COS 135-2
Comparative water use in short-rotation Eucalyptus benthamii and Pinus taeda plantations in the Southeastern United States

Friday, August 15, 2014: 8:20 AM
Regency Blrm E, Hyatt Regency Hotel
Chris A. Maier, Southern Research Station, USDA Forest Service, Research Triangle Park, NC
Tim Albaugh, Department of Forestry Resources and Environmental Conservation, Virginia Tech, Blacksburg, VA
Kevin Hall, Department of Forestry and Natural resources, North Carolina State University, Raleigh, NC
Daniel McInnis, Southern Research Station, US Forest Service, Research Triangle Park, NC
Kurt H. Johnsen, Southern Research Station, USDA Forest Service, Asheville, NC
Steve Patterson, Meadwestvaco Corporation, Summerville, SC
Jose Luiz Stape, Department of Forestry and Environmental Resources, North Carolina State University, Raleigh, NC
James M. Vose, USDA Forest Service Southern Research Station, Center for Integrated Forest Science
Background/Question/Methods

Background/Question/Methods

Short rotation eucalyptus plantations offer great potential for increasing wood-fiber production in the southeastern United States. Eucalyptus plantations can be highly productive (>35 m3 ha-1 year-1), but they use a lot of water and this has raised concern about how expansion of eucalyptus plantations will affect water resources. Water requirements of eucalypt plantations in the southeast US are unknown. Will intensively managed eucalyptus plantations use more water than contemporary intensively managed pine (primarily Pinus taeda) plantations or other native speices? Are there important species differences in water use efficiency (WUE)? Water consumption of short-rotation eucalyptus needs to be quantified in order to develop management and silvicultural practices that maximize productivity and WUE without compromising water resources. We compared stand-level water use and WUE over one year in adjacent eight-year-old E. benthamii and Pinus taeda plantations near Ravenel, SC (33oN). Sapflow was measured continuously using thermal dissipation probes. Species differences in above and belowground biomass, stem growth, stand level transpiration per unit ground (Et) and leaf (El) area, canopy stomatal conductance (Gs), leaf area index (LAI), and leaf to sapwood area ratio (AL:AS) were quantified. 

Results/Conclusions

Results/Conclusions

Daily Et ranged from 0.30 to 2.75 and 0.20 to 2.00 mm day-1 in eucalyptus and pine stands, respectively. Monthly Et was 22-34% higher in eucalyptus and differences between species were greatest in the spring and fall. Annual Et was 515 mm in eucalyptus compared to 361 mm in pine (p=0.04). WUE, defined as annual stem biomass produced (kg ha-1) per unit water transpired (m3 ha-1), was greater in eucalyptus (1.83 kg m-3) than in the pine (1.28 kg m-3). Seasonal patterns of volumetric soil moisture (Θ) were similar between stands; however, Θ decreased at a more rapid rate in eucalyptus following rainfall events. Pine exhibited a larger seasonal range in LAI.  At low LAI, El was 20% greater in eucalyptus compared to pine (1.03 vs 0.82 mm day-1, SE=0.04, p=0.03). At maximum LAI, eucalyptus El was 44% greater in than pine (1.14 vs 0.64 mm day-1, SE=0.03, p<0001). El and Gs were significantly correlated with atmospheric vapor pressure deficit (VPD), although pine exhibited greater stomatal sensitivity to VPD under both low and high LAI. We conclude that eucalyptus used more water than pine at this site, but annual Et was well below precipitation (1345 mm) and PET (1225 mm).

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