[This dataset is embargoed until September 30, 2027]. This data comprises key hydraulic and photosynthetic traits, nutrient concentration and plant structure for savanna species (trees, shrubs, grasses and herbaceous) of the Cerrado, collected in the Chapada dos Veadeiros National Park (PNCV; 14°05' S, 47°40' W), located in the central plateau region of Brazil in 2021. These data were collected throughout May-September 2021 on 19 woody species across 11 botanical families, and for 20 monocot species across 6 botanical families, including grasses, herbs and Velloziaceae. 32 plant functional traits were measured on the 19 woody species, and 17 plant functional traits were measured on the 20 monocot species. Trait collections followed standardised published methodologies. The aim of this data was to assess the functional trait space occupied by Cerrado species and whether they differed according to vegetation type, and whether certain species or plants from certain environments were more or less resistant to drought stress. This research was supported by Natural Environment Research Council (Grant: NE/S000011/1). Full details about this dataset can be found at https://doi.org/10.5285/e8cff3f4-60e5-46cf-a4d0-0f7ecf222ae4

[This dataset is embargoed until December 31, 2026]. This dataset comprises 25 traits related to plant hydraulic function and wood anatomy for 38 individual trees of five dipterocarp species from a site in Borneo. Traits were measured at multiple positions along each tree: at the bottom and the top of the trunk, then at 3 positions along a lower, a middle, and an upper branch in the crown of the tree - so 12 measurement points per tree for the traits. The trees that were measured ranged in height from 7.7 to 71 m in height. These data were all collected following standardised methodologies for each trait sampled and they were all collected during one very large field campaign which took place during 2022. Following this anatomy samples and data were processed. The aim of this data set was to test whether tree height alters the water transport system of trees to make them more vulnerable to the impacts of drought. Full details about this dataset can be found at https://doi.org/10.5285/6ecfd160-4740-491e-a8b3-8cbb3a4c8701