Journal of Sea Research 

TL;DR: This review is a synthesis of a large number of published laboratory experiments using monospecific cultures as well as field data that confirms that size is an important factor explaining variations of biogeochemical parameters of diatoms (e.g. maximum growth rate, photosynthesis parameters, half-saturation constants, sinking rate, and grazing).

TL;DR: An overview of the factors that affect DMSP biosynthesis (light, salinity, temperature and nitrogen limitation) in relation to its physiological functions and a new hypothesis is presented in which DMSP production is described as an overflow mechanism for excess reduced compounds and for energy excess.

TL;DR: Results of recent studies provide evidence that DMSP plays important roles in the carbon, sulfur and perhaps metal and DOM cycles in marine microbial communities, and draws attention to DMSP as a molecule of central importance to marine biogeochemical and ecological processes.

TL;DR: The synthesis of published data suggests that it is possible to derive a single unique parameterisation to describe some bottom-up processes for global modelling without consideration of species and location, and most important among these are the temperature-dependence of the maximum growth rates that characterises all three blooming species.

TL;DR: It appears that the features and processes driving the engineering effects on distribution and activity of associated organisms operate differently for sesarmid and fiddler crabs, and the most obvious and well-documented difference appears to be associated with foraging.