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- File:C605-Figure-52.jpg + ('''Figure 52''' Stage 4: The change to a humid climate caused the Springfield peat to begin to form.)
- Galatia Channel:Model of Channel Development + ('''Figure 49''' Stage 1: Deposition of the Delafield Member as a series of coalescing deltas during the onset of a glacial stage as the sea level began to fall. The product is a thick succession of clastic rocks that coarsen upward.)
- Galatia Channel:Figures + ('''Figure 3''' Satellite image of the mouth of the Mississippi River showing natural levees and crevasse splays. Fron Earthstar Geographic SIO, © 2020.)
- File:C605-Figure-53.jpg + ('''Figure 53''' Stage 5: Springfield peat accumulates across a large area of the basin.)
- Galatia Channel:Model of Channel Development + ('''Figure 49''' Stage 1: Deposition of the Delafield Member as a series of coalescing deltas during the onset of a glacial stage as the sea level began to fall. The product is a thick succession of clastic rocks that coarsen upward.)
- Galatia Channel:Figures + ('''Figure 3''' Satellite image of the mouth of the Mississippi River showing natural levees and crevasse splays. Fron Earthstar Geographic SIO, © 2020.)
- File:C605-Figure-54.jpg + ('''Figure 54''' Stage 6: A warming climate brought rapid melting of the glaciers and a sea-level rise. The Galatia channel became an estuary, subject to strong tidal currents.)
- File:C605-Figure-55.jpg + ('''Figure 55''' Stage 7: Peat swamps drowned as the estuary became an embayment. Dykersburg sediments rapidly buried the peat.)
- File:C605-Figure-56.jpg + ('''Figure 56''' Stage 8: As the transgression continued apace, the entire basin area was submerged in deep water, which became stratified and anoxic, and black mud (Turner Mine Shale) was deposited.)
- File:C605-Figure-57.jpg + ('''Figure 57''' Stage 9: Normal marine circulation resumed near the apex of an interglacial stage (marine highstand), bringing a brief interlude of carbonate sedimentation (St. David Limestone).)
- File:C605-Figure-58.jpg + ('''Figure 58''' Stage 10: Marine regression begins the next cycle.)
- Galatia Channel:Channels and Cyclothems: A Summary Model + ('''Figure 58''' Stage 10: Marine regression begins the next cycle.)
- File:C605-Figure-59.jpg + ('''Figure 59''' Conceptual model of Pange … '''Figure 59''' Conceptual model of Pangea during a glacial episode of the Pennsylvanian. From Cecil,</br>C.B., F.T. Dulong, R.R. West, R. Stamm, B. Wardlaw, and N.T. Edgar, 2003b, Climate controls on the stratigraphy of a Middle Pennsylvanian cyclothem in North America, in C.B. Cecil and N.T. Edgar, eds., Climate controls on stratigraphy: SEPM Special Publication 77, p. 151–180. Copyright © 2003, used with permission of SEPM; permission conveyed through Copyright Clearance Center, Inc. ITCZ, intertropical</br>convergence zone.Inc. ITCZ, intertropical convergence zone.)