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Verma et al. 1992
Verma, S.B., Kim, J. and Clement, R.J. (1992). Momentum, water vapor, and carbon dioxide exchange at a centrally located prairie site during FIFE. Journal of Geophysical Research 97: doi: 10.1029/91JD03045. issn: 0148-0227.

Eddy correlation measurements were made of fluxes of momentum, sensible heat, water vapor, and carbon dioxide at a centrally located plateau site in the FIFE study area during the period from May to October 1987. About 82% of the vegetation at the site was comprised of several C4 grass species (big bluestem, Indian grass, switchgrass, tall dropseed, little bluestem, and blue grama), with the remainder being C3 grasses, sedges, forbs, and woody plants. The prairie was burned in mid-April and was not grazed. Precipitation during the study period was about normal, except for a 3-week dry period in late July to early August, which caused moisture stress conditions. The drag coefficient (Cd=u2*/u¿2, where u* is the friction velocity and u¿ is the mean wind speed at 2.25 m above the ground) of the praire vegetation ranged from 0.0087 to 0.0099. The average d/zc and z0/zc (where d is the zero plane displacement, z0 is the roughness parameter, and zc is the canopy height) were estimated to be about 0.71 and 0.028, respectively. Information was developed on the aerodynamic conductance (ga) in terms of mean wind speed (measured at a reference height) for different periods in the growing season. During the early and peak growth stages, with favorable soil moisture, the daily evapotranspiration (ET) rates ranged from 3.9 to 6.6 mm d-1. The ET rate during the dry period was between 2.9 and 3.8 mm d-1. The value of the Priestley-Taylor coefficient (α), calculated as the ratio of the measured ET to the equilibrium ET, averaged around 1.26 when the canopy stomatal resistance (rc) was less than 100 s m-1. When rc increased above 100 s m-1, α decreased rapidly.

The atmospheric CO2 flux data (eddy correlation) were used, in conjunction with estimated soil CO2 flux, to evaluate canopy photosynthesis (Pc). The dependence of Pc on photosynthetically active radiation (KPAR), vapor pressure deficit, and soil moisture was examined. Under nonlimiting soil moisture conditions, Pc was primarily controlled by KPAR through a rectangular hyperbolic relationship. Our data did not indicate light saturation of the canopy up to KPAR levels of 2100 μEi m-2 s-1. Midday values of Pc reached a seasonal peak of 1.4--1.5 mg m-2 (ground areas) s-1 during late June and early July. During the dry period (late July to early August), midday Pc declined to a minimum of almost zero. Examination of data on Pc, λE/Rn (the proportion of net radiation consumed in latent heat flux), extractable soil water, and the predawn leaf water potential indicated a remarkable similarity in overall patterns throughout the season. The photosynthetic efficiency was 1.5--2% during midday through most of the growing season (except during the dry period). The midday value of the prairie water use efficiency during the peak growth stage was 8--12¿10-3 g CO2/g H2O. ¿ American Geophysical Union 1992

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Keywords
Atmospheric Composition and Structure, Biosphere-atmosphere interactions
Journal
Journal of Geophysical Research
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American Geophysical Union
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