5Bittin A, Excess N. Application inhitits rooting., the influence of nutrient supply to azalea mother plant on the rooting of cuttings[J]. Gartnerborse and Gartenwelt, 1990,90 (6) : 232-255.
4Nordstrom A C, Eliasson J. 1991. Levels of endogenous indole-3-acetic acid and indole-3-acetylaspartic acid during adventitious root formation in pea cuttings. Physiol Plant, 82: 599- 605
5Sato Y, Sugiyama M, Gorecki R J, Fukuda H, Komamine A. 1993. Interrelationship between lignin deposition and the activities of poroxidase isozymes in differentiating tracheary elements of Zinnia. Planta, 189:584 -589.
6Syros T, Yupsanis T, Zafiriadis H, Economou A S. 2004. Activity and isoforms of peroxidases, lignin and anatomy, during adventitious rooting in cuttings of Ebenus cretica L. J Plant Physiol, 161 : 69 -77.
7Tworkoski T, Takeda F. 2007. Rooting response of shoot cuttings from three peach growth habits. Scientia Horticulturae, 115:98 -100.
8Upadhyaya A, Davis T D, Sankhla N. 1986. Some biochemical changes associated with paclobutrazol-induced adventitious root formation on bean hypocotyl cuttings. Ann Bot, 57 : 309 - 315.
9Wiesmann Z, Riov J, Epstein E. 1988. Comparison of movement and metabolism of indole-3-acetic acid and indole-3-butyric acid in mung bean cuttings. Physiol Plant, 74 : 556 - 560.
10Albarazi Z, Schwabe W W. 1984. The possible involvement of polyphenlo-oxidase and the auxin-oxidase system in root formation and development in cuttings ofPistacia vera. J Hort Sci, 59 (3) : 453 -461.
8Li H H, Pan R C. Hormone control of adventitious rooting in mungbean stem cuRings[C].XV International Botanical Congress. Japan Pacifico Yokohama, 1993:61-83.
9Blakesley D, Chaldecott M A. The role of endogeneous auxin in root initiation II. Sensetivity and evidence from studies on transgenic plant tissues[J].Plant Growth Regul, 1993,13:77-84.
10Haissig E. Meristematic activeity during adventitious root primordium development: Influences of endogenous auxin and applied gibberellic acid[J].Plant Prop, 1972,32:625 -638.