Phyllosticta rizhaoensis sp. nov. causing leaf blight of Ophiopogon japonicus in China

Fungal systematics and evolution Pub Date : 2023-01-01 DOI:10.3114/fuse.2023.11.03-supp

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Abstract

Suppplementary information:
Fig. S1. Phylogenetic tree obtained by ML analyses using ITS sequence data of Phyllosticta concentrica species complex. Numbers above the branches indicate ML bootstraps (left, ML ≥ 50 %) and Bayesian Posterior Probabilities (right, BPP ≥ 0.9). The tree is rooted with Botryosphaeria stevensii (CBS 112553) and B. obtusa (CMW 8232). Ex-type strains are indicated in bold. Isolates from the present study are marked in blue.
Fig. S2. Phylogenetic tree obtained by ML analyses using LSU sequence data of the Phyllosticta concentrica species complex. Numbers above the branches indicate ML bootstraps (left, ML ≥ 50 %) and Bayesian Posterior Probabilities (right, BPP ≥ 0.9). The tree is rooted with Botryosphaeria stevensii (CBS 112553). Ex-type strains are indicated in bold. Isolates from the present study are marked in blue.
Fig. S3. Phylogenetic tree obtained by ML analyses using tef sequence data of the Phyllosticta concentrica species complex. Numbers above the branches indicate ML bootstraps (left, ML ≥ 50 %) and Bayesian Posterior Probabilities (right, BPP ≥ 0.9). The tree is rooted with Botryosphaeria obtusa (CMW 8232). Ex-type strains are indicated in bold. Isolates from the present study are marked in blue.
Fig. S4. Phylogenetic tree obtained by ML analyses using act sequence data of the Phyllosticta concentrica species complex. Numbers above the branches indicate ML bootstraps (left, ML ≥ 50 %) and Bayesian Posterior Probabilities (right, BPP ≥ 0.9). The tree is rooted with Botryosphaeria stevensii (CBS 112553) and B. obtusa (CMW 8232). Extype strains are indicated in bold. Isolates from the present study are marked in blue.
Table S1. Morphological comparison of species in the P. concentrica species complex.

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补充信息: 图S1。利用集中毛竹种复合体ITS序列数据进行ML分析得到系统发育树。分支上方的数字表示ML自举(左，ML≥50%)和贝叶斯后验概率(右，BPP≥0.9)。该树的根是Botryosphaeria stevensii (CBS 112553)和B. obtusa (CMW 8232)。前型菌株以粗体表示。本研究分离的菌株用蓝色标记。 图S2。利用集中毛竹种复合体LSU序列数据进行ML分析得到系统发育树。分支上方的数字表示ML自举(左，ML≥50%)和贝叶斯后验概率(右，BPP≥0.9)。这棵树的根是Botryosphaeria stevensii (CBS 112553)。前型菌株以粗体表示。本研究分离的菌株用蓝色标记。 图S3。利用集中毛竹种复合体的tef序列数据进行ML分析得到系统发育树。分支上方的数字表示ML自举(左，ML≥50%)和贝叶斯后验概率(右，BPP≥0.9)。这棵树的根是Botryosphaeria obtusa (CMW 8232)。前型菌株以粗体表示。本研究分离的菌株用蓝色标记。 图S4。利用集中毛竹种复合体的动作序列数据进行ML分析得到系统发育树。分支上方的数字表示ML自举(左，ML≥50%)和贝叶斯后验概率(右，BPP≥0.9)。该树的根是Botryosphaeria stevensii (CBS 112553)和B. obtusa (CMW 8232)。外型菌株以粗体表示。本研究分离的菌株用蓝色标记。 表S1。同心木种复合体中种的形态比较。

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Fungal systematics and evolution

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