2008 Joint Meeting of The Geological Society of America, Soil Science Society of America, American Society of Agronomy, Crop Science Society of America, Gulf Coast Association of Geological Societies with the Gulf Coast Section of SEPM

Paper No. 2
Presentation Time: 1:55 PM

The Biodynamic Significance of Double Stone-Layers at Diamond Grove Mima Moundfield, Southwest Missouri


HORWATH BURNHAM, Jennifer L., Department of Geography, Augustana College, 639 38th St, Rock Island, IL 61201 and JOHNSON, Donald L., Geography, University of Illinois, 220 Davenport Hall, 607 So. Mathews, Urbana, IL 61801, jenniferburnham@augustana.edu

Gravelly Mima-type mounds dot unplowed, gently rolling, poorly drained prairie uplands on the Springfield Plateau at and around Diamond Grove Prairie near Joplin, Missouri. The mounds here formed in loess-enhanced, chert-rich, strongly weathered residual gravelly soils derived from cherty Warsaw Limestone of Mississippian age. The mounds average 45 cm high and 14 m in diameter, with densities of 7.6 mounds per hectare, with intermound areas episodically wet and crayfish chimneys common.

To gain an understanding of mound-intermound soil stratigraphy, a trench 2 m deep by 21 m long was cut across a typical mound-intermound unit. One of the more remarkable discoveries was the presence of two stone-layers, one just below the mound surface comprised of small gravels (<6 cm dia.), and a much thicker stone-layer at the mound base comprised of large gravels (>6 cm dia.). These data, backed by supplementary geomorphic and biologic data, support a multi-stage polygenetic origin of the gravelly soil mounds of the region. We propose that initial mound formation occurred in the Quaternary, or possibly pre-Quaternary, owed to centripetal bioturbation by Plains Pocket Gophers (Geomys bursarius). As Geomys burrowed centripetally outward from their main activity centers (nest-and-food storage centers), back-transported soil was limited to particles < 6 cm. In the centripetal burrowing-biosorting process, larger clasts were both left behind in intermound areas, and down-settled under mounds to form the basal stone-layer. For reasons unknown, Geomys, though still present regionally, was extirpated locally during the late Holocene. Subsequent bioturbation by smaller animals -- mainly invertebrates (ants, worms), have produced a second, near-surface, post-Geomys incipient stone-layer in the process of actively forming. This biodynamic model is supported by recent work at Mima Prairie near Olympia, Washington, where near-identical double stone-layers in likewise recently gopher-extirpated gravelly soil mounds, with large-clast surface pavements in intermound areas, also occur.