- Page 7 and 8: viPrefacein the environment; (3) su
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- Page 45 and 46: 36 J.M. Bernhard and K.R. BuckINTRO
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44 J.M. Bernhard and K.R. BuckFigur
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46 J.M. Bernhard and K.R. Buckmetal
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Geological Society of AmericaSpecia
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Biogeochemistry of metal sulfi de o
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Biogeochemistry of metal sulfi de o
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Biogeochemistry of metal sulfi de o
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Biogeochemistry of metal sulfi de o
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Biogeochemistry of metal sulfi de o
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Biogeochemistry of metal sulfi de o
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Geological Society of AmericaSpecia
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Sulfi de oxidation in marine sedime
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Sulfi de oxidation in marine sedime
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Sulfi de oxidation in marine sedime
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Sulfi de oxidation in marine sedime
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Sulfi de oxidation in marine sedime
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Sulfi de oxidation in marine sedime
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Sulfi de oxidation in marine sedime
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Sulfi de oxidation in marine sedime
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Sulfi de oxidation in marine sedime
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84 K.J. Edwardsgreater extent in te
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86 K.J. Edwardsbiomass at the Mid-A
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88 K.J. EdwardsFigure 2. Colonizati
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90 K.J. Edwardsthat microorganisms
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92 K.J. EdwardsPreliminary Studies:
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94 K.J. EdwardsSEAFLOOR WEATHERING,
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96 K.J. EdwardsRogers, D.R., Santel
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98 J. Zopfi , T.G. Ferdelman, and H
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100 J. Zopfi , T.G. Ferdelman, and
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102 J. Zopfi , T.G. Ferdelman, and
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104 J. Zopfi , T.G. Ferdelman, and
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106 J. Zopfi , T.G. Ferdelman, and
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108 J. Zopfi , T.G. Ferdelman, and
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110 J. Zopfi , T.G. Ferdelman, and
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112 J. Zopfi , T.G. Ferdelman, and
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114 J. Zopfi , T.G. Ferdelman, and
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116 J. Zopfi , T.G. Ferdelman, and
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118 M.A.A. Schoonenunderstanding ho
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120 M.A.A. Schoonenacid dissolution
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122 M.A.A. SchoonenThe structure an
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124 M.A.A. Schoonenof volumes of re
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126 M.A.A. Schoonena framboid-like
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128 M.A.A. Schoonencobaltite (Large
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130 M.A.A. Schoonenof Missouri, and
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132 M.A.A. SchoonenHamilton-Taylor,
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134 M.A.A. SchoonenSuits, N.S., and
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136 J.P. Werne et al.organic sulfur
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138 J.P. Werne et al.such as sulfur
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140 J.P. Werne et al.(gypsum) and r
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142 J.P. Werne et al.likely in natu
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144 J.P. Werne et al.2002). It rema
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146 J.P. Werne et al.5. the identif
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148 J.P. Werne et al.kerogen consti
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150 J.P. Werne et al.Sinninghe Dams
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152 A. Paytan et al.al., 1978)—ha
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154 A. Paytan et al.sulfides and pr
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156 A. Paytan et al.Figure 2. Seawa
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158 A. Paytan et al.burial were low
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160 A. Paytan et al.downward sulfid
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162 T.W. Lyons et al.trends; visual
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164 T.W. Lyons et al.metastable pha
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166 T.W. Lyons et al.of field and l
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168 T.W. Lyons et al.the Florida mu
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170 T.W. Lyons et al.Figure 5. Down
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172 T.W. Lyons et al.processing. Th
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174 T.W. Lyons et al.values that wo
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176 T.W. Lyons et al.Stockman, K.W.
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178 M.T. Hurtgen, M.A. Arthur, and
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180 M.T. Hurtgen, M.A. Arthur, and
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182 M.T. Hurtgen, M.A. Arthur, and
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184 M.T. Hurtgen, M.A. Arthur, and
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186 M.T. Hurtgen, M.A. Arthur, and
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188 M.T. Hurtgen, M.A. Arthur, and
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190 M.T. Hurtgen, M.A. Arthur, and
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192 M.T. Hurtgen, M.A. Arthur, and
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194 M.T. Hurtgen, M.A. Arthur, and
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196 H. Strausseither via mid-ocean
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198 H. StraussNo massive evaporites
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200 H. Strausssulfate from the earl
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202 H. StraussFigure 6. Secular var
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204 H. StraussDechow, E., and Jense
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