Diporeia, formerly the dominant benthic macroinveitebrate in the Great Lakes, remains a keystone species in Lake Superior. Little is known, however, about fine scale amphipod distributions, especially as influenced by the production, transport and transformation of energy resources. Here, we document the distribution and abundance of Diporeia along 19 transects around the lake%26apos;s perimeter. Regions of elevated density, averaging 958 +/- 408 Diporeia/m(2) (mean S.D.) were observed along all transects, typically within slope habitat (depth of 30-125 m). Waters shoreward (shelf habitat, %26lt;30 m) and lakeward (profundal habitat, %26gt;125 m) of these regions supported significantly lower densities, averaging 239 +/- 178/m(2) and 106 +/- 59/m(2), respectively. Amphipods within regions of elevated density, termed here the Ring of Fire, account for two-thirds of the lakewide population while occupying only one-quarter of the benthic habitat. The Ring of Fire, observed lakewide as a band averaging 14.2 +/- 9.4 km in width, is characterized as a region of transitional sediment deposition with gentle slope, proximate to nearshore locations of elevated primary production. Within the Ring of Fire exceptionally high densities are found in the south central region, where the Keweenaw Current and slope bathymetries serve to funnel production from adjoining regions of high production. Density measurements for the 173 stations sampled here are used to estimate lakewide Diporeia standing stock (22.5-37.7 trillion individuals, 4.4-7.4 Gg dry weight, 2.1-3.5 Gg C), individual and biomass density (274-460/m(2), 0.05-0.09 gDW/m(2), 0.03-0.04 gC/m(2)) and areal (0.02-0.03 g C/m(2)/yr) and total (1.6-2.6 Gg C/yr) production.

• 出版日期2013-3