Gold and Richardson: Population structure of Seriola dumerili 
771 
Table 2 
Spatial distribution of mitochondrial (mt)DNA haplotypes of greater amberjack (Seriola dumerili). Letters (from left to right) are 
digestion patterns for ApaLI, Apal, EcoRI, EcoRW, Hindlll, Hpal , Ncol, Pstl, Pvull , Seal, Smal, Spel, SspI, Sstl, Stul , and Xbal. 
Haplotype 
no. 
Composite mtDNA 
genotype 
Samples 
PA 
FP 
PF 
GP 
PN 
PC 
SP 
SR 
FK 
NS 
SC 
i 
AAAAAAAAAAAAAAAA 
7 
10 
8 
2 
5 
8 
12 
7 
4 
8 
6 
2 
AAAABBAAAAAAAAAA 
4 
4 
3 
— 
1 
2 
3 
— 
3 
2 
1 
3 
AAAAABAAAAAAAABA 
3 
2 
3 
— 
3 
1 
1 
— 
4 
4 
1 
4 
AAAAABAAAAAAAAAA 
15 
9 
10 
1 
5 
11 
4 
10 
10 
9 
7 
5 
AABBABAAAABAABAA 
— 
1 
— 
— 
3 
— 
— 
1 
— 
— 
— 
6 
AAAAAAAAAAAAAABA 
8 
4 
2 
1 
— 
4 
4 
5 
10 
6 
10 
7 
AAAAAAAAAAABAAAA 
— 
— 
— 
— 
— 
— 
— 
1 
— 
— 
— 
9 
BABAAAAAAACAAABA 
— 
— 
— 
1 
— 
— 
— 
1 
1 
— 
— 
10 
BAAAABBBAAAAAAAA 
— 
— 
1 
— 
— 
2 
— 
1 
— 
— 
— 
11 
BABAAAAAAAAAAABA 
1 
1 
2 
— 
— 
1 
1 
1 
— 
1 
1 
12 
AAAAAAAAABACAAAA 
— 
— 
— 
— 
— 
— 
— 
1 
— 
2 
— 
13 
AAAAAAAAABABAAAA 
7 
4 
4 
2 
1 
12 
7 
2 
10 
15 
6 
15 
AAAAAAAAAAAABABA 
— 
— 
1 
— 
— 
1 
— 
1 
— 
— 
— 
17 
AAAAABAABAAAAAAC 
— 
— 
— 
— 
1 
— 
— 
— 
— 
— 
— 
19 
AAAAABACAAAAAAAA 
— 
- 
— 
— 
1 
— 
— 
— 
— 
— 
— 
20 
AAAAAAAAAAAAAABB 
— 
— 
— 
— 
1 
— 
— 
— 
— 
— 
— 
21 
AAAAABABAAAAAAAA 
— 
1 
— 
— 
1 
1 
— 
— 
— 
— 
— 
22 
ABAACAAACBAAAABA 
— 
— 
— 
— 
1 
— 
— 
— 
— 
— 
— 
23 
AABAABAAAAAAAAAA 
3 
1 
2 
— 
1 
1 
— 
— 
— 
— 
— 
24 
BAAAAAAAAAAABABA 
— 
1 
25 
AAAAAAAAACABCAAA 
— 
— 
— 
— 
— 
— 
— 
— 
2 
— 
— 
26 
BAAABAAAAAAAAAAA 
— 
1 
27 
ABAACAAACAAAACBA 
1 
28 
AAAAAAAAABAAAAAA 
— 
2 
— 
— 
— 
— 
1 
— 
— 
— 
— 
29 
AAAACAAAAAAAAABA 
— 
1 
30 
AAAABBAAAAAAACAA 
— 
— 
1 
— 
— 
— 
— 
— 
— 
— 
— 
31 
AAAAABBAAAAAAAAA 
— 
1 
32 
AAAACAAAADDDAABD 
— 
1 
1 
— 
— 
— 
— 
— 
— 
— 
— 
33 
AAABAAAAAAAAAAAA 
1 
— 
— 
— 
— 
1 
— 
— 
— 
— 
— 
34 
AACAAAAAABABAAAA 
2 
35 
AAAAABAAAAAAAACA 
1 
— 
— 
— 
— 
— 
1 
1 
1 
— 
— 
36 
BABAABAAAAAAAABA 
1 
1 
37 
ABAACAAACAAAAABA 
1 
— 
2 
— 
— 
— 
2 
— 
4 
1 
— 
38 
AAAAAAAAACABAAAA 
1 
— 
— 
— 
— 
1 
— 
— 
— 
1 
— 
39 
AABACCAAADDDAABD 
1 
— 
40 
AAAAABAAAAAACAAA 
— 
— 
— 
— 
— 
— 
1 
— 
— 
1 
— 
41 
ABAAAAAAABABAAAA 
1 
— 
42 
AAAAABAAAAAABAAA 
— 
— 
— 
— 
— 
— 
— 
— 
1 
— 
— 
43 
AAAAABAAAAAAAAAE 
— 
— 
— 
— 
— 
1 
— 
— 
— 
— 
— 
44 
AAAAABCAAAAAAABA 
— 
— 
1 
— 
— 
1 
— 
— 
— 
— 
— 
45 
AAAAABCAAAAAAAAA 
— 
— 
1 
— 
— 
1 
— 
— 
— 
— 
— 
46 
AAAACCAAADDDCABD 
1 
— 
— 
— 
— 
1 
— 
— 
— 
— 
— 
47 
AAAAABAAAABAABAA 
— 
— 
— 
— 
— 
— 
— 
— 
1 
— 
— 
48 
AAAAABAAAAAAACAA 
1 
2 
— 
— 
— 
— 
2 
— 
2 
1 
— 
49 
AAAAABAAABABAAAA 
— 
— 
1 
— 
— 
— 
— 
— 
— 
— 
— 
50 
AAAAABAAABAAAAAA 
— 
— 
— 
— 
— 
— 
1 
— 
— 
— 
— 
51 
AAAACAAACAAAAABA 
— 
— 
— 
— 
— 
— 
1 
— 
— 
— 
1 
52 
AABAABAAAABAABAA 
1 
53 
AAAACAAAAAADAAAD 
— 
— 
— 
— 
— 
— 
1 
— 
— 
— 
— 
the percentage nucleotide-sequence divergence 
among the 49 haplotypes ranged from 0.156 to 2.623 
(mean ±SE=0.980 ±0.015). MtDNA nucleon diversity 
was 0.905, and intrapopulational nucleotide sequence 
diversity was 0.548 ±0.412 (mean ±SD). The latter 
estimates were based on all 444 individuals surveyed. 
Nucleon diversity within samples (Table 3) ranged 
from 0.845 in the sample from Sarasota, Florida, to 
