The mesostructure of the photosyntetic cell system of the picea ajanensis ((Lindl. Et Gord.) Fisch ex Carr.) to an action of drought and shade in the pot experiment as simulated conditions

Evgeniy G. Vernigora

Abstract


This paper has to presents the results of investigation of the influence of stress factors. Soil drought and shade are to exert influence on the production and the structural and functional characteristics of Picea ajanensis needles. The action of stress factors is a cause significant of adaptive adjustment of the photosynthetic apparatus Ajan spruce, providing cost-effective use of limited resources, light and moisture. In the process of adaptive rearrangements in conditions of drought photosynthetic apparatus has formed the xeromorphic type with high potential assimilation abilities, that is contributed to the successful adaptation to the action drought.

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Bazunova GG. Morfological indicators of vegetative runaway for young coniferous: Stationary researches in Sihote-Alin woods. Vladivostok, 1977; 52-58.

Bazunova GG, Voroshilova GI, Kalugjnaya SP. The morfologo-anatomical characteristic of elevated bodies of the coniferous of Far East: Stationary researches in Sihote-Alin woods. Vladivostok, 1977; 59-72.

Burundukova OL, Ivanova LA, Ivanov LA, Hrolenko JA, Burkovskaja EV, Zhuravlyov JU. The mesostructure of the photosynthetic device of a ginseng in connection with ecological "strategy" of a kind: Physiology of plants. 2008. Т. 55, №. 2; 268-271.

Burundukova OL, Ivanov LA, Ivanova LA, Kiselev KV, Mahankov VV, Lauve HP, Hrolenko JA, Burkovskaja EV, Velivetskaja TA, Ignatev AV, Muzarok TI, Zhuravlev JN. Morfo-functional bases of change of strategy of adaptation of a ginseng (Panax ginseng C.A. Meyer) at improvement: Reports of Academy of sciences. 2012. Т. 446. № 5; 594-597.

Voroshilova GI. The change of morfologo-anatomic structure coniferous young growth after continuous cabins: Physiology and ecology of Primorski Krai wood plants. Vladivostok, 1973; 71-75.

Vernigora EG. The formation of the stomatal device at some coniferous plants in Mountain-taiga station arboretum : Biological researches on Mountain-taiga station. Rev. 8. Vladivostok: 2002; 146-152.

Vernigora EG. The morphological reaction of epidermis coniferous breeds on change of climatic conditions of growth. Bulletin of KrasGAU. №4. 2008; 122-130.

Gorishina TK. The Photosynthetic device of plants and the condition of environment. Leningrad, 1989.

Kozina LV, Titova MS, Ivashchenko EA, Rezinkina GA. Influence of stressful factors on growth and efficiency of coniferous breeds saplings: Bulletin KrasGAU, Ver. 2. Krasnoyarsk, 2011; 96-100.

Manjko UI. Picea Ajanensis. Vladivostok, 1987; 280.

Mokronosov AT. The mesostructure and functional activity of the photosynthetic device: Mesostructure and functional activity of the photosynthetic device. Sverdlovsk, 1978; 5-30.

Mokronosov AT, Borzenkova RA. A technique of a quantitative estimation of structure and functional activity of photosynthesizing fabrics and bodies: The proceeding on applied botany, genetics and selection. Leningrad, 1978. Т. 61, Ver. 3; 119-133.

Rezinkina GA, Kozina LV. The growth and adaptive reactions of saplings of coniferous breeds in extreme conditions of a soil drought and light exposure: Release of biological researches on Mauntain-taiga stations. Introduction and rational use of vegetative resources of southern the Primorski Krai. Ver. 12. Vladivostok: Dalnauka, 2011; 141-151.

Titova MS, Kozina LV. The green pigments and photosynthetic efficiency of tree species: Release of biological researches on Mauntain-taiga stations. Ver. 11. Vladivostok: Dalnauka, 2008; 143-151.

Celniker JuL. The physiological of a basis shade of wood plants. Мoskow, 1978.

Tchernyshev VD. A ways of the physiological-powered adaptations coniferous in extreme conditions: Biological problems of the North. VI symposium. Ver. 5. Biology of wood breeds, the wood biogeocenology and forestry. Yakutsk, 1974; 13-17.

Tchernyshev VD. The influence of a monsoonal climate on growth and development of plants in Primorski Krai: Bulletin of FEB RAS. 1995. № 1; 62-67.

Tchernyshev VD. Intensity of transpiration and the water maintenance in leaves of plants in Sihote-Alin mountains: The botanical magazine. 1982. Т. 67. № 9; 1276-1280.

Araus J, Alegre L, Tapia L, Calafel R, Serret M. Relationships between photosynthetic capacity and leaf structure in several shade plants: Am. J. Bot. 1986. N 73; 1760-1770.

Evans JR, Von Caemmerer S, Setchell BA, Hudson GS, The relationship between CO2 transfer conductance and leaf anatomy in transgenic tobacco with a reduced content of Rubisco: Aust. J. Plant Physiol. 1994. N 21; 475-495.

Evans JR, Von Caemmerer S. Carbon dioxide diffusion inside leaves: Plant Physiol. 1996. № 110; 339-346.

Nobel PS, Walker DB. Structure of photosynthetic leaf tissue: Photosynthetic mechanisms and the environment. Amsterdam, 1985; 501-536.

Patton L, Jones MB. Some relationships between leaf anatomy and photosynthetic characteristics of willow: New Phytol., 1989. № 111; 657-661.

Pyankov VI, Ivanova LA, 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; 71-87.


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