Access the full text.
Sign up today, get DeepDyve free for 14 days.
M Bormans, PW Ford, L Fabbro (2005)
Spatial and temporal variability in cyanobacterial populations controlled by physical processesJ Plankton Res, 27
GG Ganf, RL Oliver (1982)
Vertical separation of light and available nutrients as a factor causing replacement of green-algae by blue-green-algae in the plankton of a stratified lakeJ Ecol, 70
S Jacquet (2005)
The proliferation of the toxic cyanobacterium Planktothrix rubescens following restoration of the largest natural French lake (Lac du Bourget)Harmful Algae, 4
WM Lewis, WA Wurtsbaugh (2008)
Control of lacustrine phytoplankton by nutrients: erosion of the phosphorus paradigmInt Rev Hydrobiol, 93
RH Foy, CE Gibson, RV Smith (1976)
The influence of day length, light intensity and temperature on the growth rates of planktonic blue-green algaeBr Phycol J, 11
C Butterwick, SI Heaney, JF Talling (2005)
Diversity in the influence of temperature on the growth rates of freshwater algae, and its ecological relevanceFreshw Biol, 50
JM Verspagen (2014)
Rising CO2 levels will intensify phytoplankton blooms in eutrophic and hypertrophic lakesPLoS One, 9
V Huber, C Wagner, D Gerten, R Adrian (2012)
To bloom or not to bloom: contrasting responses of cyanobacteria to recent heat waves explained by critical thresholds of abiotic driversOecologia, 169
R Kinsman, BW Ibelings, A Walsby (1991)
Gas vesicle collapse by turgor pressure and its role in buoyancy regulation by Anabaena flos-aquaeJ Gen Microbiol, 137
J Padisák (1997)
Cylindrospermopsis raciborskii (Woloszynska) Seenayya et Subba Raju, an expanding, highly adaptive cyanobacterium: worldwide distribution and review of its ecologyArchiv Für Hydrobiologie Supplementband Monographische Beitrage, 107
FC Roozen (2003)
Lake age and water level affect the turbidity of floodplain lakes along the lower RhineFreshw Biol, 48
BW Ibelings, M Vonk, HFJ Los, DT Molen, WM Mooij (2003)
Fuzzy modeling of cyanobacterial surface waterblooms: validation with NOAA–AVHRR satellite imagesEcol Appl, 13
P Wacklin, L Hoffmann, J Komárek (2009)
Nomenclatural validation of the genetically revised cyanobacterial genus Dolichospermum (Ralfs ex Bornet et Flahault) comb. novaFottea, 9
R Li (2001)
Isolation and identification of the cyanotoxin cylindrospermopsin and deoxy-cylindrospermopsin from a Thailand strain of Cylindrospermopsis raciborskii (Cyanobacteria)Toxicon, 39
J Fastner (2003)
Cylindrospermopsin occurrence in two German lakes and preliminary assessment of toxicity and toxin production of Cylindrospermopsis raciborskii Cyanobacteria) isolatesToxicon, 42
EF Ryan, DP Hamilton, GP Barnes (2004)
Recent occurrence of Cylindrospermopsis raciborskii in Waikato lakes of New ZealandNZ J Mar Freshw Res, 37
S Levine, D Schindler (1999)
Influence of nitrogen to phosphorus supply ratios and physicochemical conditions on cyanobacteria and phytoplankton species composition in the Experimental Lakes Area, CanadaCan J Fish Aquat Sci, 56
V Istvanovics, H Shafik, M Presing (2000)
Growth and phosphate uptake kinetics of the cyanobacterium Cylindrospermopsis raciborskii (Cyanophyceae) in throughflow culturesFreshw Biol, 43
M Stomp, MA Dijk, HMJ Overzee, MT Wortel, CAM Sigon, M Egas, H Hoogvelt, HJ Gons, J Huisman (2008)
The timescale of phenotypic plasticity and its impact on competition in fluctuating environmentsAm Nat, 172
JR Gallon, KN Chit, EG Brown (1990)
Biosynthesis of the tropane-related cyanobacterial toxin anatoxin-a: role of ornithine decarboxylasePhytochemistry, 29
E Briand (2008)
Temporal variations in the dynamics of potentially microcystin-producing strains in a bloom-forming Planktothrix agardhii (Cyanobacterium) populationAppl Environ Microbiol, 74
T Posch, O Koester, MM Salcher, J Pernthaler (2012)
Harmful filamentous cyanobacteria favoured by reduced water turnover with lake warmingNat Clim Change, 2
JA Elliott, SJ Thackeray, C Huntingford, RG Jones (2005)
Combining a regional climate model with a phytoplankton community model to predict future changes in phytoplankton in lakesFreshw Biol, 50
AN Glazer (1984)
Phycobilisome a macromolecular complex optimized for light energy transferBiochimica et Biophysica Acta (BBA)-Rev Bioenerg, 768
BW Ibelings, SC Maberly (1998)
Photoinhibition and the availability of inorganic carbon restrict photosynthesis by surface blooms of cyanobacteriaLimnol Oceanogr, 43
Fraisse (2013)
Morphofunctional traits reflect differences in phytoplankton community between rivers of contrasting flow regimeAquat Ecol, 47
M Bormans, BS Sherman, IT Webster (1999)
Is buoyancy regulation in cyanobacteria an adaptation to exploit separation of light and nutrients?Mar Freshw Res, 50
M Bormans, S Condie (1998)
Modelling the distribution of Anabaena and Melosira in a stratified river weir poolHydrobiologia, 364
S Kosten (2012)
Warmer climates boost cyanobacterial dominance in shallow lakesGlob Change Biol, 18
KN Suding (2008)
Scaling environmental change through the community-level: a trait-based response-and-effect framework for plantsGlob Change Biol, 14
D Straile, O Kerimoglu, F Peeters, MC Jochimsen, R Kümmerlin, K Rinke, KO Rothhaupt (2010)
Effects of a half a millennium winter on a deep lake—a shape of things to come?Glob Change Biol, 16
BJ Cardinale (2011)
The functional role of producer diversity in ecosystemsAm J Bot, 98
DW Schindler (2008)
Eutrophication of lakes cannot be controlled by reducing nitrogen input: results of a 37-year whole-ecosystem experimentProc Natl Acad Sci USA, 105
W Carmichael (1997)
The cyanotoxinsAdv Bot Res, 27
T Bauersachs, LJ Stal, M Grego, L Schwark (2014)
Temperature induced changes in the heterocyst glycolipid composition of N-2 fixing heterocystous cyanobacteriaOrg Geochem, 69
AE Walsby, A Avery, F Schanz (1998)
The critical pressures of gas vesicles in Planktorhrix rubescens in relation tothe depth of winter mixing in Lake Zürich, SwitzerlandJ Plankton Res, 20
WW Carmichael (2001)
Health effects of toxin-producing cyanobacteria: “The CyanoHABs”Hum Ecol Risk Assess, 7
S Fietz, A Nicklish (2002)
Acclimation of the diatom Stephanodiscus neoastraea and the cyanobacterium Planktothrix agardhii to simulated natural light fluctuationsPhotosynth Res, 72
J Staal, H Hlobil, M Tulder, G Waddell, AK Burton, B Koes, W Mechelen (2003)
Occupational health guidelines for the management of low back pain: an international comparisonOccup Environ Med, 60
R Margalef (1978)
Life-forms of phytoplankton as survival alternatives in an unstable environmentOceanol Acta, 1
N Agawin, S Rabouille, M Veldhuis, L Servatius, S Hol, HM Overzee, J Huisman (2007)
Competition and facilitation between unicellular nitrogen-fixing cyanobacteria and non-nitrogen-fixing phytoplankton speciesLimnol Oceanogr, 52
JF Briand, C Leboulanger, JF Humbert, C Bernard, P Dufour (2004)
Cylindrospermopsis raciborskii (Cyanobacteria) invasion at mid-latitudes: selection, wide physiological tolerance, or global warming?J Phycol, 40
E Litchman, CA Klausmeier (2008)
Trait-based community ecology of phytoplanktonAnnu Rev Ecol Evol Syst, 39
O Anneville, S Souissi, S Gammeter, D Straile (2004)
Seasonal and inter-annual scales of variability in phytoplankton assemblages: comparison of phytoplankton dynamics in three peri-alpine lakes over a period of 28 yearsFreshw Biol, 49
S Gkelis, N Zaoutsos (2014)
Cyanotoxin occurrence and potentially toxin producing cyanobacteria in freshwaters of Greece: a multi-disciplinary approachToxicon, 78
SE Humphries, VD Lyne (1988)
Cyanophyte blooms: the role of cell buoyancyLimnol Oceanogr, 33
WK Dodds (2009)
Eutrophication of US Freshwaters: analysis of Potential Economic DamagesEnviron Sci Technol, 43
MY Cheung, S Liang, J Lee (2013)
Toxin-producing cyanobacteria in freshwater: a review of the problems, impact on drinking water safety, and efforts for protecting public healthJ Microbiol, 51
MF Chislock, KL Sharp, AE Wilson (2014)
Cylindrospermopsis raciborskii dominates under very low and high nitrogen-to-phosphorus ratiosWater Res, 49
GA Codd, LF Morrison, JS Metcalf (2005)
Cyanobacterial toxins: risk management for health protectionToxicol Appl Pharmacol, 203
E Jeppesen (2005)
Lake responses to reduced nutrient loading—an analysis of contemporary long-term data from 35 case studiesFreshw Biol, 50
G Woodward (2009)
Biodiversity, ecosystem functioning and food webs in fresh waters: assembling the jigsaw puzzleFreshw Biol, 54
A Walsby (1994)
Gas vesiclesMicrobiol Rev, 58
EH Lammens, EH Nes, M-L Meijer, MS Berg (2004)
Effects of commercial fishery on the bream population and the expansion of Chara aspera in Lake VeluweEcol Model, 177
KR O’Brien, DL Meyer, AM Waite, GN Ivey, DP Hamilton (2004)
Disaggregation of Microcystis aeruginosa colonies under turbulent mixing: laboratory experiments in a grid-stirred tankHydrobiologia, 519
B Moss (2011)
Allied attack: climate change and eutrophicationInland Waters, 1
O Anneville, JC Molinero, S Souissi, D Gerdeaux (2010)
Seasonal and interannual variability of cladoceran communities in two peri-alpine lakes: uncoupled response to the 2003 heat waveJ Plankton Res, 32
BW Ibelings, LR Mur, R Kinsman, A Walsby (1991)
Microcystis changes its buoyancy in response to the average irradiance in the surface mixed layerArchiv für Hydrobiologie, 120
PM Vitousek (2002)
Towards an ecological understanding of biological nitrogen fixationBiogeochemistry, 57
RD Gulati, LMD Pires, E Donk (2008)
Lake restoration studies: failures, bottlenecks and prospects of new ecotechnological measuresLimnol Ecol Manag Inland Waters, 38
L Tonk (2005)
The microcystin composition of the cyanobacterium Planktothrix agardhii changes toward a more toxic variant with increasing light intensityAppl Environ Microbiol, 71
CS Reynolds (2006)
The ecology of phytoplankton
BW Ibelings, BMA Kroon, LR Mur (1994)
Acclimation Of Photosystem-Ii in a cyanobacterium and a eukaryotic green-alga to high and fluctuating photosynthetic photon flux densities, simulating light regimes induced by mixing in lakesNew Phytol, 128
HW Paerl, J Huisman (2009)
Climate change: a catalyst for global expansion of harmful cyanobacterial bloomsEnviron Microbiol Rep, 1
J Huisman, HC Matthijs, PM Visser (2005)
Harmful cyanobacteria
R Kurmayer, E Dittmann, J Fastner, I Chorus (2002)
Diversity of microcystin genes within a population of the toxic cyanobacterium Microcystis spp. in Lake Wannsee (Berlin, Germany)Microb Ecol, 43
M Yılmaz, EJ Phlips, NJ Szabo, S Badylak (2008)
A comparative study of Florida strains of Cylindrospermopsis and Aphanizomenon for cylindrospermopsin productionToxicon, 51
CS Reynolds (1997)
Excellence in ecology: vegetation processes in the pelagic: a model for ecosystem theory
C Kruk (2010)
A morphological classification capturing functional variation in phytoplanktonFreshw Biol, 55
J Komárek, J Mareš (2012)
An update to modern taxonomy (2011) of freshwater planktic heterocytous cyanobacteriaHydrobiologia, 698
R Sinha, LA Pearson, TW Davis, MA Burford, PT Orr, BA Neilan (2012)
Increased incidence of Cylindrospermopsis raciborskii in temperate zones—is climate change responsible?Water Res, 46
JM Verspagen (2006)
Water management strategies against toxic Microcystis blooms in the Dutch deltaEcol Appl, 16
A Stüken (2006)
Distribution of three alien cyanobacterial species (Nostocales) in northeast Germany: Cylindrospermopsis raciborskii, Anabaena bergii and Aphanizomenon aphanizomenoidesPhycologia, 45
CC Carey, BW Ibelings, EP Hoffmann, DP Hamilton, JD Brookes (2012)
Eco-physiological adaptations that favour freshwater cyanobacteria in a changing climateWater Res, 46
A Walsby (1991)
The mechanical properties of the Microcystis gas vesicleJ Gen Microbiol, 137
KD Jöhnk, J Huisman, J Sharples, B Sommeijer, PM Visser, JM Stroom (2008)
Summer heatwaves promote blooms of harmful cyanobacteriaGlob Change Biol, 14
AE Walsby (2005)
Stratification by cyanobacteria in lakes: a dynamic buoyancy model indicates size limitations met by Planktothrix rubescens filamentsNew Phytol, 168
C Kruk (2011)
Phytoplankton community composition can be predicted best in terms of morphological groupsLimnol Oceanogr, 56
B Ibelings, W Admiraal, R Bijkerk, T Ietswaart, H Prins (1998)
Monitoring of algae in Dutch rivers: does it meet its goals?J Appl Phycol, 10
I Chorus, J Bartram (1999)
Toxic cyanobacteria in water: a guide to their public health consequences, monitoring and management
CS Reynolds (1984)
Phytoplankton periodicity—the interactions of form, function and environmental variabilityFreshw Biol, 14
T Vrede, A Ballantyne, C Mille-Lindblom, G Algesten, C Gudasz, S Lindahl, AK Brunberg (2009)
Effects of N:P loading ratios on phytoplankton community composition, primary production and N fixation in a eutrophic lakeFreshw Biol, 54
AE Walsby, G Ng, C Dunn, PA Davis (2004)
Comparison of the depth where Planktothrix rubescens stratifies and the depth where the daily insolation supports its neutral buoyancyNew Phytol, 162
E Jeppesen, P Kristensen, JP Jensen, M Søndergaard, E Mortensen, T Lauridsen (1991)
Recovery resilience following a reduction in external phosphorus loading of shallow, eutrophic Danish lakes: duration, regulating factors and methods for overcoming resilienceMem Ist Ital Idrobiol, 48
NR Viney (2007)
Modelling adaptive management strategies for coping with the impacts of climate variability and change on riverine algal bloomsGlob Change Biol, 13
M Scheffer, S Rinaldi, A Gragnani, LR Mur, EH vanNes (1997)
On the dominance of filamentous cyanobacteria in shallow, turbid lakesEcology, 78
D Schindler (1977)
Evolution of phosphorus limitation in lakesScience, 195
N Gallina, O Anneville, M Beniston (2011)
Impacts of extreme air temperatures on cyanobacteria in five deep peri-Alpine lakesLimnol Oceanogr, 70
A Rigosi, CC Carey, BW Ibelings, JD Brookes (2014)
The interaction between climate warming and eutrophication to promote cyanobacteria is dependent on trophic state and varies among taxaLimnol Oceanogr, 59
O Anneville, S Souissi, F Ibanez, V Ginot, JC Druart, N Angeli (2002)
Temporal mapping of phytoplankton assemblages in Lake Geneva: annual and interannual changes in their patterns of successionLimnol Oceanogr, 47
JT Scott, MJ McCarthy (2010)
Nitrogen fixation may not balance the nitrogen pool in lakes over timescales relevant to eutrophication managementLimnol Oceanogr, 55
HW Paerl, J Huisman (2008)
Climate—blooms like it hotScience, 320
(1996)
Guidelines for drinking water quality-health criteria and other supporting information
D Castro, D Vera, N Lagos, C García, M Vásquez (2004)
The effect of temperature on growth and production of paralytic shellfish poisoning toxins by the cyanobacterium Cylindrospermopsis raciborskiiToxicon, 44
HW Paerl, NS Hall, ES Calandrino (2011)
Controlling harmful cyanobacterial blooms in a world experiencing anthropogenic and climatic-induced changeSci Total Environ, 409
DM Livingstone (2003)
Impact of secular climate change on the thermal structure of a large temperate central European lakeClim Change, 57
BW Ibelings, R Portielje, EH Lammens, R Noordhuis, MS Berg, W Joosse, ML Meijer (2007)
Resilience of alternative stable states during the recovery of shallow lakes from eutrophication: lake Veluwe as a case studyEcosystems, 10
J Reiss, JR Bridle, JM Montoya, G Woodward (2009)
Emerging horizons in biodiversity and ecosystem functioning researchTrends Ecol Evol, 24
H Hillebrand, B Matthiessen (2009)
Biodiversity in a complex world: consolidation and progress in functional biodiversity researchEcol Lett, 12
CS Reynolds, V Huszar, C Kruk, L Naselli-Flores, S Melo (2002)
Towards a functional classification of the freshwater phytoplanktonJ Plankton Res, 24
JA Elliott (2012)
Is the future blue-green? A review of the current model predictions of how climate change could affect pelagic freshwater cyanobacteriaWater Res, 46
MT Dokulil, K Teubner (2012)
Deep living Planktothrix rubescens modulated by environmental constraints and climate forcingHydrobiologia, 698
MT Dokulil, K Teubner (2000)
Cyanobacterial dominance in lakesHydrobiologia, 438
B Ernst, SJ Hoeger, E O’Brien, DR Dietrich (2009)
Abundance and toxicity of Planktothrix rubescens in the pre-alpine Lake Ammersee, GermanyHarmful Algae, 8
BW Ibelings, LC Backer, WEA Kardinaal, I Chorus (2014)
Current approaches to cyanotoxin risk assessment and risk management around the globeHarmful Algae, 40
TW Davis, DL Berry, GL Boyer, CJ Gobler (2009)
The effects of temperature and nutrients on the growth and dynamics of toxic and non-toxic strains of Microcystis during cyanobacteria bloomsHarmful Algae, 8
K Sivonen (1990)
Effects of light, temperature, nitrate, orthophosphate, and bacteria on growth of and hepatotoxin production by Oscillatoria agardhii strainsAppl Environ Micorbiol, 56
C Wagner, R Adrian (2009)
Cyanobacteria dominance: quantifying the effects of climate changeLimnol Oceanogr, 54
L Mur, H Gons, L Liere (1977)
Some experiments on the competition between green algae and blue-green bacteria in light-limited environmentsFEMS Microbiol Lett, 1
M Bormans, PW Ford, L Fabbro, G Hancock (2004)
Onset and persistence of cyanobacterial blooms in a large impounded tropical river, AustraliaMar Freshw Res, 55
P Visser, B Ibelings, B Veer, J Koedood, R Mur (1996)
Artificial mixing prevents nuisance blooms of the cyanobacterium Microcystis in Lake Nieuwe Meer, the NetherlandsFreshw Biol, 36
BW Ibelings, I Chorus (2007)
Accumulation of cyanobacterial toxins in freshwater “seafood” and its consequences for public health: a reviewEnviron Pollut, 150
M Lürling, F Eshetu, EJ Faassen, S Kosten, VL Huszar (2013)
Comparison of cyanobacterial and green algal growth rates at different temperaturesFreshw Biol, 58
D Chonudomkul, W Yongmanitchai, G Theeragool, M Kawachi, F Kasai, K Kaya, MM Watanabe (2004)
Morphology, genetic diversity, temperature tolerance and toxicity of Cylindrospermopsis raciborskii (Nostocales, Cyanobacteria) strains from Thailand and JapanFEMS Microbiol Ecol, 48
E Litchman, PD Pinto, CA Klausmeier, MK Thomas, K Yoshiyama (2010)
Linking traits to species diversity and community structure in phytoplanktonHydrobiologia, 653
Anticipated climatic changes combined with eutrophication are predicted to enhance the dominance of several notorious cyanobacterial taxa. Cyanobacteria have many key ecological traits that may allow them to thrive under foreseen scenarios of environmental change. Understanding the ecophysiological traits of harmful species has proven important for their successful control and management. Indeed, if the links between key cyanobacterial traits and the specific environmental conditions that allow expression of these traits can be disrupted, we could identify (novel) means for operational control and mitigate or prevent water quality problems. A good example is artificial mixing of a lake that breaks down the water column stability on which fast floating, buoyant cyanobacteria depend. Based upon Reynolds’ functional phytoplankton classification, we focused on five groups of cyanobacteria that from a management point of view can be seen as homogeneous and have comparable environmental sensitivities. For each group, we present (1) its key traits, (2) how these characteristics will maintain their function under future environmental change, (3) explanation of how understanding the function of these traits can reveal the “Achilles heel” of the particular functional group and (4) which (combination of) control measures is most likely to be successful. Despite looking for specific environmental sensitivities of individual groups, we maintain that controlling nutrients remains the basis for managing blooms, no matter which functional type dominates. Providing further ecological knowledge to lake management could be the key to effective bloom control and healthier, sustainable freshwater ecosystems even in a warmer future.
Aquatic Ecology – Springer Journals
Published: Jun 16, 2015
Read and print from thousands of top scholarly journals.
Already have an account? Log in
Bookmark this article. You can see your Bookmarks on your DeepDyve Library.
To save an article, log in first, or sign up for a DeepDyve account if you don’t already have one.
Copy and paste the desired citation format or use the link below to download a file formatted for EndNote
Access the full text.
Sign up today, get DeepDyve free for 14 days.
All DeepDyve websites use cookies to improve your online experience. They were placed on your computer when you launched this website. You can change your cookie settings through your browser.