Table 1: Stellar parameters and observed properties.
Obj Spitz. RA Dec J ST Cl. L_* M_* $T_{\rm eff}$ Pa $\beta$ Pa $\gamma$ HeI $L_{\rm acc}$ $\dot M_{\rm acc}$

# # (2000) (2000) (mag) ( $L_{\odot}$ ) ( $M_\odot$ ) (K) ( $\AA$ ) ( $\AA$ ) ( $\AA$ ) ( $L_{\odot}$ ) ( $M_\odot$ /yr)

1 - 5:37:56.1 -2:09:26.7 13.90 M4.5 II 0.04 0.16 3075 <0.5 <0.6 - <-3.5 <-10.4

2 283 5:37:58.4 -2:41:26.2 13.28 M5.0 III 0.07 0.12 3000 <0.5 <0.4 - <-3.4 <-10.0

3 451 5:38:18.9 -2:51:38.8 12.83 M3.0 II 0.12 0.25 3350 <0.5 $2.0\pm0.4$ $1.7\pm0.3$ -2.2 -9.1

4 462 5:38:20.5 -2:34:09.0 12.65 M4.0 II 0.13 0.16 3150 <0.4 <0.3 - <-3.2 <-9.8

5 518 5:38:27.3 -2:45:09.7 11.95 K8.0 II 0.42 0.5 3900 $9.4\pm0.5$ $6.7\pm0.6$ $7.3\pm0.5$ -1.0 -8.1

6 520 5:38:27.5 -2:35:04.2 12.83 M3.5 II 0.12 0.2 3250 <0.6 0.8^c - -2.8 -9.6

7 562 5:38:31.4 -2:36:33.8 12.17 M3.0 II 0.19 0.2 3350 $4.9\pm0.4$ $3.6\pm0.3$ $4.7\pm0.3$ -1.5 -8.2

8 563 5:38:31.6 -2:35:14.9 11.52 M2.0 II 0.23 0.3 3500 <0.5 <0.5 $1.8\pm0.5$ <-2.3 <-9.2

9 592 5:38:34.3 -2:35:00.1 11.22 K0.0 III 0.16 0.8 5250 <0.4 <0.4 - <-2.3 <-10.0

10 598 5:38:34.6 -2:41:08.8 13.10 M4.5 II 0.11 0.14 3075 <0.6 <0.7 -0.8^c <-3.0 <-9.6

11 611 5:38:35.5 -2:31:51.7 11.30 K7.0 III 0.57 0.5 4000 <0.7 <0.7 - <-2.0 <-9.0

12 646 5:38:39.0 -2:45:32.2 12.91 M3.5 II 0.10 0.2 3225 <0.4 $0.8\pm0.3$ $-1.8\pm0.4$ -2.8 -9.6

13 - 5:38:39.8 -2:56:46.2 11.43 M0.5 II 0.45 0.4 3725 <0.7 <0.4 $2.8\pm0.3$ <-2.4 <-9.3

14 662 5:38:40.3 -2:30:18.5 11.51 M0.5 II 0.44 0.4 3725 <0.7 0.7^c -0.7^c -2.1 -9.0

15 669 5:38:41.3 -2:37:22.6 11.46 M0.0 III 0.44 0.45 3800 <0.7 <0.4 0.7^c <-2.4 <-9.4

16 682 5:38:42.3 -2:37:14.7 11.77 M1.5 II 0.35 0.3 3575 <0.4 <0.5 -1.2 $\pm0.4$ <-2.5 <-9.3

17 694 5:38:43.9 -2:37:06.8 12.84 M4.5 II 0.1 0.14 3075 <0.4 <0.4 $1.0\pm0.3$ <-3.2 <-9.8

18 697 5:38:44.2 -2:40:19.7 11.36 K7.5 II 0.63 0.45 3950 <0.5 <0.3 $2.1\pm0.3$ <-2.5 <-9.5

19 710 5:38:45.4 -2:41:59.4 11.99 M2.5 II 0.25 0.25 3425 <0.6 $1.3\pm0.3$ 0.3^d -2.0 -8.8

20 723 5:38:47.2 -2:34:36.8 12.56 M3.5 II 0.09 0.2 3250 $3.4\pm0.5$ $2.1\pm0.4$ - -2.0 -8.9

21 726 5:38:47.5 -2:35:25.2 11.74 M1.5 II 0.42 0.3 3575 $1.1\pm0.3$ $1.4\pm0.3$ 0.0^e -1.8 -8.6

22 733 5:38:47.9 -2:37:19.2 12.02 M2.5 II 0.36 0.25 3425 <0.4 $1.3\pm0.3$ 0.6^c -2.0 -8.7

23 736 5:38:48.0 -2:27:14.2 10.16 K8.0 II 0.83 0.45 3950 <0.6 <0.5 $-1.5\pm0.4$ <-1.6 <-8.5

24 750 5:38:49.3 -2:23:57.6 14.36 M4.5 II 0.03 0.16 3075 <1.2 <1.2 - <-3.4 <-10.3

25 762 5:38:50.6 -2:42:42.9 13.84 M5.0 II 0.04 0.12 3000 <0.5 <0.7 $2.9\pm0.4$ <-3.4 <-10.1

26 774 5:38:52.0 -2:46:43.7 11.52 K8.0 II 0.44 0.5 3900 <0.5 $1.6\pm0.5$ $5.2\pm0.5$ -1.6 -8.7

27 871 5:39:04.6 -2:41:49.4 13.96 M2 II 0.1 0.3 3500 <1.2 <1.0 $8.5\pm1.0$ <-3.2 <-10.3

28 897 5:39:07.6 -2:32:39.1 11.30 K8.0 II^a 0.6 0.5 3900 <0.7 <0.6 1.2^c <-2.1 <-9.1

29 908 5:39:08.8 -2:31:11.5 13.07 M4.5 II^b 0.07 0.16 3075 $1.3\pm0.4$ $0.8\pm0.3$ $-1.3\pm0.3$ -2.9 -9.6

30 927 5:39:11.5 -2:31:06.6 11.99 M0.5 II 0.24 0.5 3725 <0.8 <0.7 - <-2.4 <-9.5

31 984 5:39:18.8 -2:30:53.1 11.40 K9.0 II 0.52 0.45 3850 <0.6 <0.4 - $1.1\pm0.3$ <-2.4 <-9.4

32 1152 5:39:39.4 -2:17:04.5 11.67 M1.5 II 0.29 0.35 3575 <0.6 <0.5 $-2.4\pm0.5$ <-2.4 <-9.3

33 - 5:39:41.0 -2:16:24.4 12.91 M4.5 II 0.10 0.14 3075 <0.4 <0.4 - <-3.2 <-9.8

34 1230 5:39:49.4 -2:23:45.9 13.44 M4.0 II 0.07 0.18 3150 <0.8 <0.8 0.8 ^c <-3.1 <-9.9

35 1248 5:39:51.7 -2:22:47.2 12.60 M5.0 II 0.13 0.12 3000 <0.5 <0.6 - <-2.8 <-9.3

Notes: ^a, ^b Transition disk and evolved disk, respectively, in Hernández et al. (2007). ^c Tentative (2 $\sigma$ ) detection. ^d Type IVr P-Cygni profile: $EW({\rm em})=1.2\pm0.3$ , $EW(\rm abs)=-0.9\pm0.3.$ ^e Tentative type IVr P-Cygni profile (0.6, -0.6).

**Table 1:** Stellar parameters and observed properties.
Obj	Spitz.	RA	Dec	J	ST	Cl.	L_*	M_*	$T_{\rm eff}$	Pa $\beta$	Pa $\gamma$	HeI	$L_{\rm acc}$	$\dot M_{\rm acc}$
#	#	(2000)	(2000)	(mag)			( $L_{\odot}$ )	( $M_\odot$ )	(K)	( $\AA$ )	( $\AA$ )	( $\AA$ )	( $L_{\odot}$ )	( $M_\odot$ /yr)
1	-	5:37:56.1	-2:09:26.7	13.90	M4.5	II	0.04	0.16	3075	<0.5	<0.6	-	<-3.5	<-10.4
2	283	5:37:58.4	-2:41:26.2	13.28	M5.0	III	0.07	0.12	3000	<0.5	<0.4	-	<-3.4	<-10.0
3	451	5:38:18.9	-2:51:38.8	12.83	M3.0	II	0.12	0.25	3350	<0.5	$2.0\pm0.4$	$1.7\pm0.3$	-2.2	-9.1
4	462	5:38:20.5	-2:34:09.0	12.65	M4.0	II	0.13	0.16	3150	<0.4	<0.3	-	<-3.2	<-9.8
5	518	5:38:27.3	-2:45:09.7	11.95	K8.0	II	0.42	0.5	3900	$9.4\pm0.5$	$6.7\pm0.6$	$7.3\pm0.5$	-1.0	-8.1
6	520	5:38:27.5	-2:35:04.2	12.83	M3.5	II	0.12	0.2	3250	<0.6	0.8^c	-	-2.8	-9.6
7	562	5:38:31.4	-2:36:33.8	12.17	M3.0	II	0.19	0.2	3350	$4.9\pm0.4$	$3.6\pm0.3$	$4.7\pm0.3$	-1.5	-8.2
8	563	5:38:31.6	-2:35:14.9	11.52	M2.0	II	0.23	0.3	3500	<0.5	<0.5	$1.8\pm0.5$	<-2.3	<-9.2
9	592	5:38:34.3	-2:35:00.1	11.22	K0.0	III	0.16	0.8	5250	<0.4	<0.4	-	<-2.3	<-10.0
10	598	5:38:34.6	-2:41:08.8	13.10	M4.5	II	0.11	0.14	3075	<0.6	<0.7	-0.8^c	<-3.0	<-9.6
11	611	5:38:35.5	-2:31:51.7	11.30	K7.0	III	0.57	0.5	4000	<0.7	<0.7	-	<-2.0	<-9.0
12	646	5:38:39.0	-2:45:32.2	12.91	M3.5	II	0.10	0.2	3225	<0.4	$0.8\pm0.3$	$-1.8\pm0.4$	-2.8	-9.6
13	-	5:38:39.8	-2:56:46.2	11.43	M0.5	II	0.45	0.4	3725	<0.7	<0.4	$2.8\pm0.3$	<-2.4	<-9.3
14	662	5:38:40.3	-2:30:18.5	11.51	M0.5	II	0.44	0.4	3725	<0.7	0.7^c	-0.7^c	-2.1	-9.0
15	669	5:38:41.3	-2:37:22.6	11.46	M0.0	III	0.44	0.45	3800	<0.7	<0.4	0.7^c	<-2.4	<-9.4
16	682	5:38:42.3	-2:37:14.7	11.77	M1.5	II	0.35	0.3	3575	<0.4	<0.5	-1.2 $\pm0.4$	<-2.5	<-9.3
17	694	5:38:43.9	-2:37:06.8	12.84	M4.5	II	0.1	0.14	3075	<0.4	<0.4	$1.0\pm0.3$	<-3.2	<-9.8
18	697	5:38:44.2	-2:40:19.7	11.36	K7.5	II	0.63	0.45	3950	<0.5	<0.3	$2.1\pm0.3$	<-2.5	<-9.5
19	710	5:38:45.4	-2:41:59.4	11.99	M2.5	II	0.25	0.25	3425	<0.6	$1.3\pm0.3$	0.3^d	-2.0	-8.8
20	723	5:38:47.2	-2:34:36.8	12.56	M3.5	II	0.09	0.2	3250	$3.4\pm0.5$	$2.1\pm0.4$	-	-2.0	-8.9
21	726	5:38:47.5	-2:35:25.2	11.74	M1.5	II	0.42	0.3	3575	$1.1\pm0.3$	$1.4\pm0.3$	0.0^e	-1.8	-8.6
22	733	5:38:47.9	-2:37:19.2	12.02	M2.5	II	0.36	0.25	3425	<0.4	$1.3\pm0.3$	0.6^c	-2.0	-8.7
23	736	5:38:48.0	-2:27:14.2	10.16	K8.0	II	0.83	0.45	3950	<0.6	<0.5	$-1.5\pm0.4$	<-1.6	<-8.5
24	750	5:38:49.3	-2:23:57.6	14.36	M4.5	II	0.03	0.16	3075	<1.2	<1.2	-	<-3.4	<-10.3
25	762	5:38:50.6	-2:42:42.9	13.84	M5.0	II	0.04	0.12	3000	<0.5	<0.7	$2.9\pm0.4$	<-3.4	<-10.1
26	774	5:38:52.0	-2:46:43.7	11.52	K8.0	II	0.44	0.5	3900	<0.5	$1.6\pm0.5$	$5.2\pm0.5$	-1.6	-8.7
27	871	5:39:04.6	-2:41:49.4	13.96	M2	II	0.1	0.3	3500	<1.2	<1.0	$8.5\pm1.0$	<-3.2	<-10.3
28	897	5:39:07.6	-2:32:39.1	11.30	K8.0	II^a	0.6	0.5	3900	<0.7	<0.6	1.2^c	<-2.1	<-9.1
29	908	5:39:08.8	-2:31:11.5	13.07	M4.5	II^b	0.07	0.16	3075	$1.3\pm0.4$	$0.8\pm0.3$	$-1.3\pm0.3$	-2.9	-9.6
30	927	5:39:11.5	-2:31:06.6	11.99	M0.5	II	0.24	0.5	3725	<0.8	<0.7	-	<-2.4	<-9.5
31	984	5:39:18.8	-2:30:53.1	11.40	K9.0	II	0.52	0.45	3850	<0.6	<0.4	- $1.1\pm0.3$	<-2.4	<-9.4
32	1152	5:39:39.4	-2:17:04.5	11.67	M1.5	II	0.29	0.35	3575	<0.6	<0.5	$-2.4\pm0.5$	<-2.4	<-9.3
33	-	5:39:41.0	-2:16:24.4	12.91	M4.5	II	0.10	0.14	3075	<0.4	<0.4	-	<-3.2	<-9.8
34	1230	5:39:49.4	-2:23:45.9	13.44	M4.0	II	0.07	0.18	3150	<0.8	<0.8	0.8 ^c	<-3.1	<-9.9
35	1248	5:39:51.7	-2:22:47.2	12.60	M5.0	II	0.13	0.12	3000	<0.5	<0.6	-	<-2.8	<-9.3

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