Volume 72: Chapter 31: Appendix. Distribution of ... · 90-4, 61-64 972.23 cp f rf f rrrff f rrf r...

Volume 72: Chapter 31: Appendix. Distribution of planktonic foraminifers at Hole 516F, Coniacian-Santonian to upper Maestrichtian.

Globotruncanidae Heterohelicidae

, |! I \\ ~ ~ l I 11 I ,, { 1 , L h l S l ! Sis I s I 3 I ! I I i 1 1 I i « j i . i 1 1 1 1 1 1 1 I i I I . 1 I i « i i i « . ' i f i I i i 1 ! 1 1 J 1 1 i I ! 1 1 ! —

sub-bottom R i i l l l l - I l l f l i f i f i i i f l i β l l i f l l B f r l f l l ^ A l l l l l l i i < β l l l ! 1 J I 1 I I I λ 1 I I « 1 I I I I basedon

Core-section depth (m) ! I i I M !• 2 M ! vM I H I ! 1 M H 1 1 I I H H I I I M t 1 I I M I H ^ ^ ^( interva l ( w a t e r d e p t h : | 8 ^ δ S . ^ 3 ^ o « | j ö o S S S 3 ! ; * S | o o & i | | < * « » S f c ^ < j ^ t ; t ; 8 5 8 * * u S * T 5 * s * 5 ^ g * g & g : s 8 g ε g § f c ^ § f c | f c δ ^ § g f o r a m i n -

in c m ) 1328 m ) £ £ θ O O U O O O U X O O O O O O O O O * U O θ δ 3 θ O a i θ θ c ^ r O O O O < D O θ δ ifers Age8 9 - 5 , 5 0 - 5 2 9 6 4 . 1 1 F F F F R F F F R F R R R F F F R R F F8 9 - 6 , 6 1 - 6 9 9 6 5 . 8 0 C / A F F F F F R R F F F F I F F F R R R F F F R F F F F F F R R9 0 - 1 , 2 9 - 3 0 9 6 7 . 4 0 C F R F F R R R F F R R R F F F R F F R9 0 - 2 , 8 3 - 8 5 9 6 9 . 4 4 C P F F R R F F F R R R R F F F F F9 0 - 3 , 1 6 - 1 8 9 7 0 . 2 7 C P R R F F R R R R R R R c f . 2 F R R R F9 0 - 4 , 6 1 - 6 4 9 7 2 . 2 3 C P F R F F R R R F F F R R F R F R F R F9 0 - 5 , 5 - 7 9 7 3 . 1 6 C P F F R R R R F R R R R F F R F F R F R9 0 - 6 , 1 1 - 1 3 9 7 4 . 7 2 C P F R F R R R F R R F R R R F F F R F R R R9 1 - 1 , 9 5 - 9 7 9 7 7 . 5 6 P P R F R R R R R F R R R 2 R9 1 - 2 , 1 2 - 1 4 9 7 8 . 2 3 C P R R R 2 R c f F F F R R R R R R R R F R R9 1 - 3 , 5 - 7 9 7 9 . 6 6 C P R F R R c f R R R F R R R R c f F F 2 291-4,34-36 981.45 C P R F R F F R R R R F R F R R ' R F R R9 1 - 5 , 9 3 - 9 5 9 8 3 . 5 4 C P R R F F R R R F F F R F R R R l c f F F R R9 1 - 6 , 7 7 - 7 9 9 8 4 . 8 8 c / A P R F F R F F R F F F R F R R ' F R R R Abathom-9 2 - 1 , 5 1 - 5 3 9 8 6 . 6 2 C / A F R R R F R F F R F F F F R F R R R R F F R R F l c f . phalus9 2 - 2 , 2 9 - 3 1 9 8 7 . 9 0 C / A F R F R F R F R R F F R R R R R R F R R F F F F mayaro- l a t e

9 2 - 3 , 8 0 - 8 1 9 8 9 . 9 1 C F F F R F R F R F F R R R R R R R F F F F R R <Lnsis

9 2 - 4 , 6 1 - 6 3 9 9 1 . 2 2 C / A F R F R F R R R F R F F R R R R R F R F F F F R F R Z θ n e

9 3 - 1 , 9 9 - 1 0 0 9 9 6 . 6 0 c / A F F F F R R F F F F F R R R R F F F F R R F R9 3 - 2 , 2 2 - 2 4 9 9 7 . 3 3 c / A P F R F R R R F F F F F F R R R R R F F F R F R9 3 - 3 , 6 1 - 6 3 9 9 9 . 2 2 C P R R R F F F F F F R R F F F F R F F F R9 3 - 4 , 3 2 - 3 4 1 0 0 0 . 4 3 C / A F R F F R R R F F F F F R R R R F F R F 1 F C R9 3 - 5 , 1 8 - 2 2 1 0 0 1 . 8 0 C / A F F R F F R F F R R F R F F F R R C F F C R F C R9 4 - 1 , 6 6 - 6 8 1 0 0 5 . 7 7 C P R F R R R F F R R R F F F R 1 R F 29 4 - 2 , 3 0 - 3 2 1 0 0 6 . 9 1 C P R R R F F F F R 2 R F R F F F F R9 4 - 3 , 1 0 - 1 2 1 0 0 8 . 2 1 C P R R F R R F F F R R F F R R F R R F F M a . e s '9 4 - 4 , 1 0 6 - 1 0 8 1 0 1 0 . 6 7 C P F F R R R R R R R R R R 2 R F R R R R R t π c h t i a n9 4 - 5 , 7 4 - 7 6 1 0 1 1 . 8 5 C P R R R F R F R R R R R 2 R F R R R9 4 - 6 , 6 5 - 6 7 1 0 1 3 . 2 6 C F R F R F R R R F F F F R F R R R F F F R F F F R R9 5 - 1 , 6 0 - 6 2 1 0 1 5 . 2 1 C P R R F F R R F F F R R F F R R F F F R R R c f .

9 5 - 2 , 3 9 - 4 1 1 0 1 6 . 5 0 C P R R F R R R F R F F R c f F R F R R c f R F F F R R9 5 - 3 , 3 4 - 3 6 1 0 1 7 . 9 5 C P R R F R R 2 c f R R F R F R R9 5 - 4 , 7 0 - 7 2 1 0 1 9 . 8 1 C P F F 1 F R R 2 l c f ' R R R R9 5 - 5 , 3 0 - 3 2 1 0 2 0 . 9 1 C P F l c f . F F R R F F 2 F R 29 6 - 1 , 7 8 - 8 1 1 0 2 4 . 4 0 C P R 2 R R R R F F F 2 c f . R

9 6 - 2 , 5 0 - 5 2 1 0 2 5 . 6 1 C P F R R F R R R R R F R F R f

9 6 - 3 , 6 2 - 6 5 1 0 2 7 . 2 4 C P F 2 R F 2 F 2 l c f 2 R F R "9 7 - 1 , 2 8 - 3 0 1 0 2 9 . 8 9 C P F F F F R 2 F R R R F F R F 29 7 - 2 , 9 5 - 9 7 1 0 3 2 . 0 6 C P F F R F F F R R F F R R R9 8 - 1 , 5 - 7 1 0 3 2 . 6 6 C P F F R F F R R R 2 F R R R R e a r l y t o

9 8 - 2 , 1-3 1 0 3 4 12 C P F F R F F 2 R R F R R R F Globo~ m i d d l e9 8 - 2 , 5-7 1 0 3 4 16 P P R R R R R F 2 F 2 F R truncana9 8 - 3 , 5 - 7 1 0 3 5 . 6 6 C P R R F R R R c f R R 2 R falso-9 8 A 8 6 - 8 8 1 0 3 7 . 9 7 P P R R R R ' R R 2 stuarti9 8 - 5 , 2 5 - 2 7 1 0 3 8 . 8 6 P P R R R R R R R R F R Z o n e

9 9 - 1 , 7 2 - 7 4 1 0 4 2 . 3 3 P P R 1 2 R R 2 R R R 2 11 0 0 - 1 , 3 5 - 3 7 1 0 4 4 . 4 6 P P R R R R R R l c f

100-2, 3 5 - 3 7 1 0 4 5 . 9 6 P P R 2 R 1 2 R 2 R R1 0 0 - 3 , 3 5 - 3 7 1 0 4 7 . 4 6 P P R R R C R l 2 R R R c f R100-4, 3 5 - 3 7 1 0 4 8 . 9 6 P P 2 R F R

1 0 1 - 1 , 1 6 - 1 8 1 0 5 0 . 7 7 P P R R C R R R R 2 2 2 R101-2, 5 - 7 1 0 5 2 . 1 6 P P R R R R R R R R1 0 1 - 3 , 4 3 - 4 5 1 0 5 4 . 0 4 C P F R R R F R R R R R R R R R1 0 2 - 1 , 4 2 - 4 6 1 0 5 6 . 0 4 P P R 1 R R 1102-2, 1 1 9 - 1 2 1 1 0 5 8 . 3 0 P P R R R R R R R

1 0 2 - 3 , 3 0 - 3 2 1 0 5 8 . 9 1 P P R R R R R1 0 3 - 1 , 5 - 7 1 0 5 9 . 6 6 P P R F R R F R R 2 2103-2, 1 4 6 - 1 4 9 1 0 6 2 . 5 8 P P R R R R R R R R R R C1 0 3 - 3 , 9 6 - 9 8 1 0 6 3 . 5 8 C P R R R F R 1 F R R R R R R U n z o n e d1 0 4 - 1 , 8 4 - 8 6 1 0 6 9 . 4 5 P P R R R R R l c f . R F R R

104-2, 5 9 - 6 1 1 0 7 0 . 7 0 P P R R l c f R R R R R R R R R R1 0 4 - 3 , 4 8 - 5 0 1 0 7 2 . 0 9 P P R R R R R R R R c f R c f R104-4, 6 2 - 6 4 1 0 7 3 . 7 3 P P R R R R R R R R ' 2 ' R1 0 4 - 5 , 7 1 - 7 3 1 0 7 5 . 3 2 C P F F R R F R R R F R R R R R104-6, 9 5 - 9 7 1 0 7 7 . 0 6 P P R R 1 R R R R R R R 1

1 0 5 - 1 , 8 9 - 9 1 1 0 7 8 . 5 0 P P 1 R R R R105-2, 8 9 - 9 1 1 0 8 0 . 0 0 V P P 2 21 0 5 - 3 , 8 9 - 9 1 1 0 8 1 . 5 0 V P P 1 1105-4, 8 9 - 9 1 1 0 8 3 . 0 0 V P P 11 0 5 - 5 , 8 9 - 9 1 1 0 8 4 . 5 0 V P P 1 2 1

105-6, 89-91 1086.00105-6, 91-93 1086.02 no planktonic foraminifers106-1, 5-7 1086.66106-2, 5-7 1088.16 VP P 1106-3, 5-7 1089.66 VP P R 1 1 middle

106-4,5-7 1091.16 VP P R R 1 t 0 l a t e

106-5, 5-7 1092.66 P P 1 2 2 1 1106-6, 5-7 1094.16 V P P R R 1 2 R 2 R l106-7, 5-7 1095.66 VP P 1 1107-1, 96-98 1096.57 VP P 1 1

107-2, 96-98 1098.07 no planktonic foraminifers107-3, 96-98 1099.57 VP P 1 1 1 1107-4,96-98 1101.07 VP P 1 1 1107-5,84-85 1102.45 no planktonic foraminifers Globo-107-5,96-98 1102.57 P P R R 1 R 1 truncana

107-5,98-100 1102.59 P P R R 2 2 R R ^ Z o n e * * C a m p a -108-1,70-72 1105.31 P P R R 2 R R R R R 1 nian108-2,70-72 1106.81 P P R R . R R R R108-3,70-72 1108.31 P P R R l R R R l c f R R R R108-4, 70-72 1109.81 C P F F R F R R F F 2

109-1,0-2 1109.11 C P F F 2 R R R R F F R R R f l109-1, 126-127 1110.37 P P R R109-2,0-2 1110.61 C P R R 1 1 R 1109-3,0-2 1112.11 P P R R 1 l c f 2 1 R109-4,0-2 1113.61 P P R R R c f

109-5,0-2 1115.11 P P R R 1 R R f

110-1,146-147 1119.57 P P R R 1 R R R 2110-2,148-149 1121.09 P P F F l c f R 2 R R R110-3,147-148 1122.58 C P F F F R F R 1 R F R R c f

110-4, 131-132 1123.92 C P F F R F R R l c f . 1 R R R c f R

110-5, 145-146 1125.56 C P R F R 1 R R R R R c f

110-6,54-55 1126.15 C P R F l c f 1 R F R R R R 2 f y

112-1,0-2 1136.11 C P F F R R F F

C I

112-2,0-2 1137.61 P P R F F R R R 1 1 F R112-3,0-2 1139.11 P P R R R 1 F R c f

112-4,0-2 1140.61 P P R R 1 2112-5,0-2 1142.11 P P 1 R R112-6,0-2 1143.61 P P R F R F R 1113-1,88-90 1145.99 P P R F R F R R R113-2,72-74 1147.33 P/C P F R R 2 R c f 2 R R

113-3,0-2 1148.11 P P R R R R 2 R R Globo-113AO-2 1149.61 P P R R R R R 1 t truncana113-5,0-2 1151.11 P P R c f 1 R c f area113-6,0-2 1152.61 P P R ' R R 1 2

Z θ n e

114-1, 104-108 1155.16 P P R R R R

114-2, 106-109 1156.65 P P R R R R114-3,26-29 1157.38 P P R R R R R

114-4,24-27 1158.86 P P 1 R R 1 .114-5,19-22 1160.31 P P lcf R R114-6,35-36 1161.96 P P R' R R

115-1,92-94 1164.03 P P R R115-2,87-89 1165.48 P p Kcf115-3,82-84 1166.93 P P R R . ,115-4, 102-104 1168.63 P P R R 7116-1,58-61 1172.70 P P R c f ,,

1 Unzoned116-2, 12-15 1173.74 P P R R116-3,88-90 1175.99 P/C P F R R R116-4,34-36 1176.95 P P R116-5,42-45 1178.54 P/C P F R 1116-6,10-12 1179.71 P P F R R R R Santonian117-1,21-22 1181.32 P/C P F R R 1 R117-2, 12-14 1182.73 P P F R R R117-3, 115-116 1185.26 P P F R117-4, 115-116 1186.76 P P R R117-5,75-77 1187.86 P P R R "Gfobo- ×118-1, 10-12 1190.23 P P R R 1 R truncana ×

118-2,10-12 1191.71 P P R R Rcf K con' „ ×

118-3,67-69 1193.78 P P R R i f F P C0Vata , ×

119-2,0-2 1196.11 P P R R R Rcf R £ Z o n e ^119-3,0-2 1197.61 P P R R R R ' l c f 2

119-4,0-2 1199.11 P P R R Rcf

119-5,40-42 1201.01 P P R R l c f ' ,120-1, 5-7 1203.66 P P Rcf

122-1,13-16 1220.98 P P Rcf" Coniacian to124-1,76-78 1240.37 . . . . . , Unzoned Santonian

no planktonic foraminifers125-1,88-60 1249.19

' • ' ' ' 1 1 1 1 1 — L , I , I I I I 1 i i iNote: In "Frequency" column, A = abundant, C = common, P = poor, VP = very poor; in "preservation column, F = fair, P = poor, in abundance columns, F = few, R = rare. Numbers indicate number of specimens.