「Supplementary data」の版間の差分

提供: 広島大学デジタル博物館
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*[[Phan_Nakahara-Tsubota_Inoue_Tsubota_2021|Phan, Q. C., Nakahara-Tsubota, M., Inoue, Y. & Tsubota, H.  2021.  New record of ''Dysphania pumilio'' (Amaranthaceae) for Hiroshima Prefecture, southwest Japan.  Hikobia 18: 145-156.]]
 
*[[Phan_Nakahara-Tsubota_Inoue_Tsubota_2021|Phan, Q. C., Nakahara-Tsubota, M., Inoue, Y. & Tsubota, H.  2021.  New record of ''Dysphania pumilio'' (Amaranthaceae) for Hiroshima Prefecture, southwest Japan.  Hikobia 18: 145-156.]]
 
**Supplementary figures
 
**Supplementary figures
***Fig. S1.  Phylogenetic tree of the family Amaranthaceae based on the nuclear ribosomal internal transcribed spacer (ITS) region, depicted by RAxML-NG version 0.9.0git.  The evolutionary history was inferred by using the maximum likelihood method based on the SYM + I + G model.  Accession numbers were listed behind each name.  Statistical support values more than 50 % obtained by RAxML-NG for bootstrap probabilities (BP) with 10,000 replicates and BEAST for Bayesian posterior probabilities (PP) with 10,000,000 replicates are shown on or near nodes (BP/PP).  The tree was rooted at the midpoint.  The pdf of Supplementary Figure S1 can be downloadable via the web link https://www.digital-museum.hiroshima-u.ac.jp/~main/index.php/Supplementary_data.
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***[[File:FigS1_Phan_et_al_2021_Hikobia.pdf]] Fig. S1.  Phylogenetic tree of the family Amaranthaceae based on the nuclear ribosomal internal transcribed spacer (ITS) region, depicted by RAxML-NG version 0.9.0git.  The evolutionary history was inferred by using the maximum likelihood method based on the SYM + I + G model.  Accession numbers were listed behind each name.  Statistical support values more than 50 % obtained by RAxML-NG for bootstrap probabilities (BP) with 10,000 replicates and BEAST for Bayesian posterior probabilities (PP) with 10,000,000 replicates are shown on or near nodes (BP/PP).  The tree was rooted at the midpoint.  The pdf of Supplementary Figure S1 can be downloadable via the web link https://www.digital-museum.hiroshima-u.ac.jp/~main/index.php/Supplementary_data.
 
***Fig. S2.  Phylogenetic tree of the family Amaranthaceae based on the chloroplast ribulose-1,5-bisphosphate carboxylase/oxygenase large-subunit (rbcL) gene sequence, depicted by RAxML-NG version 0.9.0git.  The evolutionary history was inferred by using the maximum likelihood method based on the TVM + I + G model.  Accession numbers were listed behind each name.  Statistical support values more than 50 % obtained by RAxML-NG for bootstrap probabilities (BP) with 10,000 replicates and BEAST for Bayesian posterior probabilities (PP) with 10,000,000 replicates are shown on or near nodes (BP/PP).  The tree was rooted at the midpoint.  The pdf of Supplementary Figure S2 can be downloadable via the web link https://www.digital-museum.hiroshima-u.ac.jp/~main/index.php/Supplementary_data.
 
***Fig. S2.  Phylogenetic tree of the family Amaranthaceae based on the chloroplast ribulose-1,5-bisphosphate carboxylase/oxygenase large-subunit (rbcL) gene sequence, depicted by RAxML-NG version 0.9.0git.  The evolutionary history was inferred by using the maximum likelihood method based on the TVM + I + G model.  Accession numbers were listed behind each name.  Statistical support values more than 50 % obtained by RAxML-NG for bootstrap probabilities (BP) with 10,000 replicates and BEAST for Bayesian posterior probabilities (PP) with 10,000,000 replicates are shown on or near nodes (BP/PP).  The tree was rooted at the midpoint.  The pdf of Supplementary Figure S2 can be downloadable via the web link https://www.digital-museum.hiroshima-u.ac.jp/~main/index.php/Supplementary_data.
  

2021年12月27日 (月) 13:29時点における版

Supplementary data

Hikobia