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IRMNG taxon details

Thigmothrix Rotterová et al., 2020

11933782  (urn:lsid:irmng.org:taxname:11933782)

accepted
Genus
marine, brackish, fresh, terrestrial
recent only
Rotterová, J.; Salomaki, E.; Pánek, T.; Bourland, W.; Žihala, D.; Táborský, P.; Edgcomb, V. P.; Beinart, R. A.; Kolísko, M.; Čepička, I. (2020). Genomics of new ciliate lineages provides insight into the evolution of obligate anaerobiosis. <em>Current Biology.</em> 30(11): 2037-2050.e6., available online at https://doi.org/10.1016/j.cub.2020.03.064 [details] 
IRMNG (2024). Thigmothrix Rotterová et al., 2020. Accessed at: https://www.irmng.org/aphia.php?p=taxdetails&id=11933782 on 2024-11-23
Date
action
by
2024-01-21 03:01:58Z
created

original description Rotterová, J.; Salomaki, E.; Pánek, T.; Bourland, W.; Žihala, D.; Táborský, P.; Edgcomb, V. P.; Beinart, R. A.; Kolísko, M.; Čepička, I. (2020). Genomics of new ciliate lineages provides insight into the evolution of obligate anaerobiosis. <em>Current Biology.</em> 30(11): 2037-2050.e6., available online at https://doi.org/10.1016/j.cub.2020.03.064 [details] 

basis of record Rotterová, J.; Salomaki, E.; Pánek, T.; Bourland, W.; Žihala, D.; Táborský, P.; Edgcomb, V. P.; Beinart, R. A.; Kolísko, M.; Čepička, I. (2020). Genomics of new ciliate lineages provides insight into the evolution of obligate anaerobiosis. <em>Current Biology.</em> 30(11): 2037-2050.e6., available online at https://doi.org/10.1016/j.cub.2020.03.064 [details] 

verified source for family Rotterová, J.; Salomaki, E.; Pánek, T.; Bourland, W.; Žihala, D.; Táborský, P.; Edgcomb, V. P.; Beinart, R. A.; Kolísko, M.; Čepička, I. (2020). Genomics of new ciliate lineages provides insight into the evolution of obligate anaerobiosis. <em>Current Biology.</em> 30(11): 2037-2050.e6., available online at https://doi.org/10.1016/j.cub.2020.03.064 [details] 

name verified source Rotterová, J.; Salomaki, E.; Pánek, T.; Bourland, W.; Žihala, D.; Táborský, P.; Edgcomb, V. P.; Beinart, R. A.; Kolísko, M.; Čepička, I. (2020). Genomics of new ciliate lineages provides insight into the evolution of obligate anaerobiosis. <em>Current Biology.</em> 30(11): 2037-2050.e6., available online at https://doi.org/10.1016/j.cub.2020.03.064 [details] 

current name source Rotterová, J.; Salomaki, E.; Pánek, T.; Bourland, W.; Žihala, D.; Táborský, P.; Edgcomb, V. P.; Beinart, R. A.; Kolísko, M.; Čepička, I. (2020). Genomics of new ciliate lineages provides insight into the evolution of obligate anaerobiosis. <em>Current Biology.</em> 30(11): 2037-2050.e6., available online at https://doi.org/10.1016/j.cub.2020.03.064 [details] 

extant flag source Rotterová, J.; Salomaki, E.; Pánek, T.; Bourland, W.; Žihala, D.; Táborský, P.; Edgcomb, V. P.; Beinart, R. A.; Kolísko, M.; Čepička, I. (2020). Genomics of new ciliate lineages provides insight into the evolution of obligate anaerobiosis. <em>Current Biology.</em> 30(11): 2037-2050.e6., available online at https://doi.org/10.1016/j.cub.2020.03.064 [details] 

habitat flag source Rotterová, J.; Salomaki, E.; Pánek, T.; Bourland, W.; Žihala, D.; Táborský, P.; Edgcomb, V. P.; Beinart, R. A.; Kolísko, M.; Čepička, I. (2020). Genomics of new ciliate lineages provides insight into the evolution of obligate anaerobiosis. <em>Current Biology.</em> 30(11): 2037-2050.e6., available online at https://doi.org/10.1016/j.cub.2020.03.064 [details] 

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