Biology Reference
In-Depth Information
785.3
f
123_2002
21
31
0.03
146.7
78.5
420
131
infinite
10
9
e
124_1999
11
34
0.05
447.7
43.4
infinite
2.15
1
infinite
45.2
f
128_1999
13
24
0.04
28
19.7
156
64
infinite
51.9
f
133_2002
15
20
0.04
34.7
25.5
210
83
infinite
142.7
f
134_1999
14
32
0.04
54.8
32.6
364
95
infinite
135_1999
65
132
0.02
240
178.1
359.2
208
147
310
135_2002
72
85
0.02
184.5
147.4
242.7
173
125
246
140_1998
23
31
0.03
40.7
31.9
54.6
67
36
195
140_2002
14
20
0.04
183.2
57.6
infinite
364
113
infinite
1590.5
e
148_1998
13
23
0.04
78.9
infinite
312
101
infinite
148_2002
22
24
0.03
89.1
57.2
185.3
185
89
12,788
94.5
f
152_1998
12
22
0.05
37.9
22.6
132
47
infinite
a
Household identification numbers correspond to those in Figure 2 of Criscione and colleagues.
41
b
The number of worms that were genotyped at 23 microsatellite markers per household-by-year. Raw data are from Criscione and colleagues.
41
c
The total number of worms collected per household-by-year after albendazole treatment. See Criscione and colleagues
41
for details of sampling.
d
Alleles with frequencies below this value were omitted when estimating
N
e
with the LD method.
56
e
Negative or 2.15
10
9
estimates of
N
e
are regarded as infinite (see text for explanation).
56
f
The LD-
N
e
method had an upper bound for the 95%CI for the given allele frequency cutoff, but at other cutoffs, estimates typically included infinity as the upper bound. In contrast, LD-
N
e
estimates in shaded rows often provided bounded CI even at other allele frequency cutoffs.
The jackknife method was used for the LD interval
55
and the SA interval is estimated in the program.
67
Estimates were generated with the programs
LDNE
66
and
COLONY
,
67
respectively. The 13 shaded rows highlight where both estimators yielded
N
e
estimates bounded by confidence intervals.
