Journal article
Zorger BB, Matos IS, Bondi L, Nunes Y, Moraes YC, Amorim T, Rosado BHP
Plant Biology, 2025
Plant Biology, 2025
DOI:
[accepted]
Cite
Cite
APA
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BB, Z., IS, M., L, B., Y, N., YC, M., T, A., & BHP, R. (2025). Vegetation vulnerability to drought is driven by either higher drought sensitivity or lower fog exposure in tropical cloud-ecosystems. Plant Biology. https://doi.org/[accepted]
Chicago/Turabian
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BB, Zorger, Matos IS, Bondi L, Nunes Y, Moraes YC, Amorim T, and Rosado BHP. “Vegetation Vulnerability to Drought Is Driven by Either Higher Drought Sensitivity or Lower Fog Exposure in Tropical Cloud-Ecosystems.” Plant Biology (2025).
MLA
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BB, Zorger, et al. “Vegetation Vulnerability to Drought Is Driven by Either Higher Drought Sensitivity or Lower Fog Exposure in Tropical Cloud-Ecosystems.” Plant Biology, 2025, doi:[accepted].
BibTeX Click to copy
@article{zorger2025a,
title = {Vegetation vulnerability to drought is driven by either higher drought sensitivity or lower fog exposure in tropical cloud-ecosystems},
year = {2025},
journal = {Plant Biology},
doi = {[accepted]},
author = {BB, Zorger and IS, Matos and L, Bondi and Y, Nunes and YC, Moraes and T, Amorim and BHP, Rosado}
}