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2012 | 11 | 6 |

Tytuł artykułu

Factors affecting asparagus (Asparagus officinalis L.) root development in vitro

Treść / Zawartość

Warianty tytułu

PL
Czynniki wpływające na rozwój korzeni szparaga (Asparagus officinalis L.) in vitro

Języki publikacji

EN

Abstrakty

EN
Parental lines are propagated in vitro in asparagus breeding. Additionally, in order to obtain super males which are needed for breeding all-male hybrids, anther culture is applied. Healthy and viable asparagus parental plants developed from in vitro culture should contain well formed storage roots. There are many factors affecting asparagus rooting. Only with the healthy explant materials, proper culture medium and growth conditions can asparagus plantlets be produced and later successfully grown in the greenhouse. In this article, obstacles and factors affecting asparagus rooting in vitro as well as trends in developing rooting technique are summarized.
PL
Linie rodzicielskie w hodowli szparaga są rozmnażane in vitro. Dodatkowo w celu otrzymania osobników supermęskich, niezbędnych do hodowli całkowicie męskich odmian, stosowane są kultury pylnikowe. Zdrowe i żywotne rośliny z kultur in vitro muszą posiadać dobrze wykształcone korzenie spichrzowe. Na ukorzenianie się szparaga in vitro wpływ ma wiele czynników. Tylko zdrowe eksplantaty, odpowiednia pożywka i warunki wzrostu umożliwiają otrzymanie roślin i ich dalszą uprawę w warunkach szklarniowych. W artykule zostały przedstawione trudności, czynniki, jak również tendencje w rozwoju techniki ukorzeniania szparaga in vitro.

Słowa kluczowe

Wydawca

-

Rocznik

Tom

11

Numer

6

Opis fizyczny

p.107-118,ref.

Twórcy

autor
  • Beijing Forestry University, P.R.C.
autor
  • Department of Vegetable Crops, Poznan University of Life Science, Dabrowskiego 159, 60-594 Poznan, Poland
  • Department of Vegetable Crops, Poznan University of Life Science, Dabrowskiego 159, 60-594 Poznan, Poland

Bibliografia

  • Bojnauth G., Puchooa S., Bahorun T., 2003. In vitro regeneration of Asparagus officinalis: preliminary results. Food and Agriculture Research Council, Reduit, Mauritius, AMAS, 7–15.
  • Cai K.X., Lin Z.K., Luo J.S., Gao H.C., Chen Z.D., Huang G.D., 2005. Factors affecting proliferation coefficient in Asparagus officinalis L. tissue culture. Fujian Sci. Technol. Tropical Crops. 30 (3), 6–7 [in Chinese].
  • Chen G.Y., Conner A.J., Christey M.C., Fautrier A.G., Field R.J., 1997. Culture and regeneration of protoplasts from shoots of asparagus cultures. Internat. J. Plant Sci. 158 (5), 543–551.
  • Chen W.F., Zhou X., 1994. Effects of GA3 and S3307 on root formation in Asparagus officinalis. Plant Physiol. Communicat. 30 (1), 26–28 [in Chinese].
  • Chen Z.D., 2007. Studies of technology systems for tissue culture and rapid propagation of Asparagus offcinalls L. Southwest China J. Agric. Sci. 20 (3), 470–473 [in Chinese with English summary].
  • Conner A.J., Abernethy D.J., Falloon P.G., 1990. Transplantation of micropropagated asparagus plants to greenhouse conditions: the importance of in vitro root development. Acta Hort. 271, 128.
  • Doré C., 1977. In vitro techniques as an efficient tool in asparagus breeding. Acta Hort. 78, 89–93.
  • Falloon P.G., 1982. The need for asparagus breeding in New Zealand. New Zealand J. Exp. Agric. 10 (1), 101–109.
  • Falloon P.G., Nikoloff A.S., 1986. Asparagus: value of individual plant yield and fern characteristics as selection criteria. New Zealand J. Exp. Agric. 14 (4), 417–420.
  • Feng X.R., Wolyn D.J., 1991. High frequency of haploid embryos in asparagus anther culture. Plant Cell Rep. 10, 574–578.
  • Fortes G., Muller N., Augustin E., Silva J., Peters J., Flores R., 1997. The influence of spear number on in vitro rooting of asparagus (Asparagus officinalis L.). HortScience. 32 (3), 471.
  • Gebler P., 2005. Method development of obtaining supermale asparagus (Asparagus officinalis L.). PhD dissertation, Poznań University of Life Sciences, Poland, 1–84 [in Polish].
  • Gonzalez Castanon M.L., 1990. Evaluation of male and female asparagus plants. Interest in obtaining male or dioecious hybrids. Acta Hort. 271, 83–89.
  • Gonzalez Castanon M.L., 2002. Asparagus anther culture. Influence of genotype and growth environment conditions of the donor plants on the androgenetic response. Acta Hort. 589, 211–215.
  • Górecka K., Krzyżanowska D., Górecki R., 1998. The effect of different factors on asparagus rooting in vitro and adaptation. Materiały konferencji i obrad sekcji 51 Zjazdu PTB, Gdańsk, 167 [in Polish].
  • Grossmann K., Kwiatkowski J., Siebecker H., Jung J., 1987. Regulation of plant morphology by growth retardants. Plant Physiol. 84, 1018–1021.
  • Guo C.H., Ma F.T., Zhang Q.R., Li M.X., 1993. Root induction of asparagus in vitro by PP333. J. Northwest Sci-Tech Univ. Agric. Forestry. 21 (3), 32–36 [in Chinese with English summary].
  • Hamada K., Shimasaki K., Nishimura Y., Sasaoka H., Nishimura K., 2011. Applicability of a new developed field emission lamp for proliferation of Cymbidium PLB in vitro. Acta Hort. 907, 385–388.
  • Harada T., Yakuwa T., 1983. Studies on the morphogenesis of asparagus: VI. Effect of sugar on callus and organ formation in the in vitro culture of shoot segments of the seedlings. J. Faculty Agric., Hokkaido University. 61 (3), 307–314.
  • Hicks G.S., 1980. Patterns of organ development in plant tissue culture and the problem of organ determination. Botanical Review. 46 (1), 1–23.
  • Inagaki N., Harada T., Yakuwa T., 1981. Studies on the anther culture of horticultural crops: IV. Effect of growth regulators on organ formation from anther derived callus of Asparagus officinalis L. J. Faculty Agric., Hokkaido University. 60 (3), 236–249.
  • Inagaki N., Harada T., Yakuwa T., 1983. Studies on the anther culture of horticultural crops VII: Investigation of optimal conditions for obtaining pollen-originating callus and its characteristics in Asparagus officinalis L. J. Faculty Agric., Hokkaido University. 61 (3), 279–284.
  • Khunachak A., Chin C., Le T., Gianfagna T., 1987. Promotion of asparagus shoot and root growth by growth retardants. Plant Cell, Tissue and Organ Culture. 11, 97–110.
  • Kohmura H., Chokyu S., Harada T., 1994. An effective micropropagation system using embryogenic calli induced from bud cluster in Asparagus officinalis L. J. Jap. Society Hortic. Sci., 63 (1), 51–59.
  • Krzyżanowska D., Górecka K., Glapś T., Górecki R., Knaflewski M., 1995. Effect of genotypes on the asparagus regeneration and rooting in vitro. V Zjazd Hod. Rośl. Ogrod. Skierniewice 23–24. 2, 573–579 [in Polish].
  • Lai P.C., Hsu J.Y., Yeh C.C., Tsay H.S., 1991. Breeding for all-male plants through anther culture in asparagus: I. The anther culture efficiency among different varieties and plants. J. Agric. Res. China. 40 (1), 94–101 [in Chinese with English summary].
  • Lin Z.K., Luo J.S., Cai K.X., Chen Z.D., Gao H.C., Huang D.G., 2006a. Study on enrichment culture of Asparagus officinalis L. cespitose buds. Subtropical Plant Sci. 35 (1), 29–32 [in Chinese with English summary].
  • Lin Z.K., Gao H.C., Chen Z.D., Luo J.S., Cai K.X., Huang D.G., 2006b. Effects of several factors on rooting of Asparagus officinalis L. test-tube seedling. Plant Physiol. Communicat. 42 (4), 617–620 [in Chinese with English summary].
  • Lin Z.K., Zhang T.X., Yang J.J., Cai K.X., Liu C.Q., 2007. Study on callus inducement and green shoot differentiation of white asparagus anther. Chinese Agric. Sci. Bull. 23(9), 129–133 [in Chinese with English summary].
  • Lin Z.K., Chen Z.D., Cai K.X., Yang J.J., Zhang T.X., 2008. A study on the effects of several plant growth regulators on rooting of white asparagus (Asparagus officinalis L.) test-tube seedling from anther culture. Acta Agriculturae Univ. Jiangxiensis. 30 (4), 651–655 [in Chinese with English summary].
  • Lin Z.K., Wen Q.F., Lin Y.Z., 2010. Technology system of culture for Asparagus offcinalis L. anther. Fujian J. Agric. Sci. 25 (2), 212–216 [in Chinese with English summary].
  • Mamiya K., Sakamoto Y., 2000. Effects of sugar concentration and strength of basal medium on conversion of somatic embryos in Asparagus officinalis L. Sci. Hortic. 84 (1–2), 15–26.
  • Murashige T., Skoog F., 1962. A revised medium for rapid growth and bio assays with tobacco cultures. Physiol. Plant. 15 (3), 473–497.
  • Murashige T.M., Shabed M.N., Hasegawa P.M., Takatori F.H., Jones J.B., 1972. Propagation of asparagus through shoot apex culture. I. Nutrient medium for formation of plantlets. J. Am. Soc. Hortic. Sci. 97 (2), 158–161.
  • Pontaroli A.C., Camadro E.L., 2005. Plant regeneration after long term callus culture in clones of Asparagus officinalis L. Biocell. 29 (3), 313–317.
  • Reuther G., 1983. Application of tissue culture methods for improvement of Asparagus officinalis L. Asparagus Res. Newslett. 1, 2, 42–59.
  • Saharan V., 2010. Effect of gibberellic acid combined with saponin on shoot elongation of Asparagus officinalis. Biologia Plant. 54 (4), 740–742.
  • Shen S., Zou D., Zhang C., Liu S., 1995. Improved rate of callus and plantlet from anther culture of asparagus (Asparagus officinalis L). Acta Hort. 402, 299–305.
  • Shen H.L., Zhao N., Han Q.X., Dai F.W., 2006. Effects of stem-segment increased culture on rooting differentiation during quick reproduction of asparagus in vitro. Acta Agric, BorealoSinica. 21 (S1), 46–49 [in Chinese with English summary].
  • Shigeta J., Sato K., Tanaka S., Nakayama M., Mii M., 1996. Efficient plant regeneration of asparagus by inducing normal roots from in vitro multiplied shoot explants using gellan gum and glucose. Plant Sci. 113 (1), 99–104.
  • Shi K.W., Li S.Z., Zhang G.S., 1995. Effects of two-step rooting method on the rooting of asparagus (Asparagus officinalis L) by tissue culture. J. Zhejiang Agric. Sci. 2, 64–65 [in Chinese].
  • Tanaka M., Norikane A., Watanabe T., 2009. Cold cathode fluorescent lamps (CCFL): Revolutionary light source for plant micropropagation. Biotechnology & Biotechnological Equipment. 23 (4), 1497–1503.
  • Tang Y.P., Zhou J.S., Luo S.C., Sheng W.T., Xie Q.X., Zhu Y.L., Chen G.Y., 2011. A preliminary study on isolated microspore culture of Asparagus officinalis L. Acta Agric. Jiangxi. 23 (3), 14–16 [in Chinese with English summary].
  • Tsay H.S., Lai P.C., Chi N.C., 1980. Studies on anther culture and haploid plant regeneration of asparagus. J. Agric. Res. China. 29 (4), 309–319 [in Chinese with English summary].
  • Wang J.Y., Zhang X.P., Yang R., Li X.F., 2010. Effects of auxins on the propagation of Asparagus officinalis L. J. East China Normal Univ. (Nature Science). 6, 101–108 [in Chinese with English summary].
  • Wu C.R., Liu L.N., Yu A.P., Zhao X.M., Zhou G.Y., 2006. Different factors on formation of rooting in Asparagus officinalis in vitro. Bull. Botanic. Res. 26 (4), 430–434 [in Chinese with English summary].
  • Yakuwa T., Harada T., Tsuji H., 1982. Studies on the morphogenesis of asparagus: IV. The effect of transplanting on callus and organ formation of stem segment cultured in vitro. J. Faculty Agric., Hokkaido University. 61 (1), 151–159.
  • Yang H.J., Clore W.J., 1974. Development of complete plantlets from moderately vigorous shoots of stock plants of asparagus in vitro. HortScience. 9 (2), 138–140.
  • Yang Q.C., Liu W.K., Guan D.P., 2007. Design of device for fast propagation of plant sugar-free tissure and its environmental control system. J. Agric. Sci. Technol. 9 (4), 79–84. [in Chinese with English Summary].
  • Zeng B., 2005. Literature review of sugar-free technology in plant tissue culture. Nonwood Forest Res. 23 (2), 67–71.

Typ dokumentu

Bibliografia

Identyfikatory

Identyfikator YADDA

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