The mineral composition of the mud halo of the Guyana coast is studied. Terrigenous quartz and feldspars are totally dominant in pelitic sediments of the littoral zone accompanied by terrigenous and organic calcite, variable amount of kaolinite, hydrated micas, and smectites. Authigenic accessory minerals include pyrite, Fe-Mn carbonates, goethite, single grains of magnetite and chalcopyrite. Various provenances are considered for the formation of sediments.

Figures 4. Tables 2. References 18.

Key words: Guyana, littoral zone, diagenesis, estuary, Amazon, Demerara.

K.А. Novoselov, Institute of Mineralogy UB RAS, 456317, Russia, Miass, Ilmen State Reserve; const31@yandex.ru

E.V. Belogub, Institute of Mineralogy UB RAS, 456317, Russia, Miass, Ilmen State Reserve;

E.E. Palenova, Institute of Mineralogy UB RAS, 456317, Russia, Miass, Ilmen State Reserve;

I.A. Blinov, Institute of Mineralogy UB RAS, 456317, Russia, Miass, Ilmen State Reserve

1. Brusnitsyn A.I., Kuleshov V.N., Perova E.N., Zaitsev A.N. (2017) [Ferromanganese carbonate metasediments of the Sob area, Polar Urals: Bedding conditions, composition, and genesis]. Lithology and mineral resources, 52(3), 192-213.
2. Burke I., Kemp A. (2002) Microfabric analysis of Mn-carbonate laminae deposition and Mn-sulfde formation in the Gotland Deep, Baltic Sea. Geochimica et Cosmochimica Acta, 66(9), 1589-1600.
3. Calvert S.E., Price N.B. (1970) Composition of manganese nodules and manganese carbonates from Loch Fyne, Scotland. Contributions to Mineralogy and Petrology, 29(3), 215-233.
4. Eisma D., van der Marel H.W. (1971) Marine muds along the Guyana coast and their origin from the Amazon basin. Contributions to Mineralogy and Petrology, 31(4), 321-334.
5. Gordeev V.V. (1983) [River fow to the ocean and features of its geochemistry]. Moscow, Nauka, 160 p. (in Russian)
6. Gordeev V.V., Lisitzin A.P. (2014) [Geochemical interaction between the freshwater and marine hydrospheres]. Russian geology and geophysics, 55(5-6), 721-744.
7. Kimberley M.M. (1989) Exhalative origins of iron formations. Ore geology reviews, 5(1-2), 13-145.
8. Lisitzyn A.P. (1994) [Marginal flter of the oceans]. Okeanologia [Oceanology], 34(5), 735-743 (in Russian)
9. Lyell Ch. (1832) Principles of geology: being an attempt to explain the former changes of the earth’s surface, by reference to causes now in operation. London, John Murray, 353 p.
10. Maynard J.B. (2014) Manganiferous sediments, rocks, and ores / Treatise on Geochemistry (Ed. Heinrich Holland and Karl Turekian). Elsevier, 327-349.
11. Morad S., Al-Aasm I.S. (1997) Conditions of rhodochrosite-nodule formation in Neogene-Pleistocene deep-sea sediments: evidence from O, C and Sr isotopes. Sedimentary Geology, 114(1-4), 295-304.
12. Pedersen T.F., Price N.B. (1982) The geochemistry of manganese carbonate in Panama Basin sediments. Geochimica et Cosmochimica Acta, 46(1), 59-68.
13. Pettijohn F.J. (1975) Sedimentary rocks. Harper & Row Limited, 628 p.
14. Reyne A. (1961) On the contribition of the Amazon river to accretion of the coast of the Guianas. Geologie en Mijnbouw, 40, 219-226.
15. Strahov N.M. (1948) [Distribution of Fe in sediments of lacustrine and seawater basins and its controlling factors]. Izvestia AN SSSR (seriya geologicheskaya) [Izvestiya. Academy of Sciences, geological series], 4, 3-50.
16. Strahov N.M., Shterenberg L.E., Kalinenko V.V., Tihomirova E.S. (1968) [Geochemistry of sedimentary manganese process]. Moscow, AS USSR, 496 p. (in Russian)
17. Suess E. (1979) Mineral phases formed in anoxic sediments by microbial decomposition of organic matter. Geochimica et Cosmochimica Acta, 43(3), 339-352.
18. Varentsov I.M., Formozova L.N. (1962) [Sedimentary Fe and Mn ores (Experience of geochemical and formation study). Transactions of GIS, is. 70]. Moscow, AS USSR, 175 p. (in Russian).