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	C1	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		C1	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		C1
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
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	-29.40	14.00	0.1214	0.5951	1.0428	3.46	4.3	130	1.2	0.65	1.8	E1
M9	-29.40	14.00	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]
M15	-25.17	6.07	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	70.30	6.72	0.1141	0.5709	1.0929	1.45	10.3	130	7.4	0.68		B2	Condorcet 2 [3, 9]
Co3	70.64	6.78	0.1257	0.5783	1.0619	1.13	11.2	110	5.3	0.49		C1	Condorcet 3 [3, 9]
Co4	70.93	6.67	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]
Isolated effusive domes [4, 5, 10, 14, 15]
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	2.6	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				C2-C1	Messier 13 [3]
Intrusive domes [4, 10, 12]
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]
C12	37.20	12.37	0.0904	0.6165	1.0681	0.45	6.3	25	0.5	0.61		In2 ?, effusive ?
M13	-31.53	11.68	0.1024	0.6119	1.0377	0.41	27.8	100	15.0	0.25		In1	Milichius 21 [3]
M14	-32.13	12.76	0.1056	0.6094	1.0374	0.27	14.8	35	1.7	0.28		In3	Tobias Mayer 27
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	0.62	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]
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 [12]
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]
Highland domes [4]
G1	-40.38	36.43	0.1720	0.5648	1.0679	8.30	19.0	1320	187.0	0.5 (est.)		G	Gruithuisen Gamma [1]
G2	-39.42	36.11	0.1552	0.5506	1.0583	6.90	27.0	1630	378.0	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]
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] Inofficial traditional name
[2] Head and Gifford (1980), 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
[9] Lena et al. (2008), PSS 56
[10] Lena and Wöhler (2008), LPSC XXXIX
[11] Pau et al. (2008), LPSC XXXIX
[12] Lena et al. (2008a), ST 10
[13] Lena et al. (2008b), ST 10
[14] Lena et al. (2007b), ST 3
[15] Lena et al. (2007c), ST 3