That is why in our analyses we have tried to present variability in terms of statistical parameters such as standard deviations and/or
coefficients of variation rather than emphasizing particular ERK inhibitor cell line values and the significance of some extreme cases. We believe that by doing so we probably stress most of the real and true part of the variability encountered in relations between the particulate constituents of seawater and their IOPs. At the same time, we are also aware that with our empirical database we cannot offer any profound physical explanation of the recorded variability in constituent-specific IOPs. This is because, as we mentioned earlier, in our studies we were not able to register one of the most important characteristics of the particle populations encountered, namely, their size distributions. It is well known that major sources of variability in particulate optical properties include
the particle composition (a determinant of the particle refractive index) and the particle size distribution (Bohren & Huffman 1983, Jonasz & Fournier 2007). Unfortunately, size distribution measurements were beyond our Selleckchem MS 275 experimental capabilities at the time when the empirical data were being gathered at sea. Such limitation is not unusual – many modern in situ optical experiments often lack size distribution measurements as they are difficult to carry out directly at sea (outside the
laboratory) and on large numbers of samples. Given such a limitation, all we can offer the interested reader is an extensive documentation of seawater IOP variability but without a detailed physical explanation of it. Regardless of the findings presented in the above paragraphs, i.e. documented distinct variability in relationships between particle IOPs and particle concentration parameters, which PI-1840 to some readers might sound rather ‘negative’, we attempt below to show an example of the practical outcome of our analyses. On the basis of the set of best-fit power function relationships established between selected IOPs and constituent concentrations presented earlier (summarized in Tables 3 and 5), we also tried to find the best candidates for the inverted relationships. Such relationships could be used to estimate the concentrations of certain constituents based on values of seawater optical properties measured in situ. In view of all the analyses presented earlier, one can obviously expect these inverted relations to be of a very approximate nature. But in spite of such expectations, their potential usefulness can be quantitatively appraised on the basis of analyses of the values of the mean normalized bias (MNB) and the normalized root mean square error (NRMSE). These statistical parameters have to be taken into account by anyone wishing to use these relationships in practice.