The parameter values are identified by iteratively comparing simu

The parameter values are identified by iteratively comparing simulation results to experimental data using summed

squares of differences, and a subset of these comparisons across parameter space are compared to check for correlation. The optimal combination is then found by implementing a two-step optimisation process (simulated annealing, followed by Broyden–Fletcher–Goldfarb–Shanno minimisation algorithms ( Behzadi et al., 2005, Belisle, 1992, Broyden, 1970, Fletcher, 1970, Goldfarb, 1970 and Shanno, 1970) within the ‘optim’ function in the core package of the R (v2.13.1) statistical and programming environment ( R Development Core Team, 2011). Following preliminary statistical analysis on the change in bromide concentration across all time points, the change in concentration between 0 and 4 h was analysed, as subsequent time periods Docetaxel ic50 showed evidence of tracer equilibration as found elsewhere (e.g. Forster et al., 1999 and Mermillod-Blondin et al., 2004). Linear regression models were developed for each of the dependent variables distance, maximum luminophore depth (lummax), lummed, lummean, lumCV, Δ[Br−], [NH4–N], [NOx–N], [PO4–P] and [SiO2–Si], with levels of pH (6.5

17-AAG solubility dmso or 8.1) and the presence/absence of A. filiformis as independent fixed factors. As a first step a linear regression model was fitted for each dependant variable. Where model validation showed evidence of unequal variance a generalised least squares (GLS; Pinheiro and Bates, 2000 and Zuur et al., 2009) mixed modelling approach was used to model the heterogeneity of variance. All analyses were carried out using the ‘nlme’ package (v3.1-101; Pinheiro et al., 2011) in the R (v2.13.1) statistical and programming environment (R Development Core Team, 2011). Seawater carbonate parameters (Table 1) within the recirculating

seawater tanks were stable throughout the duration of the experiment. A. filiformis survival was 100% throughout the acclimatisation period and over the course of the experiment. Under acidified conditions individuals Urease displayed emergent behaviour within minutes of exposure ( Fig. S1, Time lapse video sequence S1) typical of a stress response to hypoxia ( Nilsson, 1999). Oxygen levels in individual aquaria were not measured, however visual examination of the sediment profile did not reveal any evidence (e.g. changes in sediment colour, elevation of redox boundary; Lyle, 1983) of enhanced reduction. This is coherent with previous studies in which oxygen levels were monitored and echinoderms displayed emergent behaviour in response to hypercapnia (e.g. Widdicombe et al., 2009). Images from the f-SPI sequences showed active particle reworking in both ambient and acidified treatments, however, behavioural differences observed led to subtle changes in the vertical distribution of luminophores between ambient and acidified conditions (Fig. 2, S2 and 3).

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