Here are three pairs of species in the same genera, plotted again with months on the x axis and density per cubic meter on the y axis.  Note, though, that each chart now shows both depths, with the light color representing water above the pycnocline, and the dark color representing water below it.  Note also that the scales are not standardized.  These graphs show some very interesting results.
	The two species of Centropages show incredibly sharp temporal differentiation, with hamatus declining just as typicus appears in the water column.  Contrast this with Acartia, in which both species have peak abundances in the same month.  However, look at the vertical distributions of Acartia: longeremis is much more prevalent in the sub-pycnocline waters, while hudsonica shows slightly higher numbers above the thermocline.
	Lastly, both species of pseudocalanus show the same pattern: newmani is much more abundant in surface waters, while moultoni is almost absent from surface waters until the fall.  These species show strong affinities for certain depths, which in turn has large consequences in how they are differentially transported by currents in the gulf of maine.
	Now I want to broaden our view again, and re-address the entire community.  The graphs I showed before are nice for picking out the dominant species, but it is difficult to perceive how the community is changing as a whole.  For this purpose, I am using Multi-Dimensional Scaling, or MDSÉ