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Wednesday, July 22, 2020 | History

2 edition of Physiology of deep dormancy in seeds (Fiziologiya glubokogo pokoya semyan) found in the catalog.

Physiology of deep dormancy in seeds (Fiziologiya glubokogo pokoya semyan)

Marianna Georgievna Nikolaeva

Physiology of deep dormancy in seeds (Fiziologiya glubokogo pokoya semyan)

by Marianna Georgievna Nikolaeva

  • 62 Want to read
  • 19 Currently reading

Published by Israel Program for Scientific Translations (available from the U.S.Dept. of Commerce, Clearinghouse for Federal Scientific and Technical Information, Springfield, Va.) in Jerusalem .
Written in English

    Subjects:
  • Seeds -- Dormancy.

  • Edition Notes

    Statement(by) M. G. Nikolaeva. (Translated by Z. Shapiro. Edited by M. Kohn and H. Mills).
    Classifications
    LC ClassificationsQK661
    The Physical Object
    Paginationiv, 220 p. :
    Number of Pages220
    ID Numbers
    Open LibraryOL18950614M

    Plant Physiology: A Treatise, Volume VIC: Physiology of Development: From Seeds to Sexuality deals with the physiology of development in angiosperms, from seeds to sexuality. This book treats germination and cell division, growth, and development from a single point of view, emphasizing the problems of early development in flowering ://   The new edition of Seeds contains new information on many topics discussed in the first edition, such as fruit/seed heteromorphism, breaking of physical dormancy and effects of inbreeding depression on germination. New topics have been added to each chapter, including dichotomous keys to types of seeds and kinds of dormancy; a hierarchical dormancy classification system; role of seed

    Physiology of Deep Dormancy in Seeds (Fiziologiya Glubokogo Pokoya Semyan) [M.G. Nikolaeva] on *FREE* shipping on qualifying :// The perennial nature, prolific white to pink racemes, and attractive foliage and form of october flower [Polygonella polygama (Vent.) Engelm. & A. Gray] and sandhill wireweed [Polygonella robusta (Small) G.L. Nesom & V.M. Bates] suggest that these wildflowers could have significant ornamental and landscape potential if an effective propagation method could be ://

      Seeds with PD are affected by the phytohormone abscisic acid (ABA) and their physiological-inhibition grade (deep, intermediate and nondeep) varies according to their response to other phytohormone gibberellic acid (GA) and the breaking-dormancy requirements. Seeds showing MD dormancy have a small immature (underdeveloped, but differentiated   Seeds incubated for 12 weeks in the dark at 4°C exhibited secondary dormancy. Weed seeds undergo a seasonal deep dormancy in winter and early spring and a low level of dormancy in early autumn. Physiology of dormancy in weed seeds. Help us write another book on this subject and reach those ://


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Physiology of deep dormancy in seeds (Fiziologiya glubokogo pokoya semyan) by Marianna Georgievna Nikolaeva Download PDF EPUB FB2

Physiology of deep dormancy in seeds (Fiziologiya glubokogo pokoya semyan). Jerusalem, Israel Program for Scientific Translations [available from the U.S. Dept. of Commerce, Clearinghouse for Federal Scientific and Technical Information, Springfield, Va.] (OCoLC) Material Type: Government publication, National government publication Physiology of deep dormancy in seeds [] Nikolaeva, M.

(Marianna Georgievna) Mifʻal tirgume ha-madaʻ ha-Yiśreʾeli [Corporate Author]?request_locale=es&recordID=US This updated and much revised third edition of Seeds: Physiology of Development, Germination and Dormancy provides a thorough overview of seed biology and incorporates much of the progress that has been made during the past fifteen years.

With an emphasis on placing information in the context of the seed, this new edition includes recent advances in the areas of molecular biology of  › Life Sciences › Biochemistry & Biophysics. Physiology of deep dormancy in seeds (Fiziologiya glubokogo pokoya semyan) by M. Nikolaeva,Israel Program for Scientific Translations [available from the U.S.

Dept. of Commerce, Clearinghouse for Federal Scientific and Technical Information, Springfield, Va.] edition, in English   PHYSIOLOGY OF DEEP DORMANCY IN SEEDS by Nikolaeva, M.

and a great selection of related books, art and collectibles available now at :// Physiology of deep dormancy in seeds. Leningrad, Russia: Izdatel'stvo ‘Nauka’; [Google Scholar] Nikolaeva MG.

Factors controlling the seed dormancy pattern. In: Khan AA, editor. The physiology and biochemistry of seed dormancy and germination. Amsterdam: North-Holland; pp. 51– [Google Scholar] Nikolaeva :// Physiology and Biochemistry of Seeds in Relation to Germination Volume 2: Viability, Dormancy, and Environmental Control Physiology of deep dormancy in seeds (Fiziologiya glubokogo pokoya semyan) [by] M.

Nikolaeva. [Translated by Z. Shapiro. Edited by M. Kohn and H. Mills] Israel Program for Scientific Translations [available from the U.S. Dept. of Commerce, Clearinghouse for Federal Scientific and Technical Information, Springfield, Va.], About this Item: Springer-Verlag New York Inc., United States, Paperback.

Condition: New. 3rd ed. Language: English. Brand new Book. This updated and much revised third edition of Seeds: Physiology of Development, Germination and Dormancy provides a thorough overview of seed biology and incorporates much of the progress that has been made during the past fifteen :// Physiology and Biochemistry of Seeds in Relation to Germination Volume 2: Viability, Dormancy, and Environmental Control.

Authors: Bewley, J. Derek, Black, M. Free Preview. Buy this book eB40 Book Title Physiology and Biochemistry of Seeds in Relation to Germination Book Subtitle Volume 2: Viability, Dormancy, and Environmental  › Life Sciences › Ecology. Deep simple epicotyl morphophysiological dormancy in seeds of two Viburnum species, with special reference to shoot growth and development inside the seed.

Annals of Botany, Vol. Issue. 1, p. Annals of Botany, Vol. Issue. 1, ://   indicated that the maintenance of dormancy in imbibed seeds is an active process involving de nov o ABA synthesis as was also shown for dormant seed batches of the accession Cvi (Ali-Rachedi The evolution of the seed represents a remarkable transition for photosynthetic organisms.

It is the most complex and successful method of sexual reproduction in vascular plants. Seed contain the genetic wisdom of the past and the potential for its perpetuation in the future. Seeds remain in a state of dormancy induced by desiccation and the hormone abscisic acid until conditions for growth   I wanna know more about olive seed physiology and dormancy, and the best practical methods to improve its germination.

(up to 60%) high numbers of ungerminated (fresh) seeds with deep dormancy Seed dormancy (Plant Physiology) 1. Seed dormancy 2. Seed dormancy is defined as a state in which seeds are prevented from germinating even under environmental conditions normally favorable for germination. These conditions are a complex combination of water, light, temperature, gasses, mechanical restrictions, seed coats, and hormone ://   Thus, dormancy in cumin seeds must be simple subclasses of morphophysiological dormancy and the level of morphophysiological dormancy must be non-deep simple.

A short period of dry storage (after-ripening) could not increase germination in cumin seeds, but seeds came out of physiological dormancy after a longer period (20 months) of dry storage Ecophysiology of deep simple epicotyl morphophysiological dormancy in seeds of Gagea lutea (Liliaceae) - Volume 14 Issue 4 - T.

Kondo, T. Miura, N. Okubo, M. Shimada, C. Baskin, J. Baskin   Nikolaeva MG () Physiology of deep dormancy in seeds. Izdatel’stvo ‘Nauka’, Leningrad (in Russian) (trans: Shapiro Z) ().

National Science Foundation, Washington, DC, p   Seed dormancy is an evolutionary adaptation that prevents seeds from germinating during unsuitable ecological conditions that would typically lead to a low probability of seedling survival.

Dormant seeds do not germinate in a specified period of time under a combination of environmental factors that are normally conducive to the germination of non-dormant :// After reaching physiological maturity, seeds of many plant species, including Arabidopsis (Arabidopsis thaliana), may enter in a state of deep dormancy during which, upon sowing, the dormant (D) seeds will not germinate or germinate only very slowly compared to the corresponding non-dormant (ND) dormancy is considered as an adaptive trait that enables seeds to remain quiescent until.

Non-deep PD is divided into two sublevels: one for seeds that exhibit a dormancy continuum (types 1, 2 and 3) and the other for those that do not exhibit a dormancy continuum (types 4, 5 and 6).

Analysis of previous studies showed that different types of non-deep PD also can be Although GA 3 increases germination in seeds with non-deep and intermediate MPD, seeds with deep MPD cannot germinate (Nikolaeva, ).

Seed dormancy requiring warm temperatures for radicle emergence followed by cold temperatures for shoot emergence is generally known as “epicotyl dormancy” (Kondo et al., ; Baskin and Baskin, )This updated and much revised third edition of Seeds: Physiology of Development, Germination and Dormancy provides a thorough overview of seed biology and incorporates much of the progress that has been made during the past fifteen years.

With an emphasis on placing information in the context of the seed, this new edition includes recent advances in the areas of molecular biology of ?id=eVsZ8a-GmSwC.