Leaf adaptations of evergreen and deciduous trees of semi-arid and humid savannas on three continents

K.W. Tomlinson, L. Poorter, F.J. Sterck, M. Borghetti, D. Ward, S. de Bie, F. van Langevelde

Research output: Contribution to journalArticleAcademicpeer-review

69 Citations (Scopus)


1. Drought stress selects for a suite of plant traits at root, stem and leaf level. Two strategies are proposed for trees growing in seasonally water-stressed environments: drought tolerance and drought avoidance. These are respectively associated with evergreen phenology, where plants retain their leaves throughout the year, and deciduous phenology, where plants drop their leaves during dry seasons. Evergreen species are thought to have leaf traits supporting lower photosynthesis and transpiration rates, in order to conserve water during dry periods. 2. We evaluated 18 morphological, chemical and physiological leaf traits of 51 abundant savanna tree species that differed in leaf habit (deciduous and evergreen), selected from two climate types (semi-arid and humid) in three continents (Australia, Africa and South America) (annual rainfall range: 500–1550 mm), and grown in a common garden experiment. We hypothesised that evergreen species have more conservative water use and differ more across climate types than deciduous species because evergreen species are forced to endure extended water deficits during dry seasons. 3. Trait shifts between semi-arid and humid savannas did not differ between evergreen and deciduous species. 4. Evergreen species had similar assimilation rates but lower photosynthetic water-use efficiency (PWUE) than deciduous species, possibly to extend their leaf lifespans by protecting their photosynthetic machinery from overheating through evaporative cooling. 5. Species of humid and semi-arid environments did not differ with respect to assimilation rate or PWUE, but semi-arid species did have smaller leaf sizes and greater leaf potassium and phosphorus concentrations. These traits may enable semi-arid species to maximize growth during episodes of favourable moisture availability. 6. Species from the three continents differed in their leaf traits. These probably reflect the greater proportion of evergreen species in Australia as compared to the other continents and generally infertile soils in the South American sampling sites compared to the wider fertility range in the African sites. 7. Synthesis: Water stress in savannas does not select for more conservative water use, but may select for rapid adjustment to prevailing water conditions and for heat avoidance mechanisms.
Original languageEnglish
Pages (from-to)430-440
JournalJournal of Ecology
Issue number2
Publication statusPublished - 2013


  • carbon-isotope ratios
  • functional traits
  • tropical forest
  • water relations
  • life-span
  • growth-responses
  • seedling growth
  • atmospheric co2
  • root morphology
  • high-rainfall


Dive into the research topics of 'Leaf adaptations of evergreen and deciduous trees of semi-arid and humid savannas on three continents'. Together they form a unique fingerprint.

Cite this