Warming increases the sensitivity of seedling growth capacity to rainfall in six temperate deciduous tree species

Vikki L. Rodgers, Nicholas G. Smith, Susanne S. Hoeppner, Jeffrey S. Dukes

Research output: Contribution to journalArticlepeer-review

11 Scopus citations


Predicting the effects of climate change on tree species and communities is critical for understanding the future state of our forested ecosystems. We used a fully factorial precipitation (three levels; ambient, -50 % ambient, +50 % ambient) by warming (four levels; up to +4 °C) experiment in an old-field ecosystem in the northeastern USA to study the climatic sensitivity of seedlings of six native tree species. We measured whole plant-level responses: survival, total leaf area (TLA), seedling insect herbivory damage, as well as leaf-level responses: specific leaf area (SLA), leaf-level water content (LWC), foliar nitrogen (N) concentration, foliar carbon (C) concentration and C:N ratio of each of these deciduous species in each treatment across a single growing season. We found that canopy warming dramatically increased the sensitivity of plant growth (measured as TLA) to rainfall across all species. Warm, dry conditions consistently reduced TLA and also reduced leaf C:N in four species (Acer rubrum, Betula lenta, Prunus serotina, Ulmus americana), primarily as a result of reduced foliar C, not increased foliar N. Interestingly, these conditions also harmed the other two species in different ways, increasing either mortality (Populus grandidentata) or herbivory (Quercus rubra). Specific leaf area and LWC varied across species, but did not show strong treatment responses. Our results indicate that, in the northeastern USA, dry years in a future warmer environment could have damaging effects on the growth capacity of these early secondary successional forests, through speciesspecific effects on leaf production (total leaves and leaf C), herbivory and mortality.

Original languageEnglish
Article numberply003
Issue number1
StatePublished - Feb 1 2018


  • Boston-Area Climate Experiment (BACE)
  • Carbon
  • Climate change
  • Drought
  • Leaf area
  • Nitrogen
  • Tree seedlings
  • Warming


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