TABLE A8.3. Statistical summary of the database for concentrations of seven “miscellaneous minor elements” in mare basalts (MBAS) and in soils and regolith breccias (S&RB); all values are in mg/g (see section 8.5, Fig.8.14). P Sc V Cr Mn Ga Sr Apollo 11 MBAS N 7 64 62 76 79 11 10 Average 636 83.5 78.2 2090 1919 4.1 163 Std. dev. 171 8.0 18.7 473 193 0.8 28 Minimum 436 65 38.5 1220 1480 3.0 100 Maximum 873 105 136 3381 2490 5.2 209 Apollo 12 MBAS N 5 32 19 32 32 23 8 Average 427 48.3 170.1 3641 2082 4.1 113 Std. dev. 160 7.2 30.3 1097 107 0.9 27 Minimum 305 37 126 2025 1845 2.7 72 Maximum 742 63 221 6570 2290 5.9 145 Apollo 14 MBAS N 2 17 14 17 17 2 2 Average 393 56.5 111.8 2673 1795 3.7 87 Std. dev. 5.0 22.7 705 98 Minimum 349 46 63 1574 1650 3.3 73 Maximum 436 63 139 3724 2070 4.0 100 Apollo 15 MBAS N 19 72 66 72 72 23 21 Average 363 40.4 198.9 4027 2077 4.2 113 Std. dev. 116 4.6 32.7 1223 128 1.0 20 Minimum 218 30 116 1917 1541 2.9 80 Maximum 567 58 266 11300 2310 7.8 150 Apollo 16 MBAS (clast in breccia 60639) N 1 1 1 1 Average 73 78 2053 1952 Apollo 17 MBAS N 16 114 109 114 114 20 21 Average 288 78.6 104.3 2983 1925 5.1 163 Std. dev. 92 8.7 37.0 808 166 1.8 28 Minimum 175 25 20 1273 1557 2.2 104 Maximum 524 96 256 6420 3230 8.3 209 Luna 16 MBAS N 3 3 3 3 1 1 Average 66.3 76.7 1506 1996 3.7 404 Std. dev. 3.8 11.1 93 31 Minimum 61 62 1403 1952 Maximum 69 89 1629 2022 Luna 24 MBAS N 8 8 8 8 1 1 Average 46.3 167.9 1845 1938 1.8 110 Std. dev. 8.5 10.2 341 131 Minimum 38 154 1478 1774 Maximum 66 179 2608 2208 Apollo 11 S&RB N 5 7 7 14 14 5 6 Average 560 62.4 69.6 1986 1662 5.0 163 Std. dev. 68 3.9 11.1 173 80 1.1 2 Minimum 480 55 58 1574 1487 4.0 160 Maximum 654 68 92 2300 1815 7 165 TABLE A8.3. (continued) P Sc V Cr Mn Ga Sr Apollo 12 S&RB N 4 15 10 15 15 8 5 Average 1616 37.1 114.4 2468 1600 4.7 138 Std. dev. 420 3.9 17.6 397 178 0.4 32 Minimum 1265 27 85 1610 1247 4.1 90 Maximum 2334 44 143 3230 1910 5.2 190 Apollo 14 S&RB N 8 16 15 17 17 10 9 Average 2073 23.1 51.1 1496 1009 6.2 184 Std. dev. 482 3.5 6.7 198 75 1.4 74 Minimum 1003 17.8 41.8 1136 840 4.4 135 Maximum 2531 30 62 1848 1084 8.3 390 Apollo 15 S&RB N 22 52 40 54 54 21 26 Average 908 27.1 110.4 2530 1445 4.0 138 Std. dev. 228 4.9 32.6 529 228 0.7 19 Minimum 590 20 57.5 1506 1120 2.9 100 Maximum 1570 39.9 200 3810 2014 5.1 170 Apollo 16 S&RB N 23 53 35 51 48 35 33 Average 570 9.3 21.1 728 511 4.3 154 Std. dev. 229 1.5 5.3 121 58 0.8 22 Minimum 131 5.0 7.5 411 310 3.1 120 Maximum 1180 13.2 31.0 980 620 5.7 210 Apollo 17 S&RB N 30 64 50 64 63 35 43 Average 453 37.0 71.0 2220 1252 5.8 153 Std. dev. 146 18.2 27.4 667 363 3.4 21 Minimum 208 15 28 1230 798 2.6 112 Maximum 698 78 140 4030 1950 16.5 210 Luna 16 S&RB N 1 4 4 4 4 1 1 Average 380 45.8 37.2 1953 1600 4.7 266 Std. dev. 6.3 3.7 232 183 Minimum 40 36 1595 1325 Maximum 40 52.3 2160 1836 Luna 20 S&RB N 1 2 2 2 2 1 1 Average 520 16.2 46.5 1259 813 3.7 138 Std. dev. Minimum 15.8 46 1230 806 Maximum 16.5 47 1287 821 TABLE A8.3. (continued) P Sc V Cr Mn Ga Sr Luna 24 S&RB N 1 7 7 7 7 1 6 Average 179 40.3 149.7 2657 1962 1.2 97 Std. dev. 1.7 7.7 249 54 10 Minimum 37 139 2163 1898 81 Maximum 43 159 3053 2068 109 AMET S&RB N 2 3 3 3 3 3 3 Average 95 11.5 30.0 917 611 4.0 144 Std. dev. 1.8 3.9 31 35 1.4 13 Minimum 90 9.1 24.6 890 580 2.7 134 Maximum 100 13.3 33.5 960 660 5.9 162 Note that only the mare basalts (MBAS) and the soils and regolith breccias (S&RB) are included in this table. The data for highlan d monomict rocks (HMCT) and polymict breccias (BX) show so much scatter that statistics are practically meaningless. For the data listed, standard deviati ons are not given in those categories where the number of analyses (N) is <3. Abbreviations: N = number of analyses, Std. dev. = standard deviation, MBAS = m are basalts, S&RB = soils and regolith breccias, AMET = Antarctic lunar meteorites. Main sources of data used for this table: P: refs. 1*, 2; Sc: refs. 1, 2, 3, 4, 5; V: refs. 1, 2, 3†, 4, 5; Cr: refs. 1, 2, 3, 4, 5 ; Mn: refs. 1, 2, 3, 4, 5; Ga: refs. 1, 2, 3, 4; Sr: refs. 1‡, 2, 3, 4§. References: 1. H.J. Rose and coworkers (a series of 9 papers published in the Proceedings of the Lunar Science Conference, beginnin g with Rose et al., 1970, and ending with Rose et al., 1975 and Christian et al., 1976): data from XRF spectrometry (P, Cr, Mn) or one of several techniques based on “wet” chemistry followed by spectrographic analysis (P, Cr, Mn, Sc, V, Ga, Sr). 2. H. Wänke and coworkers (a series of 9 papers published in the Pr oceedings of the Lunar and Planetary Science Conference, beginning with Wänke et al., 1970a, and ending with Palme et al., 1984, and Ostertag et al., 1987 ): data from XRF (P, Cr, Mn) or INAA (Cr, Mn, Sc, V, Ga, Sr). 3. Brunfelt et al. (1971, 1972a,b, 1973a,b, 1974a,b); data from INAA. 4. P.H. Warren and coworkers ( a series pf 14 papers published in the Proceedings of the Lunar Science Conference, beginning with Boynton et al., 1976b, and ending with Jerde et al., 1987, and Warren et al., 1987): data from INAA. 5. R.A. Schmitt and coworkers (a series of 23 papers published in the Proceedings or in the abstracts of the Lunar and Planetary Science Conference, beginning with Wakita et al., 1970, and ending with Delano et al., 1986): data form INAA. In additio n to these references, data for a broad range of miscellaneous minor elements were obtained from Laul et al. (1972a,b), Laul and Schmitt (1973a), and Ma et al. (1978). Some of the data plotted but not tabulated for highland monomict rocks are from Ryder and Norman (1979); additional P data for Apollo 11 MBAS a re from Compston et al. (1970). For samples from the U.S.S.R. Luna missions, sources used in addition to those enumerated above are Albee et al. (1972 ), Bakos et al. (1977), Bansal et al. (1972), Barsukov et al. (1980), Blanchard et al. (1978), Bobrov et al. (1980), Cimbalhikova et al. (1977), Gangadhara n et al. (1974), Gillum et al. (1972), Helmke and Haskin (1972a,b), Helmke et al. (1973), Hubbard et al. (1972b, 1977), Jerome and Philippot (1973), Jerom e et al. (1972), Jovanovic et al. (1978), Kolesov and Surkov (1980), Kuznetsov et al. (1979), Laul et al. (1978b, 1981), Murali et al. (1979), Nava and Philpotts (1973), Nyquist et al. (1978), Philpotts et al. (1972), Surkov and Kolesov (1979), and Vinogradov (1971, 1973). Essentially all these data were obtained using INAA. For the Antarctic lunar meteorites, Koeberl et al. (1989) and Warren et al. (1989) list all the published sources used, whic h are generally based on INAA. * The P data reported by Rose and coworkers appear unreliable at concentrations below roughly 0.04 wt.%. † The V data reported by Brunfelt and coworkers for Apollo 16 samples appear unreliable (too high). ‡ The Sr data reported by Rose and coworkers for Apollo 12 samples appear unreliable (too low). § Schmitt and coworkers also report Sr data in some of their most recent papers.