Interspecific competition between fat hen (Chenopodium album L.) and sunflower (Helianthus annuus L. NSH-33 hybrid) in pure and mixed stands of identical plant density (35 x 35 cm spacing) was studied in smáli plot field experiments under drought stress. Decrease in net photosynthetic rate (E^) due to interspecific competition was not statistically significant in either species in the first part of the growing season. During drought stress, however, significantly decreased in sunflower, while it hardly changed in C. album in the same (interspecific) competition situation. In pure stands, transpiration rate (E) was lower in C. album than in sunflower and this difference was more pronoímced in mixed stands. Consequently, C. album showed a very high water use efficiency (WUE) especially in the shade layer, which accounts for a larger part of the canopy in this species. By contrast, WUE in sunflower decreased, especially in the sun layer of the mixed stand. Interspecific competition reduced the total biomass more severely in sunflower than in C. album by the end of the growing season. The reduction was especially remarkable in the biomass of the reproductive organs. Reproductive effort expressed as reproductive allocation was higher in C. album than in sunflower. Hence the reproductive effort in sunflower and C. album in both intra- and interspecific competition seemed to be correlated with WUE, which is a prime characteristic of drought stress tolerance.
Net photosynthesis (Pn)> transpiration (£) and water use efficiency (WUE) responses to prolonged drought and subsequent recovery after rewatering were investigated in sun and shade leaves of two maize (Zea mays L. cv. Pioneer 3839 SC) stands with different plant density (6.2 and 10.8 plants per m^). Drought stress was induced by the very smáli amount of precipitation (60 mm) during the 57 d of the study period. was higher in both sun and shade leaves in the low density stand through the study period, presumably owing to higher degree of intraspecific competition in the denser stand. did not decrease under severe drought stress in the sun leaves of the two stands. WUE decreased in sun leaves in both stands. decreased most in the shade leaves of the high density stand, due to less available radiation in this stand. The higher degree of intraspecific competition might also contribute to this. The short- and long-term responses by the stands to irrigation differed greatly, as WUE decreased in the high density stand and increased in the low density stand. Thus was more strongly affected in the high density stand because of the higher degree of interactive drought stress and intraspecific competition concurrently with considerable loss of stomatal control of E.
Tolerance of Festuca rupicola Heuff., Botriochloa ischaemum (L.) Keng., and Salvia nemorosa L. to co-occurring drought, high air temperature and high irradiance were investigated in stands representing different degree of degradation. Air and leaf temperatures were higher for the stands in the advanced degradation stage. The net photosynthetic rate was not significantly lower and WUE was depressed in the degraded stands as compared to the intact stands. Carbon fixation type seems to have outstanding importance in the outcome of degradation processes in semiarid temperate grasslands.