André Giles, Lucy Rowland, Paulo Bittencourt, et al. Small understorey trees have greater capacity than canopy trees to adjust hydraulic traits following prolonged drought in a tropical forest. Authorea. Preprint. doi: 10.22541/au.160226451.10083614/v1

Rowland et al. 2020 wordcloudRowland, L, da Costa, ACL, Oliveira, RS, et al. The response of carbon assimilation and storage to long‐term drought in tropical trees is dependent on light availability. Funct Ecol. 2021; 35: 4353.

Bartholomew et al. 2020 PCE wordcloudBartholomew, DC, Bittencourt, PRL, da Costa, ACL, et al. Small tropical forest trees have a greater capacity to adjust carbon metabolism to long‐term drought than large canopy trees. Plant Cell Environ. 2020; 43: 23802393.

Bittencourt et al. 2020 GCB wordcloudBittencourt, PRL, Oliveira, RS, da Costa, ACL, et al. Amazonia trees have limited capacity to acclimate plant hydraulic properties in response to long‐term drought. Glob Change Biol. 2020; 26: 35693584.


Bartholomew et al. 2018 Biological Conservation wordcloudBartholomew DC, Mangel JC, Alfaro-Shigueto J, Pingo S, Jimenez A, Godley BJ. Remote electronic monitoring as a potential alternative to on-board observers in small-scale fisheries. Biological Conservation, 219, 35-45.


Williams et al. 2017 Afr J Ecol wordcloudWilliams HF, Bartholomew DC, Amakobe B, Githiru M. Environmental factors affecting the distribution of African elephants in the Kasigau wildlife corridor, SE Kenya. Afr J Ecol. 2017;00:1–9.


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