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Drought decreases water storage capacity of two arboreal epiphytes with differing ecohydrological traits.

Journal article

Althea F. P. Moore, Jalayna Antoine, Laura I Bedoya, Ann Medina, C. Buck, John T. Van Stan, S. Gotsch
Science of the Total Environment, 2023
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APA   Click to copy
Moore, A. F. P., Antoine, J., Bedoya, L. I., Medina, A., Buck, C., Stan, J. T. V., & Gotsch, S. (2023). Drought decreases water storage capacity of two arboreal epiphytes with differing ecohydrological traits. Science of the Total Environment.

Chicago/Turabian   Click to copy
Moore, Althea F. P., Jalayna Antoine, Laura I Bedoya, Ann Medina, C. Buck, John T. Van Stan, and S. Gotsch. “Drought Decreases Water Storage Capacity of Two Arboreal Epiphytes with Differing Ecohydrological Traits.” Science of the Total Environment (2023).

MLA   Click to copy
Moore, Althea F. P., et al. “Drought Decreases Water Storage Capacity of Two Arboreal Epiphytes with Differing Ecohydrological Traits.” Science of the Total Environment, 2023.

BibTeX   Click to copy 

@article{althea2023a,
  title = {Drought decreases water storage capacity of two arboreal epiphytes with differing ecohydrological traits.},
  year = {2023},
  journal = {Science of the Total Environment},
  author = {Moore, Althea F. P. and Antoine, Jalayna and Bedoya, Laura I and Medina, Ann and Buck, C. and Stan, John T. Van and Gotsch, S.}
}