Skip to Main Content
Due to a lapse in federal funding, this USDA website will not be actively updated. Once funding has been reestablished, online operations will continue.
Comparative water use in short-rotation Eucalyptus benthamii and Pinus taeda trees in the southern United StatesAuthor(s): Chris A. Maier; Timothy J. Albaugh; Rachel I. Cook; Kevin Hall; Daniel McInnis; Kurt H. Johnsen; John Johnson; Rafael A. Rubilar; James M. Vose
Source: Forest Ecology and Management
Publication Series: Scientific Journal (JRNL)
Station: Southern Research Station
View PDF (2.0 MB)
DescriptionShort rotation Eucalyptus plantations offer great potential for increasing wood-fiber production in the southern United States. Eucalyptus plantations can be highly productive (>35 m3 ha1 year1), but they may use more water than intensively managed pine (primarily Pinus taeda L.) plantations. This has raised concern about how expansion of Eucalyptus plantations will affect water resources. We compared tree water use, stem growth, and WUE (kg wood per m3 water transpired) in adjacent nine-year-old Eucalyptus benthamii and P. taeda plantations with similar stand density and leaf area. Sap flux (Fd, g cm2 s1) was measured continuously over one year using thermal dissipation probes. Stem biomass, stem growth, tree water use (Et, L day1), canopy transpiration per unit leaf area (El, mmol m2 s1), and canopy stomatal conductance (Gs, mmol m2 s1) were quantified. Eucalyptus had higher daily Fd (196.6 g cm2 day1) and mean daily Et (24.6 L day1) than pine (105.8 g cm2 day1, 15.2 L day1). Eucalyptus exhibited a seasonally bimodal pattern in daily Et that did not occur in pine. Monthly Et was 23–51% higher in Eucalyptus and differences between species were greatest in the spring and fall. Annual Et was 32% higher in Eucalyptus (9.13 m3 H2O year1) than pine (5.79 m3 H2O year1). Annual stem biomass increment was greater in Eucalyptus (Eucalyptus: 22.9; pine: 11.8 kg tree1 year1), and Eucalyptus had greater WUE (Eucalyptus: 2.86; pine 1.72 kg biomass m3 H2O year1). Pine exhibited a lower seasonal minimum and higher seasonal maximum leaf area index (LAI). At low LAI, there was no significant difference between species in El or Gs; however, at maximum LAI, pine El and Gs were 46 and 43%, respectively of rates observed in Eucalyptus. The species differed in Gs response to vapor pressure deficit (D). At a similar reference Gs (Gs,ref at D = 1 kPa), pine exhibited greater stomatal sensitivity to D. These results suggest that (1) Eucalyptus trees had higher sap flux and total water use than pine, (2) Eucalyptus had greater stem growth and WUE, and (3) species differences in water use were driven primarily by differences in El and Gs.
- You may send email to firstname.lastname@example.org to request a hard copy of this publication.
- (Please specify exactly which publication you are requesting and your mailing address.)
- We recommend that you also print this page and attach it to the printout of the article, to retain the full citation information.
- This article was written and prepared by U.S. Government employees on official time, and is therefore in the public domain.
CitationMaier, Chris A.; Albaugh, Timothy J.; Cook, Rachel I.; Hall, Kevin; McInnis, Daniel; Johnsen, Kurt H.; Johnson, John; Rubilar, Rafael A.; Vose, James M. 2017.Comparative water use in short-rotation Eucalyptus benthamii and Pinus taeda trees in the southern United States. Forest Ecology and Management. 397: 126-138. 13 p.DOI:10.1016/j.foreco.2017.04.038
KeywordsSap flow, Thermal dissipation probes, Transpiration, Canopy conductance, Water use efficiency, Loblolly pine
- Eucalyptus Forest Information System for the Portuguese pulp and paper industry
- Projecting potential adoption of genetically engineered freeze-tolerant Eucalyptus in the United States
- Benefits of Eucalyptus-Albizia mixtures vary by site on Hawaii Island
XML: View XML