02805nas a2200169 4500008004100000245008500041210006900126300001300195490000700208520221500215653002202430100001502452700001802467700001902485700001802504856011302522 1990 eng d00aNet carbon dioxide exchange in canopies of burned and unburned tallgrass prairie0 aNet carbon dioxide exchange in canopies of burned and unburned t a237 -2440 v423 a
Net carbon dioxide exchange (NCE) rates were measured in a tallgrass prairie, a grassland with high productivity, to determine photosynthetic rates of the canopy. Canopy measurements were made in large, plexiglass chambers (1.21 m long; 0.91 m wide; 1.40 m tall) placed on burned and unburned areas of the prairie. The NCE rates of the canopy were compared with those of individual leaves of Andropogon gerardii Vitman (big bluestem). In addition, CO2 flux from the soil was quantified and compared with net photosynthetic flux. The canopy NCE rates were generally lower than those made on individual leaves. In mid-summer (11 July 1987), the maximum canopy NCE rates were 55% and 64% of those measured on individual leaves in burned and unburned treatments, respectively. Canopy NCE rates were lower than individual-leaf NCE rates for two reasons. First, the individual-leaf measurements were made on young, unshaded, healthy leaves, while the canopy measurements were made on all types of leaves including senescing, shaded, and damaged leaves. Second, soil CO2 flux into the chambers lowered NCE values. The CO2 flux from the soil ranged from 7.2% to 28.4% of the total NCE. One needs to add soil CO2 flux rates to the measured canopy NCE rates to obtain canopy NCE rates closer to individual-leaf NCE rates. Soil CO2 flux decreased when conditions became dry, reaching a low of 0.06mg CO2m-2s-1, but increased after rain to 0.16mg CO2m-2s-1. Also, after rain, when plants were well watered, they were not light saturated at 1900æEm-2s-1. The NCE rates on the burned treatment were either higher or similar to those on the unburned treatment. For example, on 11 July 1987, NCE rates were higher on the burned treatment (0.66 mg CO2m-2s-1) compared to the unburned treatment (0.47 mg CO2m-2s-1). During the rest of July and August, the rates of the two treatments were not significantly different. but in September and October, the NCE rates were again higher on the burned treatment compared to the unburned treatment. The results indicated that canopy NCE rates may be more indicative of the productivity of the prairie than individual-leaf measurements made only on young, highly productive leaves
10atallgrass prairie1 aGale, W.J.1 aKirkham, M.B.1 aKanemasu, E.T.1 aOwensby, C.E. uhttp://lter.konza.ksu.edu/content/net-carbon-dioxide-exchange-canopies-burned-and-unburned-tallgrass-prairie00481nas a2200133 4500008004100000245008000041210006900121260004300190300001000233490001400243653002200257100001500279856005300294 1988 eng d00aCanopy net carbon dioxide exchange by burned and unburned tallgrass prairie0 aCanopy net carbon dioxide exchange by burned and unburned tallgr aManhattan, KSbKansas State University a1 -760 vMS Thesis10atallgrass prairie1 aGale, W.J. uhttp://krex.k-state.edu/dspace/handle/2097/22236