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Tall Borneo Dipterocarps Withstand Drought, Study Finds

Anatomical changes such as wider basal xylem compensate for extra water resistance in these trees, limiting the result to the Dipterocarpaceae.

Overview

  • A peer-reviewed paper published July 2 reports that very tall dipterocarp trees in Borneo were not more hydraulically impaired by drought than shorter conspecifics.
  • The team sampled 38 trees across five dipterocarp species, ranging about 7.7 to 71 meters tall, and measured 25 traits linked to water transport.
  • Researchers used climbers and pre-dawn instrument work to sample leaves, branches and trunks at multiple heights so they could capture trees at peak hydration.
  • The study found two main compensations in taller trees: wider basal xylem (the water-carrying vessels) and higher leaves that tolerate greater dehydration before wilting.
  • Authors say the findings suggest dipterocarp forests may retain carbon storage through drought but stress that results are family-specific and need testing across other tree groups and regions.