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2012 | 54 | 2 |

Tytuł artykułu

Mesophyll structure and chloroplast density in Panax ginseng leaves from the Sikhote-Alin mts

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Warianty tytułu

Języki publikacji

EN

Abstrakty

EN
This study investigated the quantitative anatomy of photosynthetic tissues (leaf mesostructure) of wild ginseng Panax ginseng C.A. Mey. (Araliaceae) plants from different natural habitats. The structural and functional traits of the photosynthetic apparatus shown to be especially elastic were mesophyll cell volume (Cv >40%) and traits related to filling of the leaf with cells and plastids (Cv≥21%). P. ginseng possesses relatively few cells per leaf area (44.6–107.2 103/cm2) and chloroplasts (1.7–4.9 106/cm2). Also low are the values of such integral indexes as relative surface of mesophyll cells (Ames/A, 2.78–5.28) and relative surface of chloroplasts (Achl/A, 1.9–3.2). The leaf mesostructure of wild ginseng shows traits of a plant typically found in shady forest habitats. The photosynthetic apparatus of ginseng adapts to various habitat conditions on the level of leaf mesostructure, through structural transformations of mesophyll tissue, such as changes in the number and size of cells and chloroplasts and also the integral surface indexes Achl/A and Ames/A.

Wydawca

-

Rocznik

Tom

54

Numer

2

Opis fizyczny

p.54-60,fig.,ref.

Twórcy

autor
  • Institute of Biology and Soil Science, Russian Academy of Sciences, Stoletiya St. 159, 690022 Vladivostok, Russia
autor

Bibliografia

  • ARAUS JL, ALEGRE L, TAPIA L, CALAFELL R, and SERRET MD. 1986. Relationships between photosynthetic capacityand leaf structure in several shade plants. AmericanJournal of Botany 73: 1760–1770.
  • BURUNDUKOVA OL, IVANOVA LA, IVANOV LA, KHROLENKO YA, BURKOVSKAYA EV, and ZHURAVLEV YN. 2008.Mesostructure of the ginseng photosynthetic apparatusin relation to ecological strategy of the species. RussianJournal of Plant Physiology 2: 246–248.
  • GORISHINA TK. 1989. Photosynthetic Apparatus and Environment. LGU, Leningrad.
  • GRUSHWITSKY IV. 1940. Inversion phenomenon of flora in Ussuriysky region. Botanical Journal USSR 1: 52–67.
  • GRUSHWITSKY IV 1961. Ginseng: The Aspects of Biology. Nauka, Leningrad.
  • IVANOVA LA, and PYANKOV VI. 2002. Structural adaptation of the leaf mesophyll to shading. Russian Journal of PlantPhysiology 3: 467–480.
  • KHARKEVYCH SS, and KACHURA NN. 1981. Rare Plant Species of the Soviet Far East and their Conservation. Nauka,Moscow.
  • KHARKEVYCH SS [ed.]. 1985–1996. Vascular Plants of the Soviet Far East, vols. 1–8. Nauka, Moscow.
  • KHROLENKO YA, and BURUNDUKOVA OL. 2001. Age differences in leaf mesostructure in cultivated Panax ginseng C.A. Mey. Rastitelniye resursy 3: 54–59.
  • KHROLENKO YA, BURUNDUKOVA OL, BEZDELEVA TA, MUZAROK TI, and ZHURAVLEV YN. 2007. Age stages in the ontogeny ofcultivated Panax ginseng C.A. Mey. Biology Bulletin 2:120–125.
  • MAMAEV SA. 1972. Subspecies Forms in Variability of Tree Plants. Nauka, Moscow.
  • MOKRONOSOV AT. 1978. Mesostructure and Functional Activity of Photosynthesis Apparatus. UrGU,Sverdlovsk.
  • MOKRONOSOV AT, and BORZENKOVA RA. 1978. Procedure of quantitative estimation of the structure and functionalactivity of photosynthesizing tissues and organs. Bulletinof Applied Botany, Genetics and Plant Breeding 3:119–133.
  • NOBEL PS. 1977. Internal leaf area and cellular CO2 resistance: photosynthetic implications of variations with growth conditions and plant species. Plant Physiology 40: 137–144.
  • PYANKOV VI, IVANOVA LA, and LAMBERS H. 1998. Quantitative anatomy of photosynthetic tissues of plants species of different functional types in boreal vegetation. In: Lambers H, Poorter H, van Vuuren MMI [eds.], Inherent Variation in Plant Growth. Physiological Mechanismsand Ecological Consequences, 71–87. BackhuysPublishers, Leiden, The Netherlands.Red Book of the Russian Federation: Plants. 1988.Rosagropromisdat, Moscow.
  • SUDAKOV YN. 2004. Environment of wild-grown ginseng (Panax ginseng C.A. Mey.) in forest of mountain rangeUssuriysky Ararat. Komarovskie chteniya. Dalnauka,Vladivostok 50: 134–147.
  • TSEL'NIKER YL. 1978. The Physiological Basis of Tolerance of Tree Plants to Shadow. Nauka, Moscow.
  • VASILYEV NG. 1956. Black fer-broadleaf forests of southern Primorye. Ph.D. dissertation, Vladivostok.
  • VOROBIEVA PP. 1960. Development and some anatomic-physiological features of ginseng to lighting. Proceedings toresearch of ginseng and schisandra. LGU, Leningrad 4:64–86.
  • VORONKOVA NM, BURUNDUKOVA OL, ZHURAVLEV YN, NESTEROVA SV, and ABAN'KINA MN. 1997. Structural-functional featuresof some rare plant species. Komarovskie chteniya.Dalnauka, Vladivostok. 44: 72–88.
  • XU KE-ZHANG, ZHANG ZHI-AN, WANG YING-DIAN et al. 1994. Effect of light intensity on microstructure and ultrastructure ofPanax ginseng leaves under field condition. ActaBotanica Sinica 36: 23–27.
  • ZHURAVLEV YN, BURUNDUKOVA OL, KOREN OG, ZAYTSEVA YA, and KOVALEVA EV. 1994. Panax ginseng C. A. Meyer:Biodiversity evaluation and conservation. The challengesof the 21st century. Proceedings of the InternationalGinseng Conference, 21–23 September 1994, 162–168.Vancouver.

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