TABLE 1: Abundances and Radial Velocities from the Literature from Layden 1994, AJ, 108, 1016 Star Delta_S refs Fe/H_L Fe/H_B Vradial +/- eVradial refs ======== ================ ===== ====== ===== =============(km/s)============ =========== SW And 0.0 -0.5 1,2 -0.43 -22 2 -21 5 -38 35 1,22,20 XX And 9.0 9.4 1,2 -1 5 -16 35 18,20 AT And 3.0 1 -240 12 -250 30 19,12 WY Ant 6.0 5 -1.54 208 30 8 TY Aps 3.0 4 -1.65 60 16 3 SW Aqr 5.0 5.8 11.0 1,2,4 -1.48 -62 16 -5 35 3, 5 SX Aqr 9.0 9.0 1,4 -1.84 -178 12 -162 16 -136 30 -220 35 19, 3, 2, 7 TZ Aqr 5.0 1 -1.42 25 30 12 BN Aqr 4.0? 1 BO Aqr 6.0? 1 -1.79 -55 35 6 BR Aqr 3.0 1 -0.81 CP Aqr 3.0 2.9 1,2 -0.85 DN Aqr 8.0 4 -1.65 -230 16 3 AA Aql 0.0 1.0 1,2 -0.83 -30 4 -83 35 19,20 V341 Aql 3.0 4.0 1,2 -1.31 -77 4 -100 10 -135 35 19,21, 6 V706 Aql 0.0? 1 S Ara 3.0 5 -1.54 185 30 8 X Ari 10.0 11.7 1,2 -2.15 -2.41 -35 3 -40 35 18,20 TZ Aur 2.0 1.5 1,2 45 8 58 10 30 16 -10 35 19,21,10, 7 RS Boo 2.0 1.4 1,6 -9 2 -9 35 18,20 RU Boo -60 35 7 ST Boo 9.0 6.8 3,6 14 4 15 10 21 35 19,21,20 SV Boo -160 35 6 SW Boo 7.0? 1 15 35 20 SZ Boo 8.0 6 -45 35 6 TW Boo 7.0 7.0 3,6 -99 4 -111 35 19,20 UU Boo 5.4 6 20 35 6 UY Boo 10.0? 12.6 1,2 -1.98 145 3 142 10 138 35 4,21,20 RW Cnc 8.7 7.8 3,6 -86 8 -78 35 19,20 SS Cnc 2.0 1.2 1,2 -39 25 5 35 19, 5 TT Cnc 7.0 7.6 6.9 1,2,6 49 8 54 10 49 16 15 35 19,21,10,20 AQ Cnc 6.6 3 W CVn 7.0 5.0 1,6 22 35 20 Z CVn 8.0? 6.2 1,6 20 12 0 35 19, 5 RR CVn 7.0: 1 -10 35 5 RU CVn 6.5: 9.8 3,6 -55 35 20 RX CVn 5 35 6 RZ CVn 9.0 8.0 3,6 -11 8 -15 35 19, 5 SS CVn 4.9: 8.6 3,6 -5 35 6 SV CVn 12 35 20 SW CVn 2.6 6 -36 35 20 X CMi 3.0 1 AA CMi 0.2 6 RV Cap 6.0 6.8 1,2 -1.39 -99 10 -95 30 -110 35 21, 2,20 IU Car 9.0 5 -1.86 307 30 8 BI Cen 2.0 5 210 30 8 V499 Cen 6.0 5 -1.67 332 30 8 DX Cep 7.0 1 RR Cet 5.0 6.6 1,2 -1.44 -1.33 -75 1 -96 35 24,20 RU Cet 9.0? 7.0 1,4 29 16 3 RV Cet 9.0 4 -94 16 -101 25 -121 30 3,19, 2 RX Cet 5.0 4 -75 16 -56 16 -48 30 -40 35 10, 3, 2,20 RZ Cet 4.0 6.7 1,2 -1.42 0 10 -15 16 21,10 UU Cet 4.0 4.0 1,4 -1.58 -114 3 -119 16 26, 3 RY Col 3.0 5 -0.91 471 30 8 S Com 7.0 7.8 1,2 -55 4 -34 35 19,20 V Com 7.7 2 0 35 7 Z Com -50 35 7 RY Com 3.0: 3.5 1,2 -31 10 -28 16 -30 35 21,10, 6 ST Com 5.0 1 -68 8 -100 35 19, 5 V413 CrA 6.0 4 -1.63 -91 16 3 W Crt 3.0 5.2 0.0 1,2,4 -0.70 69 16 66 35 3,20 X Crt 10.0 10.4 4,6 -1.73 78 4 83 10 91 16 50 35 19,21, 3, 6 RW Cru -1.67 SW Cru 0.0 5 -23 30 8 UY Cyg 3.0 3.8 1,2 3 8 -10 10 -5 35 19,21,20 XZ Cyg 6.0 5.8 1,2 -1.51 -134 25 -123 25 -160 35 19,23, 5 DM Cyg 0.0 1 -49 35 20 KP Cyg 0.0 1 DX Del 2.0 -0.2 1,2 -0.09 -0.43 -44 3 1 RW Dra 3.0 8.0 1,3 -124 35 20 SU Dra 10.0 9.6 7.6 1,2,6 -1.69 -167 1 -175 5 -184 35 24,17,20 SW Dra 3.0 3.5 7.1 1,2,3 -30 1 -33 12 -30 35 25,19,20 XZ Dra 3.0 2.5 1,2 -0.88 -31 2 -25 35 18, 5 AE Dra 4.0? 1 BK Dra 10.2: 3 BT Dra 9.3 3 BX Dra 1.5 3 RX Eri 9.0 9.6 6.0 1,2,5 -1.51 66 1 70 30 71 35 24, 8,20 SV Eri 9.0 8.0 5.0 1,2,4 -1.79 -1.96 10 16 -19 16 -28 25 -5 35 10, 3,23,20 BB Eri 8.0 6.8 1,2 240 16 225 35 10, 6 RX For 6.0 4 -2 16 3 SS For 2.0 4 -1.50 -112 1 -122 16 -113 30 -115 35 25, 3, 2,20 SW For 10.0? 5 167 30 8 SX For 8.0 4 233 16 215 30 3, 2 RR Gem 3.0 0.4 1,2 64 1 60 4 94 35 24,19,20 SZ Gem 5.0 6 305 12 332 35 19,20 RT Gru 7.0 4 -1.56 -91 16 3 SW Her -130 35 7 RW Gru 7.0 4 -24 16 3 TW Her 2.0 1 -0.79 -15 35 5 VX Her 5.0 8.2 1,3 -1.58 -377 3 -374 35 18,20 VZ Her 4.0 1 -1.24 -115 4 -120 35 19,20 AF Her -270 10 -270 35 21, 6 AG Her -75 35 7 AR Her 6.0 1 -350 8 -335 35 19, 5 BD Her 2.0 0.8 1,2 OX Her 6.0: 1 SV Hya 6.0 4 -1.52 100 10 101 16 78 35 21, 3,20 SZ Hya 147 25 100 35 19, 5 UU Hya 7.5 6 300 16 285 35 10, 6 WZ Hya 6.9 6 304 8 315 35 19, 6 XX Hya -10 35 6 DG Hya 5.6 6 DH Hya 6.0 4 353 10 368 16 21, 3 FY Hya 7.0? 5 -2.15 80 30 8 TW Hyi 174 16 3 V Ind 7.0 4 -1.52 203 3 198 16 196 30 26, 3, 2 CZ Lac 1.0 0.9 1,2 RR Leo 8.0 7.1 10.4 1,2,6 88 1 94 4 96 10 65 35 24,19,21, 5 RV Leo 0 35 7 RX Leo 5.0? 6.8 4.4 1,2,6 -127 8 -110 10 -103 35 19,21,20 SS Leo 8.0 7.9 1,2 -1.67 -1.87 161 3 180 8 145 35 27,19,20 ST Leo 7.0 7.3 1,2 -1.27 150 4 166 10 170 35 14,21,20 SZ Leo 6.1 6 187 4 90 35 19, 5 TV Leo 10.0: 9.9 1,2 -1.86 -102 8 -86 10 -95 16 -55 35 19,21,10, 6 WW Leo 6.9 6 AA Leo 8.5 6.5 3,6 V LMi 4.0? 5.7 1.5 1,2,6 -110 8 -85 35 19, 5 X LMi 11.2 6 40 35 5 U Lep 9.0 9.4 7.0 1,2,4 -1.75 122 16 111 35 3,20 TV Lib 2.0 3.0 1,4 -0.53 -52 16 -58 35 3,20 VY Lib 6.5: 6.0 3,4 -1.37 160 16 3 FW Lup -0.49 TT Lyn 8.5 6 -67 1 -63 3 24,18 Y Lyr 1.0 0.8 1,2 -110 35 6 RR Lyr 6.0 1 -1.51 -72 10 -68 30 -69 35 21,23, 5 RZ Lyr 9.0 10.0 1,2 -1.87 -231 35 20 BQ Lyr 0.0: 1 CX Lyr 7.0: 1 EZ Lyr 7.0 7.1 1,2 -75 35 6 IO Lyr 3.0 1 KX Lyr 0.0 1 -60 30 12 LX Lyr 8.0: 1 Z Mic 4.0 4 -1.48 -64 16 3 RV Oct -1.88 UV Oct 9.0 5 -1.71 109 30 8 ST Oph 6.0 1 -1.50 9 8 -45 35 19, 7 V413 Oph 3.0 1 V445 Oph 1.0 1 -0.22 -19 5 -15 35 22, 6 V452 Oph 5.0: 1 -1.75 V455 Oph -1.44 TY Pav 10.0? 5 -2.13 255 30 8 DN Pav 8.0? 5 -1.58 -95 30 8 VV Peg 9.0 8.2 1,2 15 12 10 35 19, 6 AE Peg 7.0 6.3 1,2 AO Peg 1.0 4.3 1,2 115 35 6 AV Peg 0.0 -1.3 1,2 -0.34 -59 1 -56 2 -98 35 24,18,20 BH Peg 5.0 4.8 1,2 -1.65 -278 2 -260 35 18, 6 CG Peg 2.0 1 -10 5 2 8 5 35 18,19, 6 ET Peg 4.0 1 TU Per -377 12 -380 35 19, 5 AR Per 0.0 2.3 1,2 -0.52 5 1 1 4 -6 16 -8 35 24,19,10,20 RV Phe 8.0? 5 -1.58 99 2 87 30 25, 8 U Pic 3.0 4 -0.85 14 16 3 RY Psc 7.0 9.2 1,2 -1.33 26 35 20 XX Pup 386 10 374 12 409 16 21,19,10 BB Pup 3.0: 6.0 1,4 -0.79 82 12 255 16 105 16 19,10, 3 HH Pup 1.0 4 -1.08 6 16 3 X Ret 3.0 4 130 16 3 V440 Sgr 5.0 9.0 1,4 -1.48 -62 1 -71 16 -50 35 25, 3, 6 V675 Sgr 11.0 5 -1.98 -105 30 8 V1211Sgr 3.0: 1 V1640Sgr 0.0 5 -17 30 8 V494 Sco 2.0? 5 -1.06 26 30 8 V690 Sco 4.0 4 -0.93 -63 16 3 RU Scl 6.0 4 27 16 34 30 30 35 3, 2,20 UZ Scl 8.0 4 -34 16 3 VY Ser 9.0 9.1 1,6 -1.79 -146 1 -140 5 7 35 28,17,20 AN Ser 0.0 1 0.12 -47 4 -60 35 19, 6 AR Ser 8.0: 4.6 1,2 -1.65 133 4 100 35 19, 6 AT Ser 9.0 1 -1.79 -55 12 -70 35 19, 6 AV Ser 6.0? 1 -1.69 -55 35 6 AW Ser 7.0: 5.0 1,2 CS Ser 6.0? 1 RV Sex 4.8 3 SS Tau -19 25 -50 35 19, 7 U Tri 2.0 1.3 1,2 -60 35 7 RW TrA 1.0 4 -0.18 -91 16 3 W Tuc 7.0? 5 -1.62 65 3 71 30 26, 8 YY Tuc 8.0? 5 -1.84 31 30 8 AG Tuc 179 16 181 30 3, 2 RV UMa 8.0: 3.5 7.5 1,2,6 -1.24 -180 10 -178 35 21,20 TU UMa 6.0 7.6 7.1 1,2,6 -1.33 84 1 92 1 104 35 24,13,20 AB UMa -0.1 3 AF Vel 7.0 4 -1.67 236 16 3 FS Vel 8.0 4 277 16 3 ST Vir 0.8 2 -35 35 5 UU Vir 2.0 0.7 4.8 1,2,6 -1.10 -0.70 -8 1 -6 5 -17 35 24,22,20 UV Vir 8.5 2.8 3,6 118 25 95 35 19, 5 XX Vir -1.84 AM Vir 105 35 6 AS Vir 5.9 6 85 35 6 AT Vir 6.0 2 344 10 358 16 355 35 21,10,20 AV Vir 6.0 5.5 1,2 -1.33 154 4 35 35 19,20 BB Vir 7.3: 7.8 3,6 -5 35 6 BC Vir 0 35 20 BN Vul 6.0 7.6 1,2 -267 4 -235 35 19, 6 ========================================================================================== Notes to TABLE 1 Delta_S references: ------------------- 1 Preston, G.W., (1959) ApJ, 130, 507 2 Butler, D., (1975) ApJ, 200, 68 3 Smith, H.A., (1990) PASP, 102, 124 4 Clube, Evans & Jones, (1969) MemRAS, 72, 101 5 Kinman, T.D., (1961) ROB, No. 37 6 Kinman, T.D. & Carretta, E., (1992) PASP, 104, 111 Radial Velocity References: ---------------------------- 1-18 see Hemenway, M.K., (1975) AJ, 80, 199, "notes to Table I" 19 Hawley, S.L. & Barnes, T.G., (1985) PASP, 97, 551 20 Payne-Gaposchkin, C., (1954) 21 Woolley & Savage, (1971) ROB, No. 170 22 Barnes, et al, (1988) ApJS, 67, 403 23 Wilson, et al, (1989) ApJS, 69, 951 24 Liu, T. & Janes, K.A., (1989), ApJSupp, 69, 593 25 Cacciari, et al, (1987) AASupp, 69, 135 26 Clementini, Cacciari & Lindgren, (1990) AASupp, 85, 865 27 Fernley, et al, (1990) MNRAS, 247, 287 28 Carney, B.W. & Latham, D.W., (1984) ApJ, 278, 241