(PDF) Figure S4: Inferring Optimal Number of Genetic

Figure S4: Inferring Optimal Number of Genetic Clusters From STRUCTURE Analysis Based on Distribution of Pr(K) at K Ranging From 1 to 6

doi 10.7717/peerj.8598/supp-6

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Figure S1: Structure Plots for K = 1 to K = 6

English

Figure S2: Plot of DIC Against the Number of K Clusters, and Tess Plots for K = 2 to K = 6

English

Figure 5: Determination of the Optimal Number of K (Clusters-Genetic Groups) in Apple by the Bayesian Method, With Data From Nine ISSR Markers.

English

Figure 6: Bayesian Clustering as Determined by STRUCTURE Analysis of Nuclear Microsatellite Data at K = 2 − 5. (A) Structure With K = 2; (B) Structure With K = 3; (C) Structure With K = 4; (D) Structure With K = 5.

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Wettability of Ceramics With Molten Silicon at Temperatures Ranging From 1693 to 1773 K

Materials Transactions, JIM

2000

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Figure 3: Distribution of the K-Means Optimal Partition in 15 Clusters Along the Altitudinal Gradient.

English

Estimating the Optimal Number of Clusters K in a Dataset Using Data Depth

Data Science and Engineering

Computational Mechanics

Computer Science Applications

2019

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Figure 4: Genetic Structure Analyses of 25 Training Populations at K = 2–5 (A) and Cross-Validation Error of Each K Value (B) Based on 48 SNPs.

English

Thermodynamics of Copper Sulfides IV. Heat Capacity and Thermodynamic Properties of Cu1.90S From 5 K to 750 K, Cu1.95S From 5 K to 1000 K, Cu1.98S From 300 K to 1000 K, and Cu1.995S From 300 K to 750 K

Journal of Chemical Thermodynamics

Materials Science

Molecular Physics,

Theoretical Chemistry

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Amanote Research

Figure S4: Inferring Optimal Number of Genetic Clusters From STRUCTURE Analysis Based on Distribution of Pr(K) at K Ranging From 1 to 6

doi 10.7717/peerj.8598/supp-6

Full Text

Abstract

Date

Authors

Publisher

Related search

Figure S1: Structure Plots for K = 1 to K = 6

Figure S2: Plot of DIC Against the Number of K Clusters, and Tess Plots for K = 2 to K = 6

Figure 5: Determination of the Optimal Number of K (Clusters-Genetic Groups) in Apple by the Bayesian Method, With Data From Nine ISSR Markers.

Figure 6: Bayesian Clustering as Determined by STRUCTURE Analysis of Nuclear Microsatellite Data at K = 2 − 5. (A) Structure With K = 2; (B) Structure With K = 3; (C) Structure With K = 4; (D) Structure With K = 5.

Wettability of Ceramics With Molten Silicon at Temperatures Ranging From 1693 to 1773 K

Figure 3: Distribution of the K-Means Optimal Partition in 15 Clusters Along the Altitudinal Gradient.

Estimating the Optimal Number of Clusters K in a Dataset Using Data Depth

Figure 4: Genetic Structure Analyses of 25 Training Populations at K = 2–5 (A) and Cross-Validation Error of Each K Value (B) Based on 48 SNPs.

Thermodynamics of Copper Sulfides IV. Heat Capacity and Thermodynamic Properties of Cu1.90S From 5 K to 750 K, Cu1.95S From 5 K to 1000 K, Cu1.98S From 300 K to 1000 K, and Cu1.995S From 300 K to 750 K