Affiliation:
1. Institute of Forest Science of the RAS
Abstract
An assessment of the decrease in the photosynthesis intensity due to the lack of moisture were carried out on 6-year-old oak, pine and spruce seedlings grown in containers in the open air within the Serebryanoborsky forestry district by the Institute of Forest Science of the RAS (Moscow region). We determined at which values of pre-dawn water potential (PWP) seedlings growing in the open are resistant to the lack of moisture. Almost all seedlings of these species with insufficient water supply have a depression of photosynthesis, which occurs more rapidly as the moisture deficit increases and at lower solar radiation. In case of an oak, when the PWP reaches –1.1 MPa, the intensity of photosynthesis decreases by half, and in case of pine and spruce — at a PVP equal to –0.8 MPa. For the oak, the intensity of photosynthesis drops to zero at –3.0 MPa, in pine — at –1.6 ÷ –1.8 MPa, in spruce — at –1.5 MPa. Thus, the most resistant to the lack of moisture is oak, then pine, and the most demanding in terms of water supply is spruce.
Publisher
The Russian Academy of Sciences
Reference33 articles.
1. Abrams M.D., Mostoller S.A., Gas exchange, leaf structure and nitrogen in contrasting successional tree species growing in open and understory sites during a drought, Tree Physiology, 1995, Vol. 15, pp. 361–370.
2. Bauerle W.L., Whitlow T.H., Setter T.L., Bauerle T.L. Vermeylen F.M., Ecophysiology of Acer rubrum seedlings from contrasting hydrologic habitats: growth, gas exchange, tissue water relations, abscisic acid and carbon isotope discrimination, Tree Physiology, 2003, Vol. 23, pp. 841–850.
3. Bosian G., Relationship between stomatal aperture, temperature, illumination, relative humidity and assimilation determined in the field by means of controlled environment plant chambers, In: Functioning of Terrestrial Ecosystems at the Primary Production Level, UNESCO Natural Resources Research Series, Copenhagen, 1968, Vol. 5, pp. 321–328.
4. Castel C., Terradas J., Water relations, gas exchange and growth of dominant and suppressed shoots of Arbutus unedo L., Tree Physiology, 1995, Vol. 15, pp. 405–409.
5. Jiang Y., Macdonald S.E., Zwiazek J.J., Effects of cold storage and water stress on water relations and gas exchange of white spruce (Picea glauca) seedlings, Tree Physiology, 1995, Vol. 15, pp. 267–273.