Publication
Type of publication: | Article | |||||||||
Entered by: | ||||||||||
Title | High-throughput phenotyping reveals differential transpiration behavior within the banana wild relatives highlighting diversity in drought tolerance | |||||||||
Bibtex cite ID | EYLAND:2022 | |||||||||
Journal | Plant, Cell & Environment | |||||||||
Year published | 2022 | |||||||||
Pages | 1-17 | |||||||||
ISSN | 0140-7791 | |||||||||
Note | EAHub; Science Area BPB; RTB; Banana; First published 16 March 2022 | |||||||||
URL | https://doi.org/10.1111/pce.14310 | |||||||||
DOI | 10.1111/pce.14310 | |||||||||
Peer Reviewed? | Yes | |||||||||
In Thomson Index? | Yes | |||||||||
Developing Country Author? | No | |||||||||
Make Attachment Public? | TRUE | |||||||||
Authors |
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Topics | ||||||||||
BibTeX | BibTeX | |||||||||
RIS | RIS | |||||||||
Total mark: | 5 | |||||||||
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