Mesostructure of photosynthetic mechanism of firs in the context of stressful growth

Background. The study results of the effect of stress factors - soil drought and shading - on the structural and functional characteristics of Ajan spruce and fir Korean were brought. Methods. Structure adaptation of photosynthetic mechanism of Ajan spruce and fir Korean was studied in shady location and soil drought in vegetative experience condition. Methods of macerated tissues were used. Results. The character of structural and functional changes and the level of response to the drought in Ajan spruce and fir Korean differs. Low values of the index of cell membranes, the index of chloroplast membranes and cell volume of the chloroplast in dry conditions showed the approach to “the stress range” of vegetation and rehabilitation of weak capacity Ajan spruce. Shady location rendered a milder effect. conclusions. In the process of adaptive mutations in conditions of drought Ayan spruce forms the photosynthetic mechanism of xeromorphic type with low assimilation capacity. Fir Korean adapts mesostructure to reduce the negative impact of environmental factors on photosynthesis and is characterized as a kind of labile under conditions of southern Primorye.

spruce, drought, shady location, adaptation

1. Бурундукова О.Л., Иванова Л.А., Иванов Л.А. [и др.] Мезоструктура фотосинтетического аппарата женьшеня в связи с экологической «стратегией» вида // Физиология растений. 2008. Т. 55, № 2. С. 268-271.

2. Горышина Т.К. Фотосинтетический аппарат растений и условия среды. Л.: Изд-во Ленингр. ун-та, 1989. 203 с.

3. Мокроносов А.Т. Мезоструктура и функциональная активность фотосинтетического аппарата // Мезоструктура и функциональная активность фотосинтетического аппарата. Свердловск: Уральск. ун-т, 1978. С. 5-30.

4. Мокроносов А.Т. Онтогенетический аспект фотосинтеза. М.: Наука, 1981. 196 с.

5. Осипов С.В. Бурундукова О.Л. К характеристике лиственницы Кайяндера (Larix cajanderi Mayr.) на дренажных отвалах Приамурья (Российский Дальний Восток). Экология. 2005. № 4. С. 259-263.

6. Цельникер Ю.Л. Физиологические основы теневыносливости древесных растений. М.: Наука, 1978. 212 с.

7. Nobel P.S., Walker D.B. Structure of photosynthetic leaf tissue // Photosynthetic mechanisms and the environment. Amsterdam, 1985. Р. 501-536.

8. Patton L., Jones M.B. Some relationships between leaf anatomy and photosynthetic characteristics ofwillow // New Phytol., 1989. No. 111. Р. 657-661.

9. Pyankov V.I., Ivanova L.A., Lambers H. Quantitative anatomy of photosynthetic tissues of plants species of different functional types in a boreal vegetation // Inherent variation in plant growth. Physiological mechanisms and ecological consequences. Leiden, 1998. Р. 71-87.