106 for a long time, and that then, and possibly also earlier, a thick layer of basalts was eroded and carried away. This was a zone, uplifted out of shallow ocean, as we shall see, and most reasonably corresponds to the Oligocene uplift of Iceland (cf. Chapter 2). Later, probably together with sinking of the ocean floor which caused the 200 m sinking of sea-level (cf. Chapter 2), and the great regression at the end of the Oligocene, the uplifted zone became submerged, because of the return of the seawater from the epicontinental seas; the relative rise of sea-level was naturally greater than the sinking of the ocean floor. This interpretation is also in another way in keeping with the work of Van Andel and Bowin (36, p. 1288); they found Pliocene and Miocene Foraminifera encrusted in manganese nodules on the flank basalts. The Miocene Foraminifera date the submergence as close to that end of the Oligocene regres- sion as could well be demanded. We now consider the dogma concerning red clay. Concern- ing the present deep sea in the western North Atlantic, in parti- cular, three independent evidences for shallow water in the Eocene and Oligocene are dismissed with the remark that they occur together with red clay (79). These evidences are: 1) Opaline sediments “formed as transgressive facies in nor- mal marine continental shelf environments” are time equi- valents of quite similar biogenic Eocene “horizons A and A” deep sea cherts of the North Atlantic and Caribbean” (80). 2) “the Oligocene contains a remarkably persistent white chalk formation . . . This chalk with Brarudosphaera . . . was formerly thought to be indigenous to shallow water . . . Ap- parently the bed indicates widespread condition of rapid de- position, so that the calcium carbonate was not dissolved [?], even in such deep water that the hed lies hetween “red” clays (79, p. 420—421; italics ours). 3) Red clay is characteristic for great depth in the icy cold deep water of Recent and Pleistocene time, although even by this globally existing temperature condition, the upper limit of red clay varies regionally from 3000 m to 5300 m depth

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