taxonID	type	format	identifier	references	title	description	created	creator	contributor	publisher	audience	source	license	rightsHolder	datasetID
03AA87C3FFA51014FF4EDCEDFCBAF9F6.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://zenodo.org/record/5585857/files/figure.png	http://doi.org/10.5281/zenodo.5585857	FIGURE 4. Root habits of Polypleurum. Roots are reproductive (with flowers or fruits borne on flanks, indicating root habit; vegetative in A) and exposed in the dry season.A, B, E, F, adhering roots (W type); C, D, floating roots (S type).A−C. P. wallichii (A = P. wallichii-2, Khao Yai National Park, Thailand; B = P. wallichii-3, Meghalaya, India; C = P. wallichii-1, Koh Kong, Cambodia). D, E. P. stylosum (D, E, Kerala, India). F. Dried-up root remains of P. schmidtianum (at top, light brown) with those of Cladopus fallax (at bottom and right, white gray) in Koh Kong, Cambodia.	FIGURE 4. Root habits of Polypleurum. Roots are reproductive (with flowers or fruits borne on flanks, indicating root habit; vegetative in A) and exposed in the dry season.A, B, E, F, adhering roots (W type); C, D, floating roots (S type).A−C. P. wallichii (A = P. wallichii-2, Khao Yai National Park, Thailand; B = P. wallichii-3, Meghalaya, India; C = P. wallichii-1, Koh Kong, Cambodia). D, E. P. stylosum (D, E, Kerala, India). F. Dried-up root remains of P. schmidtianum (at top, light brown) with those of Cladopus fallax (at bottom and right, white gray) in Koh Kong, Cambodia.	2019-04-10	Kato, Masahiro;Werukamkul, Petcharat;Won, Hyosig;Koi, Satoshi		Zenodo	biologists	Kato, Masahiro;Werukamkul, Petcharat;Won, Hyosig;Koi, Satoshi			
03AA87C3FFA51014FF4EDCEDFCBAF9F6.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://zenodo.org/record/5585851/files/figure.png	http://doi.org/10.5281/zenodo.5585851	FIGURE 1. Bayes phylogenetic consensus tree deduced from matK sequences.Numbers above and below branches are Bayesian posterior probabilities (≥0.80) and bootstrap values (≥50 %) of ML (left) and MP (right), respectively. Single asterisk (*) indicates that specimen JK- Manose is followed by additional specimens with the same sequence, JK-02, JK-Yamazaki, JK-Anraku, JP-127, JK-Mawatari, and CH-02. Double asterisk (**) indicates that specimen CP-07 is followed by additional specimens with the same sequence, CP-22, 24, 27, and 29. For simplicity, species of Hanseniella, Hydrobryum, Hydrodiscus and Thawatchaia examined are united as a single clade (for materials see Appendix). The tree is rooted on a branch between a clade of Cladopus, Hanseniella, Hydrobryum, Hydrodiscus, Paracladopus and Thawatchaia, and a clade of Polypleurum, Griffithella, Hydrobryopsis, Willisia and Zeylanidium.	FIGURE 1. Bayes phylogenetic consensus tree deduced from matK sequences.Numbers above and below branches are Bayesian posterior probabilities (≥0.80) and bootstrap values (≥50 %) of ML (left) and MP (right), respectively. Single asterisk (*) indicates that specimen JK- Manose is followed by additional specimens with the same sequence, JK-02, JK-Yamazaki, JK-Anraku, JP-127, JK-Mawatari, and CH-02. Double asterisk (**) indicates that specimen CP-07 is followed by additional specimens with the same sequence, CP-22, 24, 27, and 29. For simplicity, species of Hanseniella, Hydrobryum, Hydrodiscus and Thawatchaia examined are united as a single clade (for materials see Appendix). The tree is rooted on a branch between a clade of Cladopus, Hanseniella, Hydrobryum, Hydrodiscus, Paracladopus and Thawatchaia, and a clade of Polypleurum, Griffithella, Hydrobryopsis, Willisia and Zeylanidium.	2019-04-10	Kato, Masahiro;Werukamkul, Petcharat;Won, Hyosig;Koi, Satoshi		Zenodo	biologists	Kato, Masahiro;Werukamkul, Petcharat;Won, Hyosig;Koi, Satoshi			
03AA87C3FFA51014FF4EDCEDFCBAF9F6.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://zenodo.org/record/5585853/files/figure.png	http://doi.org/10.5281/zenodo.5585853	FIGURE 2. Bayes phylogenetic consensus tree deduced from ITS sequences. Numbers above and below branches are Bayesian posterior probabilities (≥0.80) and bootstrap values (≥50 %) of ML (left) and MP (right), respectively. For simplicity, species of Hydrobryum examined are united as ‘Hydrobryum species’ (see Appendix). The tree is rooted on a branch between a clade of Cladopus, Hanseniella and Hydrobryum and a clade of Polypleurum, Griffithella, Hydrobryopsis, Willisia and Zeylanidium.	FIGURE 2. Bayes phylogenetic consensus tree deduced from ITS sequences. Numbers above and below branches are Bayesian posterior probabilities (≥0.80) and bootstrap values (≥50 %) of ML (left) and MP (right), respectively. For simplicity, species of Hydrobryum examined are united as ‘Hydrobryum species’ (see Appendix). The tree is rooted on a branch between a clade of Cladopus, Hanseniella and Hydrobryum and a clade of Polypleurum, Griffithella, Hydrobryopsis, Willisia and Zeylanidium.	2019-04-10	Kato, Masahiro;Werukamkul, Petcharat;Won, Hyosig;Koi, Satoshi		Zenodo	biologists	Kato, Masahiro;Werukamkul, Petcharat;Won, Hyosig;Koi, Satoshi			
03AA87C3FFA51014FF4EDCEDFCBAF9F6.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://zenodo.org/record/5585855/files/figure.png	http://doi.org/10.5281/zenodo.5585855	FIGURE 3. Bayes phylogenetic consensus tree deduced from concatenated matK and ITS sequences. Numbers above and below branches are Bayesian posterior probabilities (≥0.80) and bootstrap values (≥50 %) of ML (left) and MP (right), respectively. For simplicity, the species of Hydrobryum, both matK and ITS sequences of which were examined, are united as ‘Hydrobryum species’ (Appendix). C. fallax CAM-13a = LC380594 + LC380635; C. fallax CAM-13b = LC380594 + LC380636; C. fallax CAM-13c = LC380594 + LC380637; C. fallax CAM-19a = LC380595 + LC380638; C. fallax CAM-19b = LC380595 + LC380639; C. taiensis CAM-14a = LC380602 + LC380643; C. fallax CAM-14b = LC380602 + LC380644. The tree is rooted on a branch between a clade of Cladopus, Hanseniella and Hydrobryum, and Polypleurum.	FIGURE 3. Bayes phylogenetic consensus tree deduced from concatenated matK and ITS sequences. Numbers above and below branches are Bayesian posterior probabilities (≥0.80) and bootstrap values (≥50 %) of ML (left) and MP (right), respectively. For simplicity, the species of Hydrobryum, both matK and ITS sequences of which were examined, are united as ‘Hydrobryum species’ (Appendix). C. fallax CAM-13a = LC380594 + LC380635; C. fallax CAM-13b = LC380594 + LC380636; C. fallax CAM-13c = LC380594 + LC380637; C. fallax CAM-19a = LC380595 + LC380638; C. fallax CAM-19b = LC380595 + LC380639; C. taiensis CAM-14a = LC380602 + LC380643; C. fallax CAM-14b = LC380602 + LC380644. The tree is rooted on a branch between a clade of Cladopus, Hanseniella and Hydrobryum, and Polypleurum.	2019-04-10	Kato, Masahiro;Werukamkul, Petcharat;Won, Hyosig;Koi, Satoshi		Zenodo	biologists	Kato, Masahiro;Werukamkul, Petcharat;Won, Hyosig;Koi, Satoshi			
03AA87C3FFA51016FF4ED9F9FADEF9A9.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://zenodo.org/record/5585851/files/figure.png	http://doi.org/10.5281/zenodo.5585851	FIGURE 1. Bayes phylogenetic consensus tree deduced from matK sequences.Numbers above and below branches are Bayesian posterior probabilities (≥0.80) and bootstrap values (≥50 %) of ML (left) and MP (right), respectively. Single asterisk (*) indicates that specimen JK- Manose is followed by additional specimens with the same sequence, JK-02, JK-Yamazaki, JK-Anraku, JP-127, JK-Mawatari, and CH-02. Double asterisk (**) indicates that specimen CP-07 is followed by additional specimens with the same sequence, CP-22, 24, 27, and 29. For simplicity, species of Hanseniella, Hydrobryum, Hydrodiscus and Thawatchaia examined are united as a single clade (for materials see Appendix). The tree is rooted on a branch between a clade of Cladopus, Hanseniella, Hydrobryum, Hydrodiscus, Paracladopus and Thawatchaia, and a clade of Polypleurum, Griffithella, Hydrobryopsis, Willisia and Zeylanidium.	FIGURE 1. Bayes phylogenetic consensus tree deduced from matK sequences.Numbers above and below branches are Bayesian posterior probabilities (≥0.80) and bootstrap values (≥50 %) of ML (left) and MP (right), respectively. Single asterisk (*) indicates that specimen JK- Manose is followed by additional specimens with the same sequence, JK-02, JK-Yamazaki, JK-Anraku, JP-127, JK-Mawatari, and CH-02. Double asterisk (**) indicates that specimen CP-07 is followed by additional specimens with the same sequence, CP-22, 24, 27, and 29. For simplicity, species of Hanseniella, Hydrobryum, Hydrodiscus and Thawatchaia examined are united as a single clade (for materials see Appendix). The tree is rooted on a branch between a clade of Cladopus, Hanseniella, Hydrobryum, Hydrodiscus, Paracladopus and Thawatchaia, and a clade of Polypleurum, Griffithella, Hydrobryopsis, Willisia and Zeylanidium.	2019-04-10	Kato, Masahiro;Werukamkul, Petcharat;Won, Hyosig;Koi, Satoshi		Zenodo	biologists	Kato, Masahiro;Werukamkul, Petcharat;Won, Hyosig;Koi, Satoshi			
03AA87C3FFA51016FF4ED9F9FADEF9A9.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://zenodo.org/record/5585853/files/figure.png	http://doi.org/10.5281/zenodo.5585853	FIGURE 2. Bayes phylogenetic consensus tree deduced from ITS sequences. Numbers above and below branches are Bayesian posterior probabilities (≥0.80) and bootstrap values (≥50 %) of ML (left) and MP (right), respectively. For simplicity, species of Hydrobryum examined are united as ‘Hydrobryum species’ (see Appendix). The tree is rooted on a branch between a clade of Cladopus, Hanseniella and Hydrobryum and a clade of Polypleurum, Griffithella, Hydrobryopsis, Willisia and Zeylanidium.	FIGURE 2. Bayes phylogenetic consensus tree deduced from ITS sequences. Numbers above and below branches are Bayesian posterior probabilities (≥0.80) and bootstrap values (≥50 %) of ML (left) and MP (right), respectively. For simplicity, species of Hydrobryum examined are united as ‘Hydrobryum species’ (see Appendix). The tree is rooted on a branch between a clade of Cladopus, Hanseniella and Hydrobryum and a clade of Polypleurum, Griffithella, Hydrobryopsis, Willisia and Zeylanidium.	2019-04-10	Kato, Masahiro;Werukamkul, Petcharat;Won, Hyosig;Koi, Satoshi		Zenodo	biologists	Kato, Masahiro;Werukamkul, Petcharat;Won, Hyosig;Koi, Satoshi			
03AA87C3FFA51016FF4ED9F9FADEF9A9.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://zenodo.org/record/5585855/files/figure.png	http://doi.org/10.5281/zenodo.5585855	FIGURE 3. Bayes phylogenetic consensus tree deduced from concatenated matK and ITS sequences. Numbers above and below branches are Bayesian posterior probabilities (≥0.80) and bootstrap values (≥50 %) of ML (left) and MP (right), respectively. For simplicity, the species of Hydrobryum, both matK and ITS sequences of which were examined, are united as ‘Hydrobryum species’ (Appendix). C. fallax CAM-13a = LC380594 + LC380635; C. fallax CAM-13b = LC380594 + LC380636; C. fallax CAM-13c = LC380594 + LC380637; C. fallax CAM-19a = LC380595 + LC380638; C. fallax CAM-19b = LC380595 + LC380639; C. taiensis CAM-14a = LC380602 + LC380643; C. fallax CAM-14b = LC380602 + LC380644. The tree is rooted on a branch between a clade of Cladopus, Hanseniella and Hydrobryum, and Polypleurum.	FIGURE 3. Bayes phylogenetic consensus tree deduced from concatenated matK and ITS sequences. Numbers above and below branches are Bayesian posterior probabilities (≥0.80) and bootstrap values (≥50 %) of ML (left) and MP (right), respectively. For simplicity, the species of Hydrobryum, both matK and ITS sequences of which were examined, are united as ‘Hydrobryum species’ (Appendix). C. fallax CAM-13a = LC380594 + LC380635; C. fallax CAM-13b = LC380594 + LC380636; C. fallax CAM-13c = LC380594 + LC380637; C. fallax CAM-19a = LC380595 + LC380638; C. fallax CAM-19b = LC380595 + LC380639; C. taiensis CAM-14a = LC380602 + LC380643; C. fallax CAM-14b = LC380602 + LC380644. The tree is rooted on a branch between a clade of Cladopus, Hanseniella and Hydrobryum, and Polypleurum.	2019-04-10	Kato, Masahiro;Werukamkul, Petcharat;Won, Hyosig;Koi, Satoshi		Zenodo	biologists	Kato, Masahiro;Werukamkul, Petcharat;Won, Hyosig;Koi, Satoshi			
