Predictive utility of trait-separated phytoplankton groups: A robust approach to modeling population dynamics

Journal of Great Lakes Research

Volumn 40, Issue S3, 2014, Pages 143-150

  Reynolds, Colin S ^a   Alex Elliott, J ^a   Frassl, Marieke A ^b,c  

^a CENTRE FOR ECOLOGY AND HYDROLOGY   (United Kingdom)

^b UNIVERSITY OF KONSTANZ   (Germany)

^c HELMHOLTZ CENTRE FOR ENVIRONMENTAL RESEARCH UFZ   (Germany)

Author keywords

Functional groups; Niche selection; PROTECH; Species succession

Indexed keywords

COMPUTER SIMULATION; ECOLOGY; FUNCTIONAL GROUPS; LIGHT; NITROGEN; NITROGEN FIXATION; PHYSIOLOGICAL MODELS; PHYSIOLOGY; PHYTOPLANKTON;

ENVIRONMENTAL CONDITIONS; FUNCTIONAL ATTRIBUTE; HIGH SURFACE-TO-VOLUME RATIO; NICHE SELECTION; PHYSIOLOGICAL PROPERTIES; PHYTOPLANKTON SPECIES; PROTECH; SPECIES SUCCESSION;

PLANKTON;

ALGAE;

EID: 84918823462     PISSN: 03801330     EISSN: None     Source Type: Journal    
DOI: 10.1016/j.jglr.2014.02.005     Document Type: Article

References (28)

1. Burns C.W. Relation between filtering rate, temperature and body size in four species of Daphnia. Limnol. Oceanogr. 1969, 14:693-700.
2. Elliott J.A. The seasonal sensitivity of Cyanobacteria and other phytoplankton to changes in flushing rate and water temperature. Glob. Chang. Biol. 2010, 16:864-876.
3. Elliott J.A. Predicting the impact of changing nutrient load and temperature on the phytoplankton of England's largest lake, Windermere. Freshw. Biol. 2012, 57:400-413.
4. Elliott J.A., Irish A.E., Reynolds C.S. Modelling phytoplankton dynamics in freshwaters: affirmation of the PROTECH approach to simulation. Freshw. Rev. 2010, 3:75-96.
5. Elliott J.A., Irish A.E., Reynolds C.S., Tett P. Modelling freshwater phytoplankton communities; an exercise in validation. Ecol. Model. 2000, 128:19-26.
6. Ferguson A.J.D., Thompson J.M., Reynolds C.S. Structure and dynamics of zooplankton communities maintained in closed systems, with special reference to the algal food supply. J. Plankton Res. 1982, 4:523-543.
7. Kirk J.T.O. A theoretical analysis of the contribution of algal cells to the attenuation of light within natural waters. III. Cylindrical and sphaeroidal cells. New Phytol. 1976, 77:341-358.
8. Kruk C., Huszar V.L.M., Peeters E.T.H.M., Bonilla S., Costa L., Lürling M., Reynolds C.S., Scheffer M. A morphological classification capturing functional variation in phytoplankton. Freshw. Biol. 2010, 55:614-627.
9. Kruk C., Peeters E.T.H.M., van Nes E.H., Huszar V.L.M., Costa S., Scheffer M. Phytoplankton community composition can be predicted best in terms of morphological groups. Limnol. Oceanogr. 2011, 56:110-118.
10. Lewis D.M., Elliott J.A., Lambert M.F., Reynolds C.S. The simulation of an Australian reservoir using a phytoplankton community model (PROTECH). Ecol. Model. 2002, 150:107-116.
11. Litchman E., Klausmeier C.A. Trait-based community ecology of phytoplankton. Annu. Rev. Ecol. Syst. 2008, 39:615-639.
12. Litchman E., Pinto de T.P., Klausmeier C.A., Thomas M.K., Yoshiyama K. Linking traits to species diversity and community structure in phytoplankton. Hydrobiologia 2010, 653:15-28.
13. Mooij W.M., Trolle D., Jeppesen E., Arhonditsis G., Belolipetsky P.V., Chitamwebwa D.B.R., Degermendzhy A.G., DeAngelis D.L., De Senerpont Domis L.N., Downing A.S., Elliott J.A., Fragoso C.R., Gaedke U., Genova S.N., Gulati R.D., Håkanson L., Hamilton D.P., Hipsey M.R., Hoen J., Hülsmann S., Los F.H., Makler-Pick V., Petzoldt T., Prokopkin I.G., Rinke K., Schep S.A., Tominaga K., Van Dam A.A., Van Nes E.H., Wells S.A., Janse J.H. Challenges and opportunities for integrating lake ecosystem modelling approaches. Aquat. Ecol. 2010, 44:633-667.
14. Moreno-Ostos E., Elliott J.A., Cruz-Pizarro L., Escot C., Basanta A., George D.G. Using a numerical model (PROTECH) to examine the impact of water transfers on phytoplankton dynamics in a Mediterranean reservoir. Limnetica 2007, 26:1-11.
15. Nadin-Hurley C.M., Duncan A. A comparison of daphnid gut particles with the sestonic particles in two Thames Valley reservoirs throughout 1970 and 1971. Freshwat. Biol. 1976, 6:109-123.
16. Naselli-Flores L., Barone R. Fight on plankton! Or, phytoplankton shape and size as adaptive tools to get ahead in the struggle for life. Cryptogam. Algol. 2011, 32:157-204.
17. Padisák J., Crosetti L.O., Naselli-Flores L. Use and misuse in the application of the phytoplankton functional classification: a critical review with updates. Hydrobiologia 2009, 621:1-19.
18. Pätynen A., Elliott J.A., Kiuru P., Sarvala J., Ventela A.-M., Jones R.I. Modelling the impact of higher temperature on the phytoplankton of a boreal lake. Boreal Environ. Res. 2014, (in press).
19. Core Team R. R: A Language and Environment for Statistical Computing 2012, R Foundation for Statistical Computing, Vienna, Austria, (URL http://www.R-project.org/).
20. Reynolds C.S. Phytoplankton periodicity: the interaction of form, function and environmental variability. Freshw. Biol. 1984, 14:111-142.
21. Reynolds C.S. Phytoplankton designer - or how to predict compositional responses to trophic-state change. Hydrobiologia 2000, 424:123-132.
22. Reynolds C.S. The Ecology of Phytoplankton 2006, Cambridge University Press, Cambridge.
23. Reynolds C.S., Irish A.E. Modelling phytoplankton dynamics in lakes and reservoirs: the problem of in-situ growth rates. Hydrobiologia 1997, 349:5-17.
24. Reynolds C.S., Irish A.E., Elliott J.A. The ecological basis for simulating phytoplankton responses to environmental change (PROTECH). Ecol. Model. 2001, 140:271-291.
25. Schultz J. Handbuch der Ökozonen 2000, Ulmer, Stuttgart.
26. Segura A.M., Kruk C., Calliari D., Fort H. Use of a morphology-based functional approach to community succession in a shallow subtropical lake. Freshw. Biol. 2013, 58:504-512.
27. Trolle D., Hamilton D.P., Hipsey M.R., Bolding K., Bruggeman J., Mooij W.M., Janse J.H., Nielsen A., Jeppesen E., Elliott J.A., Makler-Pick V., Petzoldt T., Rinke K., Flindt M.R., Arhonditsis G.B., Gal G., Bjerring R., Tominaga K., Hoen J., Downing A.S., Marques D.M., Fragoso C.R., Sondergaard M., Hanson P.C. A community-based framework for aquatic ecosystem models. Hydrobiologia 2012, 683:25-34.
28. Yoshiyama K., Mellard J.P., Litchman E., Klausmeier C.A. Phytoplankton competition for nutrients and light in a stratified water column. Am. Nat. 2009, 174:190-203.