Geology Reference
In-Depth Information
Gischler, E., Swart, P.K.
and
Lomando, A.J.
(2009)
Geochemical facies variation in Belize and the
Persian Gulf. In:
Perspectives in Sedimentary Geology:
A Tribute to the Career of Robert Nathan Ginsburg
(Eds P.K. Swart, G.P. Eberli and J. McKenzie).
Blackwell, Oxford.
Spec. Publ. Int. Assoc. Sedimentol.,
41
, 61-74.
Gonfi antini, R.
(1986) Environmental isotopes in lake
studies. In:
Handbook of Environmental Isotope
Geochemistry
(Eds P. Fritz and J.C. Fontes), Vol.
1
,
pp. 113-168. Elsevier, Amsterdam.
Hardie, L.A.
(2003) Secular variations in Precambrian sea-
water chemistry and the timing of Precambrian arago-
nite seas and calcite seas.
Geology
,
31
, 785-788.
Illing, L.
(1954) Bahaman calcareous sands.
Bull. Am.
Assoc. Petrol. Geol.
,
38
, 1-95.
Immenhauser, A., Della Porta, G., Kenter, J.A.M.
and
Bahamonde, J.R.
(2003) An alternative model for posi-
tive shifts in shallow-marine carbonate
Purdy, E.
(1963a) Recent calcium carbonate facies of the
Great Bahama Bank.1. Petrography and reaction groups.
J. Geol.
,
71
, 334-335.
Purdy, E.
(1963b) Recent calcium carbonate facies of the
Great Bahama Bank. 2. Sedimentary facies.
J. Geol.
,
71
,
472-497.
Reijmer, J.J., Swart, P.K., Bauch, T., Otto, R., Reuning, L.,
Roth, S.
and
Zechel, S.
(2009)
A re-evaluation of
facies variations on Great Bahama Bank 1: new facies
maps of Western Great Bahama Bank. In:
Perspectives
in Sedimentary Geology: A Tribute to the Career of
Robert Nathan Ginsburg
(Eds P.K. Swart, G.P. Eberli
and J.A. McKenzie) Blackwell, Oxford.
Spec. Publ. Int.
Assoc. Sedimentol.
,
41
, 29-46.
Reuning, L., Reijmer, J.J.G., Betzler, C., Timmerman, A.
and
Steph, S.
(2006)
Sub-Milankovitch cycles in
periplatform carbonates from the early Pliocene Great
Bahama Bank.
Paleoceanography
,
21
, PA1017.
Robbins, L.L.
and
Blackwelder, P.L.
(1992)
Biochemical
and ultrastructural evidence for the origin of whitings:
a biologically induced calcium carbonate precipitation
mechanism.
Geology
,
20
, 464-468.
Romanek, C.S., Grossman, E.L.
and
Morse, J.W.
(1992)
Carbon isotopic fractionation in synthetic aragonite and
calcite: effects of temperature and precipitation rate.
Geochim. Cosmochim. Acta
,
56
, 419-430.
Saltzman, M.R.
(2002a) Carbon and oxygen isotope
stratigraphy of the Lower Mississippian (Kinderhookian-
lower Osagean), western United States: Implications for
seawater chemistry and glaciation.
Geol. Soc. Am. Bull.
,
114
, 96-108.
Saltzman, M.R.
(2002b) Carbon isotope (
13
C and
18
O.
Sedimentology
,
50
, 953-959.
Immenhauser, A., Kenter, J.A.M., Ganssen, G.,
Bahamonde, J.R., Van Vliet, A.
and
Saher, M.H.
(2002) Origin and signifi cance of isotope shifts in
Pennsylvanian carbonates (Asturias, NW Spain).
J. Sedimentary Res.
,
72
, 82-94.
Keith, M.L.
and
Weber, J.N.
(1965) Systematic relation-
ships between carbon and oxygen isotopes in carbon-
ates deposited by modern corals and algae.
Science
,
150
, 498-501.
Kroopnick, P.M.
(1974) Correlations between
13
C and TCO
2
in surface waters and atmospheric CO
2
.
Earth Planetary
Sci. Lett.
,
22
, 397-403.
Kump, L.R.
and
Arthur, M.A.
(1999) Interpreting
carbon-isotope excursions: carbonates and organic mat-
ter.
Chem. Geol.
,
161
, 181-198.
Land, L.S.
(1989) The carbon and oxygen isotopic chem-
istry of surfi cial Holocene shallow carbonate sediment
and Quaternary limestone and dolomite. In:
Handbook
of Environmental Isotope Geochemistry
(Eds P. Fritz and
J.C. Fontes), Vol.
3
, pp. 191-217. Elsevier, Amsterdam.
Lloyd, M.R.
(1964) Variations in the oxygen and carbon
isotope ratios of Florida Bay mollusks and their envi-
ronmental signifi cance.
J. Geol.
,
72
, 84.
Lowenstam, H.A.
and
Epstein, S.
(1957) On the origin of
sedimentary aragonite needles of the Great Bahama
Bank.
J. Geol.
,
65
, 364-375.
Lowenstein, T.K., Hardie, L.A., Timofeeff, M.N.
and
Demicco, R.V.
(2003) Secular variation in seawater
chemistry and the origin of calcium chloride basinal
brines.
Geology
,
31
, 857-860.
Milliman, J.D.
(1974)
Marine Carbonates
. Springer, Berlin,
375 pp.
Morse, J.W., Millero, F.J., Thurmond, V., Brown, E.
and
Ostlund, H.G.
(1984) The carbonate chemistry of
Grand Bahama Bank Waters - after 18 years another
look.
J. Geophys. Res.-Oceans
,
89
, 3604-3614.
Newell, N.D., Imbrie, J., Purdy, E.G.
and
Thurber, D.L.
(1959) Organism communities and bottom facies, Great
Bahama Bank.
Bull. Am. Museum Natural History
,
117
,
177-228.
Patterson, W.P.
and
Walter, L.M.
(1994) Depletion in
13
C in seawater CO
2
on modern carbonate platforms:
signifi cance for the carbon isotopic record of carbonate.
Geology
,
22
, 885-888.
13
C) stratigra-
phy across the Silurian-Devonian transition in North
America: evidence for a perturbation of the global car-
bon cycle.
Palaeogeogr. Palaeoclimatol. Palaeoecol.
,
187
, 83-100.
Saltzman, M.R.
and
Young, S.A.
(2005) Long-lived gla-
ciation in the Late Ordovician? Isotopic and sequence-
stratigraphic evidence from western Laurentia.
Geology
,
33
, 109-112.
Saltzman, M.R., Groessens, E.
and
Zhuravlev, A.V.
(2004) Carbon cycle models based on extreme changes
in
13
C: an example from the lower Mississippian.
Palaeogeogr.
Palaeoclimatol.
Palaeoecol.
,
213
,
359-377.
Sandberg, P.A.
(1983) An oscillating trend in Phanerozoic
non-skeletal carbonate mineralogy.
Nature
,
305
, 19-22.
Schlager, W.
and
Ginsburg, R.N.
(1981) Bahama carbon-
ate platforms - the deep and the past.
Marine Geol.
,
44
,
1-24.
Shinn, E.A., Steinen, R.P., Lidz, B.H.
and
Swart, P.K.
(1989)
Whitings, a sedimentologic dilemma.
J. Sedimentary
Petrol.
,
59
, 147-161.
Smith, C.L.
(1940a) The Great Bahama Bank. 2. Calcium
carbonate precipitation.
J. Marine Res.
,
3
, 147-189.
Smith, C.L.
(1940b) The Great Bahama Bank. 1. General
hydrographic and chemical factors.
J. Marine Res.
,
3
,
1-31.
Stockman, K.W., Ginsburg, R.N.
and
Shinn, E.A.
(1967)
The production of lime mud by algae in south Florida.
J. Sedimentary Petrol.
,
37
, 633-648.
Swart, P.K.
(1983) Carbon and oxygen isotope fraction-
ation in scleractinian corals: a review.
Earth-Science
Rev.
,
19
, 51-80.
