data. PLoS One 7(7)

Dennis B (1998) Moving toward an unstable equilibrium: saddle nodes in population systems. J Anim Ecol 67(2):298–306

Dhooge A, Govaerts W, Kuznetsov YA, Meijer HGE, Sautois B (2008) New features of the software matcont for bifurcation analysis of dynamical systems. Math Comput Model Dyn Syst 14(2):147–175

Drake JM (2013) Early warning signals of stochastic switching. Proc Roy Soc B: Biol Sci 280(1766):20130686

Evans SN, Ralph PL, Schreiber SJ, Sen A (2013) Stochastic population growth in spatially heterogeneous environments. J Math Biol 66(3):423–476

Fargašová A, Bumbálová A, Havránek E (1999) Ecotoxicological effects and uptake of metals ($$Cu^+, Cu^{2+}, Mn^{2+}, Mo^{6+}, Ni^{2+}, V^{5+}$$) in freshwater alga Scenedesmus quadricauda. Chemosphere 38:1165–1173

Flemming C, Trevors J (1989) Copper toxicity and chemistry in the environment: a review. Water Air Soil Pollut 44(1–2):143–158

Folke C, Carpenter S, Walker B, Scheffer M, Elmqvist T, Gunderson L, Holling CS (2004) Regime shifts, resilience, and biodiversity in ecosystem management. Annu Rev Ecol Evol Syst 35:557–581

Garay-Narváez L, Arim M, Flores JD, Ramos-Jiliberto R (2013) The more polluted the environment, the more important biodiversity is for food web stability. Oikos 122(8):1247–1253

Gutierrez MF, Paggi JC, Gagneten AM (2012) Microcrustaceans escape behavior as an early bioindicator of copper, chromium and endosulfan toxicity. Ecotoxicology 21:428–438

Guttal V, Jayaprakash C (2007) Impact of noise on bistable ecological systems. Ecol Model 201(3–4):420–428

Halley JM (1996) Ecology, evolution and 1f-noise. Trends Ecol Evol 11(1):33–37

Hassell M, Lawton J, Beddington J (1977) Sigmoid functional responses by invertebrate predators and parasitoids. J Anim Ecol 249–262

Hastings A (2004) Transients: the key to long-term ecological understanding? Trends Ecol Evol 19(1):39–45

Havens KE (1994) Structural and functional responses of a freshwater plankton community to acute copper stress. Environ Pollut 86:259–266

Higham DJ (2001) An algorithmic introduction to numerical simulation of stochastic differential equations. SIAM Rev 43(3):525–546

Huang Q, Parshotam L, Wang H, Bampfylde C, Lewis MA (2013) A model for the impact of contaminants on fish population dynamics. J Theor Biol 334:71–79

Huang Q, Wang H, Lewis MA (2015) The impact of environmental toxins on predator-prey dynamics. J Theor Biol 378:12–30

Ingersoll CG, Winner RW (1982) Effect on Daphnia pulex (de geer) of daily pulse exposures to copper or cadmium. Environ Toxicol Chem 1:321–327

Jorgensen E (2010) Ecotoxicology. Academic Press

Kéfi S, Dakos V, Scheffer M, Van Nes EH, Rietkerk M (2013) Early warning signals also precede non-catastrophic transitions. Oikos 122(5):641–648

Kim Y, Son J, Mo H-H, Lee Y-S, Cho K (2018) Modeling the influence of initial density and copper exposure on the interspecific competition of two algal species. Ecol Model 383:160–170

Knops M, Altenburger R, Segner H (2001) Alterations of physiological energetics, growth and reproduction of Daphnia magna under toxicant stress. Aquat Toxicol 53:79–90

Koivisto S, Ketola M, Walls M (1992) Comparison of five cladoceran species in short-and long-term copper exposure. Hydrobiologia 248:125–136

Kooi B, Bontje D, Van Voorn G, Kooijman S (2008) Sublethal toxic effects in a simple aquatic food chain. Ecol Model 212(3–4):304–318

Lebrun JD, Perret M, Geffard A, Gourlay-Francé C (2012) Modelling copper bioaccumulation in Gammarus pulex and alterations of digestive metabolism. Ecotoxicology 21:2022–2030

Luecke C, Vanni MJ, Magnuson JJ, Kitchell JF, Jacobson PT (1990) Seasonal regulation of Daphnia populations by planktivorous fish: Implications for the spring clear-water phase. Limno Oceanogr 35(8):1718–1733

Luoma SN, Rainbow PS (2005) Why is metal bioaccumulation so variable? biodynamics as a unifying concept. Environ Sci Technol 39:1921–1931

McQueen D, Post J (1988) Cascading trophic interactions: Uncoupling at the zooplankton-phytoplankton link. Hydrobiologia 159(3):277–296

Mertz W (1981) The essential trace elements. Science 213:1332–1338

Mills E, Forney J, Wagner K (1987) Fish predation and its cascading effect on the Oneida Lake food chain. In Predation: direct and indirect impacts on aquatic communities. University Press of New England, Hanover, NH 118–131

Møller JK, Carstensen J, Madsen H, Andersen T (2009) Dynamic two state stochastic models for ecological regime shifts. Environmetrics 20(8):912–927

Murdoch W, Nisbet R, McCauley E, DeRoos A, Gurney W (1998) Plankton abundance and dynamics across nutrient levels: tests of hypotheses. Ecology 79:1339–1356

O’Keefe TC, Brewer MC, Dodson SI (1998) Swimming behavior of Daphnia: its role in determining predation risk. J Plankton Res 20:973–984

Pace ML, Carpenter SR, Johnson RA, Kurtzweil JT (2013) Zooplankton provide early warnings of a regime shift in a whole lake manipulation. Limnol Oceanogr 58(2):525–532

Petrovskii S, Sekerci Y, Venturino E (2017) Regime shifts and ecological catastrophes in a model of plankton-oxygen dynamics under the climate change. J Theor Biol 424:91–109

Prosnier L, Loreau M, Hulot FD (2015) Modeling the direct and indirect effects of copper on phytoplankton zooplankton interactions. Aquat Toxicol 162:73–81

Real LA (1977) The kinetics of functional response. Am Nat 111(978):289–300

Rietkerk M, Dekker SC, De Ruiter PC, van de Koppel J (2004) Self-organized patchiness and catastrophic shifts in ecosystems. Science 305(5692):1926–1929

Rip J, McCann K (2011) Cross-ecosystem differences in stability and the principle of energy flux. Ecol Lett 14(8):733–740

Scheffer M (1997) Ecology of shallow lakes. Springer Science & Business Media vol 22

Scheffer M, Bascompte J, Brock WA, Brovkin V, Carpenter SR, Dakos V, Held H, Van Nes EH, Rietkerk M, Sugihara G (2009) Early-warning signals for critical transitions. Nature 461(7260):53–59

Scheffer M, Carpenter S, Foley JA, Folke C, Walker B (2001) Catastrophic shifts in ecosystems. Nature 413(6856):591–596

Scheffer M, Carpenter SR (2003) Catastrophic regime shifts in ecosystems: linking theory to observation. Trends Ecol Evol 18(12):648–656

Scheffer M, De Boer RJ (1995) Implications of spatial heterogeneity for the paradox of enrichment. Ecology 76(7):2270–2277

Scheffer M, Hosper S, Meijer M, Moss B, Jeppesen E (1993) Alternative equilibria in shallow lakes. Trends Ecol Evol 8(8):275–279

Scheffer M, Rinaldi S, Kuznetsov YA (2000) Effects of fish on plankton dynamics: a theoretical analysis. Can J Fish Aquat Sci 57(6):1208–1219

Sekerci Y, Petrovskii S (2015a) Mathematical modelling of plankton-oxygen dynamics under the climate change. Bull Math Biol 77(12):2325–2353

Sekerci Y, Petrovskii S (2015b) Mathematical modelling of spatiotemporal dynamics of oxygen in a plankton system. Math Model Nat Phenom 10(2):96–114

Sharma Y, Abbott KC, Dutta PS, Gupta A (2015) Stochasticity and bistability in insect outbreak dynamics. Theor Ecol 8(2):163–174

Stoyanov M, Gunzburger M, Burkardt J (2011) Pink noise, 1/f $$\alpha$$ noise, and their effect on solutions of differential equations. Int J Uncertain Quan 1(3)

Sullivan B, Buskey E, Miller D, Ritacco P (1983) Effects of copper and cadmium on growth, swimming and predator avoidance in Eurytemora affinis (copepoda). Mar Biol 77:299–306

Untersteiner H, Kahapka J, Kaiser H (2003) Behavioural response of the cladoceran Daphnia magna STRAUS to sublethal copper stress-validation by image analysis. Aquat Toxicol 65:435–442

WHO (1998) Copper. Environmental health criteria 200

Wilson MA, Carpenter SR (1999) Economic valuation of freshwater ecosystem services in the united states: 1971–1997. Ecol Appl 9(3):772–783

Wright DI, O’Brien WJ (1982) Differential location of Chaoborus larvae and Daphnia by fish: the importance of motion and visible size. Am Midl Nat 108:68–73

Yan H, Pan G (2002) Toxicity and bioaccumulation of copper in three green microalgal species. Chemosphere 49:471–476