Journal
GLOBAL CHANGE BIOLOGY
Volume 19, Issue 12, Pages 3790-3807Publisher
WILEY-BLACKWELL
DOI: 10.1111/gcb.12314
Keywords
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Funding
- Forest Industries Climate Change Research Fund, Climate Change Division of the Commonwealth Department of Agriculture, Fisheries Forestry
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Eucalyptus species are grown widely outside of their native ranges in plantations on all vegetated continents of the world. We predicted that such a plantation species would show high potential for acclimation of photosynthetic traits across a wide range of growth conditions, including elevated [CO2] and climate warming. To test this prediction, we planted temperate Eucalyptus globulus Labill. seedlings in climate-controlled chambers in the field located >700km closer to the equator than the nearest natural occurrence of this species. Trees were grown in a complete factorial combination of elevated CO2 concentration (eC; ambient [CO2] +240ppm) and air warming treatments (eT; ambient +3 degrees C) for 15months until they reached ca. 10m height. There was little acclimation of photosynthetic capacity to eC and hence the CO2-induced photosynthetic enhancement was large (ca. 50%) in this treatment during summer. The warming treatment significantly increased rates of both carboxylation capacity (V-cmax) and electron transport (J(max)) (measured at a common temperature of 25 degrees C) during winter, but decreased them significantly by 20-30% in summer. The photosynthetic CO2 compensation point in the absence of dark respiration (*) was relatively less sensitive to temperature in this temperate eucalypt species than for warm-season tobacco. The temperature optima for photosynthesis and J(max) significantly changed by about 6 degrees C between winter and summer, but without further adjustment from early to late summer. These results suggest that there is an upper limit for the photosynthetic capacity of E. globulus ssp. globulus outside its native range to acclimate to growth temperatures above 25 degrees C. Limitations to temperature acclimation of photosynthesis in summer may be one factor that defines climate zones where E. globulus plantation productivity can be sustained under anticipated global environmental change.
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