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Articles

Importance of Aerodynamic Resistance to Water Use Efficiency in Three Conifers under Field Conditions ¹

Department of Botany, University of Wyoming, Laramie, Wyoming 82071

The quantitative importance of aerodynamic resistance to H₂O vapor and CO₂ exchange was determined for shoots from saplings of three conifers (Abies lasiocarpa [Hook] Nutt., Pinus contorta Dougl., Juniperus communis L.) under natural conditions in the field. A combination of relatively low stomatal resistances (<300 seconds per centimeter) and low wind speeds (<30 centimeters per second) led to substantial contributions of the aerodynamic resistance (R_wv^a) to water use efficiency (WUE = photosynthesis/transpiration) for all three species. For A. lasiocarpa, transpiration was calculated to be 44% less and photosynthesis 17% less due to the presence of R_wv^a, which led to a predicted increase in WUE of 57% compared to the calculated WUE when R_wv^a was assumed negligible. Similar increases in WUE were computed for P. contorta (48%) with somewhat smaller values for J. communis (34%). These results are discussed in terms of the estimated importance of R_wv^a on water and photosynthetic relations of plants that have relatively low stomatal resistances and grow in microhabitats with low winds.