Modelling Si-N-limited growth of diatoms

doi:10.1093/plankt/22.3.447

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Journal of Plankton Research Vol.22 no.3 pp.447-472, 2000
© Oxford University Press 2000

Modelling Si–N-limited growth of diatoms

Kevin J. Flynn and Veronique Martin-Jézéquel¹

Ecology Research Unit, School of Biological Sciences, University of Wales Swansea, Singleton Park, Swansea SA2 8PP, UK and ¹ UMR 6539, CNRS, Université de Bretagne Occidentale, Institut Universitaire Européen de la Mer, Technopole Brest-Iroise, Place Nicolas Copernic, F-29280 Plouzane, France

A mechanistic model for silicon (Si) physiology is developed,interfaced with a model of nitrogen (N) physiology, which iscapable of simulating the major documented facets of Si–Nphysiology in diatoms. The model contains a cell cycle componentthat is involved in regulating the timing of the synthesis ofvalves, girdles and setae. In addition to reproducing the timingof diatom cell division within a light–dark cycle, themodel simulates the following features seen in real diatoms.Synthesis of valves only occurs during G₂ interphase and M,while the girdles and (if appropriate) setae are synthesizedduring G₁. Si stress alone results in a loss of setae, followedby a thinning of the valves in successive generations untila minimum Si cell quota is attained. After this point, the durationof G₂ increases and growth is Si limited. Concurrently, thecarbon (C) cell quota increases, offering the capability tosimulate the documented increase in sinking rates with Si stress.N stress alone results in an increase in the duration of G₁and G₂ interphases, and high Si cell quotas. From this complexmodel, which must be run for arrays of subpopulations to simulatenon-synchronous growth, a simpler model is developed. This iscapable of reproducing similar growth dynamics, although withno reference to component parts of the frustule. When alliedto a photoacclimative submodel, a prediction of the model isthat diatoms starved of Si will release increased amounts ofdissolved organic C because cell growth is halted more rapidlythan the photosystems can be degraded.

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