Список исследований
[1] G.Low, 2010 – 2011, The Curious Case of the Flower Dragon and PGRs and Medical Marijuana available at www.mainbotanix.com
[2] Shimizu H. Ma Z. Tazawa S. Douzono M. Runkle E. S. Heins R. D. (2005) Blue Light Inhibits Stem Elongation of Chrysanthemum
[3] Pausch, R.C., S.J. Britz, and CL. Mulchi, Growth and Photosynthesis of Soybean (Glycine mux (L.) Merr.) in Simulated Vegetation Shade: Influence of the Ratio of Red to Far-Red Radiation, Plant, Ceil and Env.,
[4] Kotriana, S. (2013) The effect of light quality on tomato (Solanum lycopersicum L. cv ‘Efialto’) growth and drought tolerance
[5] Dougher T. A. 0. and Bugbee B. (1997) EFFECT OF LAMP TYPE AND TEMPERATURE ON
DEVELOPMENT, CARBON PARTITIONING AND YIELD OF SOYBEAN, Adv. Space Res. Vol. 20, No. 10, pp. 1895 -1899.1997
[6] Rajapakse N. C. and Li S (2002) Exclusion of Far Red Light by Photoselective Greenhouse Films Reduces Height of Vegetable Seedlings
[7] Kotriana, S. (2013) The effect of light quality on tomato (Solanum lycopersicum L. cv ‘Efialto’) growth and drought tolerance
[8] Runkle E. Nelson J. and Bugbee B. LEDs vs. HPS Lamps: A Reality Check, published in GPN Magazine June 2014, www.gpnmag.com
[9] Krishna Reddy S, Finlayson SA (2014) Phytochrome B promotes branching in Arabidopsis by suppressing auxin signaling. Plant Physiol. 2014 Mar;164(3):1542-50. doi: 10.1104/pp.113.234021. Epub 2014 Feb 3. See also Ronald Pierik and Mieke de Wit (2013) Shade avoidance: phytochrome signalling and other aboveground neighbour detection cues
[10] Carabelli M, Possenti M, Sessa G, Ciolfi A, Sassi M, Morelli G, Ruberti I. 2007. Canopy shade causes a rapid and transient arrest in leaf development through auxin-induced cytokinin oxidase activity. Genes and Development 21, 1863–1868.
[11] Morelli G, Ruberti I. 2000. Shade avoidance responses. Driving auxin along lateral routes. Plant Physiology 122, 621–626.
[12] Jon Anders Stavang, Bente Lindgård, Arild Erntsen, Stein Erik Lid, Roar Moe, and Jorunn E. Olsen:
Thermoperiodic Stem Elongation Involves Transcriptional Regulation of Gibberellin Deactivation in Pea, Plant Physiol. Aug 2005; 138(4): 2344–2353. See also Jensen E. Eilertsen S. Ernsten A. Juntilla O and Moe R: Thermoperiodic control of stem elongation and endogenous gibberellins in Campanula isophylla, Journal of Plant Growth Regulatation October 1996, Volume 15, Issue 4, pp 167 – 171
[13] Frank M. Maas, J. Hattum (1996) The Role of Gibberellins in the Thermo- and Photocontrol of Stem Elongation in Fuchsia
[14] Jon Anders Stavang, Bente Lindgård, Arild Erntsen, Stein Erik Lid, Roar Moe, and Jorunn E. Olsen:
Thermoperiodic Stem Elongation Involves Transcriptional Regulation of Gibberellin Deactivation in Pea, Plant Physiol. Aug 2005; 138(4): 2344–2353.
[15] Myster, J. and R. Moe. 1995. Effect of diurnal temperature alternations on plant morphology in some greenhouse crops a mini-review. Scientia Hort. 62:205-215.
[16] Grimstad, S.O. 1993. The effect of a daily low temperature pulse on growth and development of greenhouse cucumber and tomato plants during propagation. Scientia Hort. 53:53-62.
[17] Ueber E and Hendriks L. (1992) Effects of intensity, duration and timing of a temperature drop on the growth and flowering of Euphorbium pulcherrima Willd. ex Klotzsch. Acta Horticulturae 1992;327:33-40.
[18] Douglas A. Bailey, Professor and Brian E. Whipker, Height Control of Commercial Greenhouse Flowers, NC State University, Department of Horticultural Science retrieved 12/14 at http://www.ces.ncsu....il/hil-528.html
[19] Erwin, J.E. and R.D. Heins. 1995. Thermomorphogenic responses in stem and leaf development. HortScience 30(5):940-949.
[20] Berghage, R.D., J.E. Erwin, and R.D. Heins. 1991. Photoperiod influences leaf chlorophyll content in chrysanthemum grown with a negative DIF temperature regime. HortScience 26:92.
[21] Erwin, J.E. and R.D. Heins. 1995. Thermomorphogenic responses in stem and leaf development. HortScience 30(5):940-949.
[22] Ueber E, and Hendriks L (1992) Effects of intensity, duration and timing of a temperature drop on the growth and flowering of Euphorbium pulcherrima Willd. ex Klotzsch. Acta Horticulturae 1992;327:33-40.
[23] Downs R. (1975) Environment and the Experimental Control of Plant Growth pp. 25, Academic Press
Paul V. Nelson, Chen-Young Song, and Jin-Sheng Huang (2002) What Really Causes Stretch? Retrieved from http://www.gpnmag.co...causes-stretch: see also, Plaster, E. J (2008) Soil Science and Management pp. 266
[25] Hansen C. W. and Kai N. L, Non-Chemical Growth Regulation of Ornamental Plants. Department of Ornamentals, Aarslev, Denmark, found in Gron Viden Special Issue published in English No. 121 April 2000
[26] Oki, L.R. and Lieth, J.H. Effect of changes in substrate salinity on the elongation of Rosa hybrida L. ‘Kardinal’ stems. Scientia horticulturae; 2004 May 3, v. 101, issues 1-2
[27] Hidayatullah, Asghari Bano and Mansab Ali Khokhar (2013) Phytohormones Content in Cucumber Leaves by Using Pruning as a Mechanical Stress
[28] Biddington N. L. (1986) The effects of mechanically-induced stress in plants — a review, Plant Growth Regulation, 1986, Volume 4, Issue 2, pp 103-123
[29] Mensuali-Sodi, A., Serra, G., Veiga de vincenzo, M.C., Tognoni, F. and Ferrante, A. 2006. ETHYLENE RESPONSE TO MECHANICAL STRESS PERTURBATION OF SALVIA SPLENDENS L. POTTED PLANTS . Acta Hort. (ISHS) 723:421-426 See also Biddington N. L.The effects of mechanically-induced stress in plants — a review, Plant Growth Regulation, 1986, Volume 4, Issue 2, pp 103-123
[30] Zheng C. Wang W. and Hara T. (2006) Mechanical Stress Modifies Endogenous Ethylene and Gibberellin Production in Chrysanthemum
[31] Beyl, C. and C. Mitchell. 1983. Alteration of growth, exudation rate, and endogenous hormone profiles in mechanically dwarfed sunflower. J. Amer. Soc. Hort. Sci. 108:257–262.
[32] Zheng C. Wang W. and Hara T. (2006) Mechanical Stress Modifies Endogenous Ethylene and Gibberellin Production in Chrysanthemum
[33] Mitchell C. A. (1996) Recent Advances in Plant Response to Mechanical Stress: Theory and Application
[34] Mitchell, C.A., C.J. Severson, J.A. Wott, and P.A. Hammer. 1975. Seismomorphogenic regulation of plant growth. J. Amer, Soc. Hort. Sci. 100:161-165
[35] Latimer, J.G. and C.A. Mitchell. 1988 Effects of mechanical stress or abscisic acid on growth, water status, and leaf abscisic acid content on eggplant seedlings. Scientia Hort. 36:37-46.
[36] Biddington, N,L. and A.S. Dearman 1985. The effect of mechanically induced stress on the growth of cauliflower, lettuce and celery seedlings. Ann. Bot. 55:109-119.
[37] Latimer J. G. Mechanical Conditioning to Control Height, HortTechnology October – December 1998 8(4)
[38] Johjima, T., J.G. Latimer, and H. Wakita. 1992. Brushing influences transplant growth and subsequent yield of four cultivars of tomato and their hybrid lines. J. Amer. Soc. Hort. Sci. 117:384-388. See also Latimer, J.G. and P.A. Thomas. 1991. Application of brushing for growth control of tomato transplants in a commercial setting. HortTechnology 1:109-110.
[39] Liptay, A. 1985. Reduction of spindliness of tomato transplants growth at high density. Can. J. Plant Sci. 65:797-801.
[40] Samimy C. Physical Impedance Retards Top Growth of Tomato Transplants. HORTSCIENCE 28(9):883-885. 1993.
[41] Hidayatullah, Asghari Bano and Mansab Ali Khokhar (2013) Phytohormones Content in Cucumber Leaves by Using Pruning as a Mechanical Stress