T.M Bataillon, J.L. David, and D.J Schoen. Neutral genetic markers and conservation genetics: Simulated germplasm collections. Genetics, 144:409417, 1996.  Home/Search   Document Not in Database   Summary   Related Articles   Check

....Table 1: Sampling methods Size Evaluation criteria Sampling methods compared Base Core Passport No.of alleles No. of desirable alleles Genetic background Genetic diversity Predictive accuracy Source R,C,P,L 1358 140 yes yes no no yes no [3] R,C,L,P,M 2500 250 yes yes no no no no [2] R,S,C 2000 200 yes yes no no no no [20] R,C,P,L,Cl 96 10 no yes no no no no [19] R,C,P,L,CAN 3000 500 no yes no no yes no [21] R,E,P 105 10 yes no no no no no [9] R,C,P,L 1240 211 yes no no no no no [8] R,E,C,P L,CAN,PCA PCSS 6300 630 yes yes yes yes yes no [1] Table 2: A review of ....

T.M Bataillon, J.L. David, and D.J Schoen. Neutral genetic markers and conservation genetics: Simulated germplasm collections. Genetics, 144:409417, 1996.

....for some quantitative attributes. Diwan [5] compared R, C, P, L, and six cluster based strategies on 36 species of annual Medicago. They concluded that the cluster based sampling was acceptable, but the relative diversity method within the six cluster based strategies was better. Bataillon et al. [1] conducted a simulation experiment to study the use of neutral genetic markers to guide sampling from a large data base. Two types of loci were simulated: a) selectively neutral loci and (b) loci under selection. One to 20 neutral loci were used to compare M, L, P, R and C strategies. The M ....

T.M Bataillon, J.L. David, and D.J Schoen. Neutral genetic markers and conservation genetics: Simulated germplasm collections. Genetics, 144:409--417, 1996.

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