ID longitude [°] latitude [°] 750 nm albedo 415/750 950/750 slope [°] D [km] h [m] V [km^3] f Dc [km] class name
Effusive domes near Cauchy [4,10]
C1 37.48 7.11 0.0863 0.6508 1.0588 0.35 8.1 25 0.7 0.50 2.6 A Cauchy 5 [2]
C2 38.32 7.23 0.0909 0.6377 1.0567 1.17 12.2 125 7.4 0.50 2.6 C2 Cauchy Omega [1], Cauchy 1 [2]
C3 36.73 7.58 0.0919 0.6318 1.0608 1.28 17.0 190 12.0 0.28 C2 Cauchy Tau [1], Cauchy 2 [2]
C4 36.78 8.85 0.0820 0.6621 1.0547 0.43 13.3 50 3.2 0.46 2.2 A
C5 33.02 10.56 0.0902 0.6452 1.0489 1.03 11.1 100 5.4 0.56 C2
C6 31.97 10.76 0.0842 0.6558 1.0685 0.74 7.7 50 1.0 0.43 A
C8 30.72 14.40 0.0975 0.6346 1.0465 2.50 12.5 270 17.0 0.51 C2
C12 37.20 12.37 0.0904 0.6165 1.0681 0.45 6.3 25 0.5 0.61 E2
C13 39.32 13.50 0.0867 0.6396 1.0686 1.00 11.0 95 5.0 0.55 A-C2
Effusive domes of the Northern Tranquillitatis Alignment [7]
NTA1 35.05 14.73 0.0999 0.5995 1.0520 0.34 17.1 50 3.9 0.34 A-C1-C2
NTA2 35.30 14.36 0.0942 0.6197 1.0488 0.70 5.7 35 0.6 0.68 A-E2
NTA3 36.13 14.01 0.1047 0.6152 0.9971 0.62 9.2 50 2.0 0.59 2.7 B2-C1
NTA4 36.47 13.68 0.1052 0.6103 0.9916 0.62 8.3 45 0.8 0.34 2.2 B2-C1
NTA5 36.72 13.57 0.0985 0.6046 1.0366 0.50 5.7 25 0.4 0.54 A-E2
NTA6 37.49 13.07 0.0942 0.6124 1.0570 0.49 7.0 30 0.6 0.47 A-E2
D 35.57 14.31 0.0937 0.6270 1.0482 1.31 6.1 70 1.1 0.54 A-C2-E2 Diana [1]
C7, G 35.86 14.23 0.0980 0.6161 1.0362 2.00 8.0 140 4.7 0.67 C2 Grace [1]
Effusive domes near Arago [4, 10]
A1 21.96 7.66 0.0863 0.6703 1.0577 0.88 5.6 45 0.3 0.29 A
A2 21.70 7.56 0.0886 0.6621 1.0565 1.50 25.4 330 67.0 0.40 D Arago Alpha [1], Arago 2 [2]
A3 20.07 6.24 0.0912 0.6738 1.0578 1.30 23.6 270 39.9 0.34 D Arago Beta [1], Arago 1 [2]
A4 21.27 8.65 0.0806 0.6681 1.0762 0.66 11.1 65 3.2 0.50 A Arago 3 [2]
A5 20.96 8.88 0.0816 0.6719 1.0731 0.59 8.4 45 1.4 0.58 A Arago 4 [2]
A6 20.79 9.22 0.0805 0.6791 1.0751 0.58 9.5 50 1.8 0.50 A Arago 5 [2]
A7 24.15 11.29 0.0804 0.6794 1.0604 0.82 6.2 45 0.6 0.44 A
Effusive domes near Hortensius [4]
H1 -28.41 7.18 0.1308 0.6203 1.0278 1.89 8.5 140 3.4 0.44 2.6 B2 Hortensius 1 [2]
H2 -28.01 7.12 0.1281 0.6225 1.0131 3.45 7.6 230 6.3 0.60 1.9 B1 Hortensius 2 [2]
H3 -27.78 7.59 0.1174 0.6105 1.0197 2.05 12.3 220 17.0 0.65 1.7 B1 Hortensius 3 [2]
H4 -27.51 7.47 0.1209 0.6154 1.0303 3.21 6.8 190 5.0 0.73 1.9 B1 Hortensius Sigma [1], Hortensius 4 [2]
H5 -27.54 7.87 0.1183 0.6066 1.0287 5.39 8.5 400 18.0 0.81 1.6 B1 Hortensius 5 [2]
H6 -27.34 7.82 0.1237 0.6118 1.0213 3.57 12.5 390 32.0 0.66 B1 Hortensius 6 [2]
H7 -25.17 6.07 0.1463 0.6149 1.0156 1.47 7.8 100 2.4 0.51 2.4 B2
Effusive domes near Milichius/Tobias Mayer [4, 8]
M1 -31.58 12.76 0.1090 0.6060 1.0444 0.86 13.4 100 8.2 0.58 2.4 C1 Tobias Mayer 1 [2]
M2 -30.05 12.79 0.1267 0.5837 1.0284 1.80 20.1 320 50.0 0.49 3.7 C1 Tobias Mayer 4 [2]
M3 -30.43 13.78 0.1063 0.5923 1.0538 1.40 15.6 190 12.0 0.34 3.1 C1 Tobias Mayer 3 [2]
M4 -27.39 12.04 0.1383 0.5980 1.0246 1.27 15.3 170 21.0 0.69 4.0 B2 Tobias Mayer 6 [2]
M5 -31.01 13.24 0.1181 0.5978 1.0184 0.60 15.3 80 6.8 0.46 C1 Tobias Mayer 2 [2]
M6 -32.74 11.48 0.1024 0.6068 1.0272 1.34 19.7 230 33.0 0.47 2.9 C1
M7 -30.96 13.75 0.1168 0.6151 1.0233 0.99 5.2 45 0.4 0.39 1.8 E2
M8 -29.50 14.06 0.1214 0.5951 1.0428 3.46 4.3 130 1.2 0.65 1.8 E1
M9 -29.40 13.98 0.1214 0.5951 1.0428 3.15 4.0 110 0.9 0.64 0.9 E1
M10 -31.70 14.06 0.1227 0.5976 1.0329 0.84 19.0 140 21.0 0.54 3.4 C1 Tobias Mayer 7 [2]
M11 -31.08 14.77 0.1186 0.5908 1.0297 2.80 6.0 150 2.3 0.54 B1
M12 -31.20 10.08 0.1156 0.6116 1.0117 2.72 9.7 230 11.0 0.63 3.3 B1 Milichius Pi [1], Milichius 1 [2]
M14 -32.13 12.76 0.1056 0.6094 1.0374 0.27 14.8 35 1.7 0.28 A-C1 Tobias Mayer 27 [3]
M15 -25.20 10.10 0.1411 0.5920 1.0389 0.60 21.0 110 17.0 0.45 C1
Effusive domes near Doppelmayer [6]
Do1 -41.92 -30.08 0.1452 0.5841 1.0737 2.80 16.9 410 34.0 0.37 C1-B1 Doppelmayer 1 [3, 6]
Do2 -43.42 -30.66 0.1256 0.5856 1.0577 1.45 12.6 160 2.8 0.28 C1 Doppelmayer 2 [3, 6]
Effusive domes in Mare Undarum [9]
Co1 70.30 7.05 0.1167 0.5746 1.0943 1.77 9.7 150 9.5 0.85 B2-C1 Condorcet 1 [3, 9]
Co2 70.64 6.78 0.1141 0.5709 1.0929 1.45 10.3 130 7.4 0.68 B2 Condorcet 2 [3, 9]
Co3 70.93 6.67 0.1257 0.5783 1.0619 1.13 11.2 110 5.3 0.49 C1 Condorcet 3 [3, 9]
Co4 70.30 6.72 0.1163 0.5697 1.0779 2.78 11.1 270 15.3 0.58 B1 Condorcet 4 [3, 9]
Effusive domes on the Rümker plateau [7]
R1 -58.80 41.50 0.1057 0.5630 1.0471 2.73 8.4 200 5.7 0.51 B1
R2 -58.00 41.30 0.1157 0.5662 1.0504 1.64 9.1 130 4.3 0.51 B2
R3 -58.30 40.30 0.1097 0.5650 1.0226 3.02 9.1 240 7.6 0.48 B1
R4 -58.00 40.10 0.1118 0.5648 1.0303 2.67 7.3 170 3.7 0.52 B1
R5 -57.30 41.00 0.1191 0.5726 1.0301 1.46 5.5 70 0.9 0.55 E1
R6 -58.70 40.60 0.1061 0.5664 1.0291 1.66 6.9 100 2.2 0.58 B2
Effusive domes near Birt [13]
B1 -9.66 -20.73 0.0985 0.5935 1.0216 1.22 16.0 170 17.3 0.51 C1 Birt 1 [13]
B2 -9.98 -20.39 0.0978 0.5961 1.0398 1.03 7.8 70 1.3 0.39 C1-C2 Birt 2 [13]
Effusive domes in the Marius Hills region [19]
Ma1 -55.53 9.88 5.70 7.8 390 10.7 0.57 H2
Ma2 -55.26 10.32 5.50 12.1 580 36.6 0.55 H3
Ma3 -55.81 10.32 2.10 6.4 120 1.9 0.49 H2
Ma4 -56.15 10.72 3.90 6.1 210 3.7 0.60 H2
Ma5 -55.96 10.72 3.50 5.9 180 3.4 0.69 H2
Ma6 -56.83 10.58 3.40 6.1 180 3.7 0.70 H2
Ma7 -56.67 11.10 2.90 9.2 230 7.6 0.50 H2
Ma8 -56.61 11.74 3.80 6.4 210 3.0 0.44 H2
Ma9 -55.68 11.04 2.80 8.1 200 7.6 0.74 H2
Ma10 -56.37 12.19 4.30 7.5 280 4.0 0.32 H2
Ma11 -56.60 12.49 4.10 10.9 390 14.8 0.41 H2
Ma12 -53.88 13.13 3.90 6.4 220 4.2 0.59 H2
Ma13 -54.54 10.58 5.30 7.8 360 7.0 0.41 H3
Ma14 -53.73 11.02 2.70 7.5 180 3.8 0.48 H2
Ma15 -53.35 10.99 3.90 14.2 480 42.2 0.56 H2
Ma16 -53.14 11.90 2.20 11.2 220 15.6 0.72 H2
Ma17 -57.44 13.45 3.90 10.4 350 17.0 0.57 H2
Ma18 -56.90 14.22 5.80 7.9 400 10.1 0.52 H3
Ma19 -56.09 14.28 5.60 8.5 420 11.3 0.47 H3
Ma20 -55.70 14.25 3.00 9.7 250 7.6 0.41 H2
Ma21 -55.19 13.04 3.20 8.9 250 9.0 0.58 H2
Ma22 -55.11 14.34 4.20 7.3 270 6.3 0.56 H2
Ma23 -54.73 14.14 5.30 4.5 210 1.9 0.57 H1
Ma24 -54.44 14.39 3.70 5.8 190 3.2 0.64 H2
Ma25 -54.20 14.65 5.80 7.5 380 9.0 0.54 H3
Ma26 -53.60 14.75 8.50 7.1 530 10.4 0.50 H3
Ma27 -53.65 15.26 6.10 6.5 350 7.3 0.63 H3
Ma28 -53.25 15.09 4.20 11.5 420 21.8 0.50 H2
Ma29 -52.97 14.28 9.00 7.2 570 13.1 0.56 H3
Ma30 -52.94 13.53 8.30 7.4 540 13.5 0.58 H3
Isolated effusive domes [4, 5, 10, 14, 15, 17, 20]
Y1 49.96 14.82 0.1588 0.5912 1.0654 1.31 9.6 110 4.8 0.60 2.3 B2 Yerkes 1 [3]
Ve1 57.83 -15.74 0.1410 0.5913 1.0628 0.55 16.8 80 7.2 0.41 C1 Vendelinus 1 [3]
Ve2 59.00 -17.75 0.1589 0.6038 1.0567 0.25 13.5 30 2.1 0.50 3.0 C1 Vendelinus 2 [3]
K1 -24.18 -26.84 0.1169 0.6298 1.0464 1.35 13.6 160 13.0 0.55 3.6 C1 Kies Pi [1]
He1 -50.00 20.21 0.1085 0.6245 0.9753 2.50 14.4 230 21.0 0.56 B1 Herodotus Omega [1], Aristarchus 1 [2]
L5 -28.66 47.17 0.1205 0.5533 1.0290 1.60 9.0 125 3.7 0.46 B2 Laplace 5 [3]
Hy3 8.26 10.52 0.0934 0.6244 1.0858 0.86 9.3 70 2.2 0.47 A Hyginus 3 [3]
Pe1 60.40 -26.80 0.1826 0.6059 1.0534 1.40 19.8 240 18.8 0.51 3.0 C1 Petavius 1 [3, 5]
Ca1 27.08 10.10 0.0955 0.6402 1.0264 0.59 8.6 45 0.7 0.27 A Carrel 1 [11]
Me10 50.42 -2.50 0.1004 0.6138 1.0404 1.12 7.5 80 2.8 0.79 C2-C1 Messier 10 [3]
Me13 43.47 -1.95 0.1047 0.6007 1.0458 1.26 7.7 85 ~4.0 ~0.5 C2-C1 Messier 13 [3]
CH1 -32.57 34.76 0.1051 0.5957 1.0513 0.44 16.8 64 ~7.1 ~0.5 C1? C. Herschel 1 [13]
Ar2 -2.71 56.52 0.1423 0.5394 1.0140 2.70 11.0 265 ~12.6 ~0.5 B1 Archytas 2 [13]
Mee1 -42.92 -43.50 0.1677 0.5863 1.0374 1.15 25.0 250 44.0 ~0.5 C1 Mee 1 [17]
Ke1 -39.53 8.88 0.1399 0.6119 0.9833 1.40 13.9 170 12.5 0.48 C2 Kepler 1 [18]
Pi1 28.56 -27.46 0.1912 0.5920 1.0866 2.90 14.0 350 17.9 0.33 B1 Piccolomini 1 [18]
Met1 19.73 73.02 0.71 14.5 90 4.5 0.30 B2 Meton 1 [20]
Ca1 -26.18 -34.20 1.63 7.0 100 1.9 0.49 C2 Capuanus 1 [24]
Ca2 -26.72 -33.75 1.27 9.0 100 3.2 0.50 C2 Capuanus 2 [24]
Ca3 -26.60 -34.40 1.04 5.5 50 0.6 0.51 E2 Capuanus 3 [24]
Men1 15.75 17.80 0.0916 0.5981 1.0059 1.60 12.6 180 11.2 0,5 (est.) C2 Menelaus 1 [25]
Men2 16.45 17.57 0.0912 0.5951 1.0651 0.90 14.4 110 8.9 0,5 (est.) C2 Menelaus 2 [25]
Candidate intrusive domes [4, 10, 12, 22, 23]
C9 34.66 7.06 0.0860 0.6503 1.0657 0.13 13.3 15 0.5 0.23 In3
C10 35.19 10.00 0.0902 0.6414 1.0582 0.30 19.2 50 10.0 0.72 In3 Sinas 6 [3]
C11 36.75 11.06 0.0853 0.6656 1.0566 0.70 12.2 75 6.4 0.73 In2 Cauchy 12 [3]
M13 -31.53 11.68 0.1024 0.6119 1.0377 0.41 27.8 100 15.0 0.25 In1 Milichius 21 [3]
V1 10.20 30.70 0.1195 0.5967 1.0134 0.55 30.0 130 42.0 0.46 In1 Valentine [1], Linne 2 [3]
V2 10.26 31.89 0.1116 0.5921 1.0343 0.82 11.0 80 1.9 0.34 In2
Ga1 -14.84 -0.75 0.1129 0.6067 1.0303 0.57 30.0 140 50.0 0.51 In1 Gambart 22 [3]
Ar1 0.71 55.71 0.1485 0.5553 1.0016 0.25 33.0 70 22.0 0.50 In1 Archytas 1 [10]
L6 -29.16 47.08 0.1204 0.5578 1.0433 0.52 10.0 45 1.5 0.42 In2 Laplace 6 [3]
Pa1 -47.88 -26.63 0.1382 0.6054 1.0224 0.50 13.5 60 4.3 0,5 (est.) In2 Palmieri 1 [10]
Du3 71.30 5.54 0.1376 0.5848 1.0648 0.88 11.7 90 3.0 0.31 In2 Dubiago 3 [3, 9]
Gr1 -68.62 -4.45 0.1129 0.5948 1.0680 0.62 29.4 160 75.0 0.69 In1 Grimaldi 1 [22]
Ari1 5.67 33.28 0.1023 0.5864 1.0447 0.22 43.5 85 63.0 0.50 In1 Aristillus 1 [22]
K2 -23.82 -28.30 0.0900 0.6129 1.0560 0.15 41.8 55 37.0 0.49 In1 Kies 2 [23]
Ha2 -48.20 -10.57 0.52 18.7 85 11.7 0,5 (est.) In1 Hansteen 2
Highland domes [4, 21]
G1 -40.38 36.43 0.1720 0.5648 1.0679 8.30 19.0 1740 247.0 0,5 (est.) G Gruithuisen Gamma [1]
G2 -39.42 36.11 0.1552 0.5506 1.0583 6.90 27.0 1900 544.0 0,5 (est.) G Gruithuisen Delta [1]
G3 -40.86 36.92 0.1492 0.5604 1.0647 9.10 7.5 1020 23.0 0,5 (est.) G Northwest Dome [1]
Ha1 -49.90 -13.30 4.90 25.0 1070 260.0 0,5 (est.) G Mons Hansteen [21]
Cones [4]
SC1 27.60 18.60 0.0882 0.6645 1.0362 3.54 2.3 72 0.2 0.52 cone Osiris [1], Serenitatis 1
SC2 27.50 18.90 0.0872 0.6609 1.0389 4.00 1.7 60 0.1 0.52 cone Isis [1], Serenitatis 2
MC1 -31.70 10.70 0.0976 0.6167 1.0426 3.90 1.8 61 0.1 0.52 cone
[1] Traditional name, possibly inofficial
[2] Head and Gifford (1980), The Moon Planets 22
[3] Kapral and Garfinkle (2005)
[4] Wöhler et al. (2006), Icarus 183(2)
[5] Lena et al. (2006), JRASC 100(1)
[6] Lena et al. (2007a), PSS 55
[7] Wöhler et al. (2007a), LPSC XXXVIII
[8] Wöhler et al. (2007b), Icarus 189(2)
[9] Lena et al. (2008a), PSS 56
[10] Wöhler and Lena (2009), Icarus 204(2)
[11] Pau et al. (2008), LPSC XXXIX
[12] Lena et al. (2008b), ST 10
[13] Lena et al. (2008c), ST 10
[14] Lena et al. (2007b), ST 3
[15] Lena et al. (2007c), ST 3
[16] Lena et al. (2008d), ST 11
[17] Lena et al. (2009), PSS 57
[18] Lena and Wöhler (2009), LPSC XXXX
[19] Lena et al. (2009), EPSC2009-262
[20] Lena et al. (2010), LPSC XXXXI
[21] Evans et al. (2010), LPSC XXXXI
[22] Wöhler et al. (2010), LPSC XXXXI
[23] Lena et al. (2011), JRASC 105(1)
[24] Lena et al. (2011), LPSC XXXXII
[25] Evans et al. (2011), LPSC XXXXII
Last revision: April 25, 2011