Abstract

AbstractEnvironmental factors affecting photosynthetic activity of the typical vernal species Erythronium japonicum Decne were examined on the floor of a deciduous broad‐leaved Quercus mongolica forest (Q.m. stand) and on bare land left undisturbed for 4 years after forest clearing (bare stand). Daytime solar irradiation and air and leaf temperatures at the bare stand were significantly higher than those at the Q.m. stand. The relative air humidity was very low and did not differ much between the stands, although the leaf‐air vapor pressure differences (VPD) at the bare stand were about twice as high as those at the Q.m. stand. The plants at both stands were supplied with sufficient soil water throughout their growing season by a large snowmelt. However, the aboveground parts of the plants at the bare stand were subjected to much more severe heat stress, caused by the strong radiations and high leaf temperatures, and water stress, caused by the highly transpiring conditions, than those at the Q.m. stand. When the radiation on leaves, leaf temperatures and VPD in the assimilation chamber were changed from those observed at the Q.m. stand to those at the bare stand, the photosynthetic rate and stomatal conductance fell significantly. However, the rate and conductance were immediately restored to the respective values near those measured under the conditions at the Q.m. stand when only VPD was dropped to the value similar to that observed at the Q.m. stand. These results indicate that the photosynthetic rate of the plants at the bare stand was lowered largely by a decrease in stomatal conductance. The internal CO2 partial pressure was considerably greater in leaves placed under environmental conditions similar to those at the bare stand.

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