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Plant Growth Regulators and Morphogenesis in Cell and Tissue Culture of Forest Trees

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Cell and Tissue Culture in Forestry

Part of the book series: Forestry Sciences ((FOSC,volume 24-26))

Abstract

Plant growth regulators include naturally occurring plant hormones such as indoleacetie acid (IAA), gibberellins, zeatin, abscisic acid (ABA) and ethylene, etc., and also a number of synthetic chemicals that affect or control growth and development in plants. Each type of plant growth regulator has a wide range of physiological effects in different plants. These effects are determined by the kind of the growth regulator, its concentration, the presence or absence of other growth regulators, and by the genetic makeup and the physiological status of the target tissue. The same physiological response in different tissues even of the same plant may require different growth regulator(s) or different combinations of growth regulators. Synergism and quantitative interaction of two or more growth regulators are of common occurrence. Finally, a growth regulator that elicits a positive response in a given tissue at a given concentration may inhibit the same physiological response when used at higher concentrations.

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References

  1. ADDICOTT, FT, JL. LYONS 1969 Physiology of abscisic acid and related substances. Annu Rev Plant Physiol 20: 139–169

    Article  CAS  Google Scholar 

  2. AFOCEL 1979 Micropropagation d’Arbres Forestiers No 12–6/79. Association Foret-Cellulose, Nangis, France

    Google Scholar 

  3. ALTMAN A, R. GOREN 1971 Promotion of callus formation by abseisic acid in citrus bud cultures. Plant Physiol 47: 844–846

    Article  Google Scholar 

  4. ALTMAN A, R. GOREN 1974 Interrelationship of abscisic acid and gibberellic acid in the promotion of callus formation in the abscission zone of citrus bud cultures. Physiol Plant 32: 55–61

    Article  Google Scholar 

  5. AMERSON HV, RL. MOTT 1982 Improved rooting of western white pine tissue culture produced shoots. For Sci 28: 822–825

    Google Scholar 

  6. AMMIRATO P 1974 The effects of abscisic acid on the development of somatic embryos from cells of caraway (Caru carvi L.). Bot Gaz 135: 328–337

    Article  CAS  Google Scholar 

  7. AMMIRATO PV 1977 Hormonal control of somatic embryo development from cultured cells of caraway: Interactions of abscisic acid, zeatin, and gibberellic acid. Plant Physiol 59: 579–586

    Article  PubMed  CAS  Google Scholar 

  8. AMMIRATO PV 1983 The regulation of somatic embryo development in plant cell cultures: suspension culture techniques and hormone requirements. Biotechnology March 1983: 68–74

    Article  Google Scholar 

  9. ARNOLD S von, T. ERIKSSON 1979 Bud induction on isolated needles of Norway spruce (Picea abies L. Karsh) grown in vitro. Plant Sci Lett 15: 363–372

    Article  Google Scholar 

  10. BASU PS, V. TULI 1972 Auxin activity of 3-methyleneoxyindole in wheat. Plant Physiol 50: 499–502

    Article  PubMed  CAS  Google Scholar 

  11. BHOJWANI SS, MK. RAZDAN Plant Tissue Culture: Theory and Practice. Elsevier, Amsterdam, pp 1–502

    Google Scholar 

  12. BONGA JM 1977 Applications of tissue culture in forestry In J Reinert and YPS Bajaj, eds, Plant Cell Tissue and Organ Culture. Springer-Verlag, Berlin pp 93–108

    Google Scholar 

  13. BONGA JM, DJ. DURZAN (eds) 1982 Tissue Culture in Forestry. Martinus Nijhoff/Dr W Junk Pubi, The Hague pp 1–420

    Google Scholar 

  14. BORNMAN CH 1983 Possibilities and constraints in the regeneration of trees from coteledonary needles of Picea abies in vitro. Physiol Plant 57: 5–16

    Article  Google Scholar 

  15. BRADSHAW RA, WA. FRAZIER 1981 Hormone receptors as regulators of hormone action. Curr Top, Cell Reg 12: 1–37

    Google Scholar 

  16. BRAUN AC, U. NAF 1954 A non-auxinic growth-promoting factor present in crown-gall tumor tissue. Proc Soc Exp Biol Med 86: 212–214

    PubMed  CAS  Google Scholar 

  17. BROWN CL, HE. SOMMER 1975 An Atlas of gymnosperms cultured In vitro: 1924–1974. GA For Res Counc, Macon, GA pp 1–271

    Google Scholar 

  18. BUTENKO RG, AKH. LIPSKY, ND. CHERNYAK, HC. ARYA 1984 Changes in culture medium pH by cell suspension cultures of Dioscorea deltoidea. Plant Sci Lett 35: 207–212

    Article  CAS  Google Scholar 

  19. CAMPBELL RA, DJ. DURZAN 1975 Induction of multiple buds and needles in tissue cultures of Picea glauca. Can J Bot 53: 1652–1657

    Article  CAS  Google Scholar 

  20. CAMPBELL RA, DJ. DURZAN 1976 Vegetative propagation of Picea glauca by tissue culture. Can J For Res 6: 240–243

    Article  Google Scholar 

  21. CHEN C, DK. MELITZ, B. PETSCHOW, RL. ECKERT 1980 Isolation of cytokinin-binding protein from plant tissues by affinity chromatography. Eur J Biochem 108: 379–387

    Article  PubMed  CAS  Google Scholar 

  22. COHEN JD, BANDURSKI 1982 Chemistry and physiology of the bound auxins. Annu Rev Plant Physiol 33: 403–430

    Article  CAS  Google Scholar 

  23. COLEMAN WK, TA. THORPE 1978 In vitro culture of western red cedar (Thuia plicate.). II. Induction of male strobili from vegetative shoot tips. Can J Bot 56: 557–564

    Google Scholar 

  24. CROZIER A ed 1983 The Biochemistry and Physiology of Gibberellins. (Vol. 2 ) Praeger Sci, New York, pp 1–452

    Google Scholar 

  25. CROZIER A, JR HILLMAN 1984 The Biosynthesis and Metabolism of Plant Hormones. Cambridge Univ Press, London pp 1–288

    Google Scholar 

  26. DALTON CC, K. IQBAL, DA. TURNER 1983 Iron phosphate precipitation in Murashige and Skoog media. Physiol Plant 57: 472–476

    Article  CAS  Google Scholar 

  27. DENNIS FG 1977 Growth hormones: Pool size, diffusion or metabolism. HortScience 12: 217–220

    CAS  Google Scholar 

  28. DURZAN DJ 1980 Progress and promise in forest genetics. Proc 50th Anniv Conf, Pap Sei Technol–The Cutting Edge, Inst Pap Chem, Appleton, WI May 8–10, 1979, pp 31–60

    Google Scholar 

  29. DYSON WH, RH. HALL 1972 Nu- (4’- Isopentenyl) adenosine: Its occur-ranee as a free nucleoside in an autonomous strain of tobacco tissue. Plant Physiol 50: 616–621

    Google Scholar 

  30. FIRN RD, AW. KEARNS 1982 The search for the auxin receptor. In PF Wareing, ed, Plant Growth Substances. 1982, Aced Press, NY, pp 385–393

    Google Scholar 

  31. FOX JE 1963 Growth factor requirements and chromosome number in tobacco tissue culture. Physiol Plant 16: 793–803

    Article  CAS  Google Scholar 

  32. FOX JE, J. CORNETTE, GG. DELEUZE, W. DYSON, C. GIERSAK, P. NIU, J. ZAPATA, J. MCCHESNEY 1973 The formation, isolation and biological activity of a cytokinin 7-glucoside. Plant Physiol 52: 627–632

    Article  PubMed  CAS  Google Scholar 

  33. FOX JE, JL. ERION 1977 Cytokinin binding proteins in higher plants. In PE Pilet, ed, Plant Growth Regulation. Springer-Verlag, Berlin, pp 139–146

    Chapter  Google Scholar 

  34. FRYDMAN VM, PF. WAREING 1974 Phase change injiedera helix L. III. The effects of gibberellins, abscisic acid, and growth retardants on juvenile and adult ivy. J Exp Bot 25: 420–429

    Google Scholar 

  35. FUGGI A, VM. RIGANO, V. VONA, C. RIGANO 1981 Nitrate and ammonium assimilation in algal cell-suspensions and related pH variations in the external medium, monitored by electrodes. Plant Sci Lett 23: 129–138

    Article  CAS  Google Scholar 

  36. FUJIWARA A (ed) 1982 Plant Tissue Culture 1982, Japanese Assoc Plant Tissue Culture, Tokyo, pp 1–839

    Google Scholar 

  37. GAUTHERET RJ 1932 Sur la culture d’extrémités de racines. C R Soc Biol 109: 1236–1238

    Google Scholar 

  38. GAUTHERET RJ 1933 Culture de cellules détachées de la coiffe. C R Aead Sei 196: 5638–640

    Google Scholar 

  39. GAUTHERET RJ 1939 Sur la possibilité de réaliser la culture indéfinie des tissues de tubercules de Carotte. C R Acad Sci 208: 118–130

    Google Scholar 

  40. GAUTHERET RJ 1942 Hetero-auxines et cultures de tissues végétaux. Bull Soc Chim Biol 24: 13–41

    CAS  Google Scholar 

  41. GAUTHERET RJ 1983 Plant tissue culture: A history. Bot Mag, Tokyo 96: 393–410

    Article  Google Scholar 

  42. GILADI IA, A. ALTMAN, R. GOREN 971 Differential effects of sucrose, abscisic acid and benzyladenine on shoot growth and callus formation in the abscission zone of excised citrus buds. Plant Physiol 59: 1161–1164

    Google Scholar 

  43. HABERLANDT G 1902 Kulturversuche mit isolietern Pflanzenzellen. Sitz Akad Wiss Wien 111: 69–92

    Google Scholar 

  44. HABERLANDT G 1913 Zur Physiologie der Zellteilung. Sitz Kgl Preuss Akad Wiss, Berlin 16: 318–345

    Google Scholar 

  45. HAHLBROCK K, E. KUHLEN 1972 Relationship between growth of parsley and soybean cells in suspension cultures and changes in the conductivity of the culture medium. Planta 108: 271–278

    Article  Google Scholar 

  46. HALPERIN W, DF. WETHERELL 1964 Adventive embryony in tissue cultures of wild carrot Daucus carota. Am J Bot 51: 274–283

    Article  CAS  Google Scholar 

  47. HALPERIN W, DF. WETHERELL 1965 Ammonium requirement for embryogenesis in vitro. Nature 205: 519–520

    Article  Google Scholar 

  48. HANGARTER, RP, MD. PETERSON, NE. GOOD 1980 Biological activities of indoleacetyl amino acids and their use as auxins in tissue culture. Plant Physiol 65: 761–767

    Article  PubMed  CAS  Google Scholar 

  49. ISIKAWA H 1974 In vitro formation of adventitious buds and roots on the hypocotyl of Crvotomeria iaoonica. Bot Mag, Tokyo 87: 73–77

    Article  Google Scholar 

  50. JANSSON E, CH. BORNMAN 1983 Morphogenesis in dormant embryonic shoots of Pices ables: Influence of the crown and cold treatment. Physiol Plant 59: 1–8

    Google Scholar 

  51. KOCHBA J, P. Spiegel-Roy, H. NEUMANN, S SAAD 1978 Stimulation of embryogenesis in citrus ovular callus by ABA, ethephon, CCC, and alar and its suppression by GA. Z Pflanzenphysiol 89: 427–432

    Google Scholar 

  52. KOGL F, AJ. Haagen-Smit, M. ERXLEBEN 1934 Über ein nues Auxin (Heteroauxin) aus Harn. XI. Mitteilung Z Physiol Chem 228: 90–103

    Google Scholar 

  53. KOHLENBACH HW 1977 Basic aspects of differentiation and plant regeneration from cell and tissue cultures. In W. Barz, E Reinhard, MH Zenk, eds, Plant Tissue Culture and its Biochemical Application. Springer-Verlag, Berlin, pp 355–366

    Google Scholar 

  54. KULESCHA Z, RJ. GAUTHERET 1948 Sur l’élaboration de substances de croissance par trois types de cultures de tissus de Scorsonère: Cultures normales, cultures de crown-gall et cultures accoutmees a l’hetéro-auxine. C R Acad Sci 227: 292–294

    Google Scholar 

  55. LALOU M 1977 Cytokinins: 7-glucosylation is not a prerequisite of the expression of their biological activity. Planta 134: 273–275

    Article  Google Scholar 

  56. LETHAM DS, PB. GOODWIN, TJV. HIGGINS, (eds) 1978 Phytohormones and Related Compounds: A Comprehensive Treatise, Elsevier, Amsterdam, Vol 1, pp (Vol. 2 ) 1–648

    Google Scholar 

  57. MACMILLAN J, (ed) 1980 Hormonal Regulation of Development I. Molecular Aspects of Plant Hormones, Encyclopedia of Plant Physiology, New Series(Vol. 9 ) Springer-Verlag, Berlin, pp 1–681

    Google Scholar 

  58. MEINS, F 1981 Habituation of cultured plant cells. In G Kahl and JS Schell, eds, Molecular Biology of Plant Tumors, Acad Press, NY, PP 3–31

    Google Scholar 

  59. MILBORROW BV 1974 The chemistry and physiology of abscisic acid. Annu Rev Plant Physiol 25: 259–307

    Article  CAS  Google Scholar 

  60. MILLER CO 1974 Ribosyl-trans-zeatin, a major cytokinin produced by crown gall tumor tissue. Proc Nat Acad Sci USA 97: 334–338

    Article  Google Scholar 

  61. MILLER CO 1975 Revised methods for purification of ribosyl-transzeatin from Vines rosea L. crown-gall tumor tissue. Plant Physiol 55: 448–449

    Article  PubMed  CAS  Google Scholar 

  62. MILLER CO, F. SKOOG, MH SALTZA, EM. STRONG 1955a Kinetin, a cell division factor from deoxyribonucleic acid J Am Chem Soc 77: 13–92

    Google Scholar 

  63. MILLER CO, F. SKOOG, MH. SALTZA, EM. STRONG 1955b Structure and synthesis of kinetic. J Am Chem Soc 77: 2662–2663

    Article  CAS  Google Scholar 

  64. MINOCHA SC 1980 Callus and adventitious shoot formation in excised embryos of white pine (Pinus strobus). Can J Bot 58: 366–370

    Article  CAS  Google Scholar 

  65. MINOCHA SC, C. ROBIE 1985 The role of 2,4-D and polyamines in somatic embryogenesis in carrot cell cultures (Abst). 12th Int Conf Plant Growth Subs, Aug 26–31, 1985, Heidelberg, W Germany

    Google Scholar 

  66. MOTT RL 1981 Trees. In BV Conger, ed, Cloning Agricultural Plants via In Vitro Techniques., CRC Press, Boca Raton, Fl, pp 217–254

    Google Scholar 

  67. MOTT RL, HV. AMERSON 1981 A tissue culture process for the clonal production of loblolly pine plantlets. NC Agric Res Sery Tech Bull #271, pp 1–14

    Google Scholar 

  68. MOTT RL, HV. AMERSON 1984 Role of tissue culture in loblolly pine improvement. Proc Int Symp Recent Adv For Biotechnol, June 10–14, 1984, Traverse City, MI, pp. 24–36

    Google Scholar 

  69. NANDA KK, P. KUMAR, VK. KOCHAR 1974 Role of auxins, antiauxin and phenol in the production and differentiation of callus on stem cuttings of Pooutus robusta. N Z J For Sei 4: 338–346

    CAS  Google Scholar 

  70. NOBECOURT P 1939 Sur la pérennité et l’augmentation de volume des cultures de tissues végétaux. C R Soc Biol 130: 1270–1271

    CAS  Google Scholar 

  71. PARKER CW, DS. LETHAM 1973 Regulators of cell division in plant tissues. XVI. Metabolism of zeatin by radish cotyledons and hypocotyls. Planta 114: 199–218

    Google Scholar 

  72. PHARIS R, CG. KUO 1977 Physiology of gibberellins in conifers. Can J For Res 7: 299–325

    Article  CAS  Google Scholar 

  73. PHARIS R, SD. ROSS 1976 Gibberellins: their potential uses in forestry. Outlook Agric 9: 82–87

    CAS  Google Scholar 

  74. PHARIS RP, SD. ROSS, RW. WAMPLE, JN. OWENS 1976 Promotion of flowering in conifers of the Pinaceae by certain of the gibberellins. Acta Hortic 56: 155–162

    Google Scholar 

  75. PENGELLY WL and F. MEINS 1978 Variation in the auxin content of crown gall tumor tissues in culture. Plant Physiol 61:Suppl 72 Abstr

    Google Scholar 

  76. RAFFA RB, RJ. TALLARIDA 1985 The concept of a changing receptor concentration: implications for the theory of drug action. J Theor Biel 115: 625–632

    Article  CAS  Google Scholar 

  77. REINERT J. 1959 Uber die Kontrolle der Morphogenese und die Induktion von Adventivebryonen an Gewebekulturen aus Karotten. Planta 53: 318–333

    Article  Google Scholar 

  78. REINERT J, YPS. BAJAJ (eds) 1977 Plant Cell, Tissue and Organ Culture. Springer-Verlag, Berlin, pp 1–803

    Google Scholar 

  79. REKOSLAVSKAYA NI, KZ. GAMGURG 1976 On the biological activity of IAA conjugates. Biochem Physiol Pflanzen 169: 299–303

    CAS  Google Scholar 

  80. SACHS J 1880 Stoff und Form der Pflanzenorgane. Arch Bot Inst Wurzburg 2: 453–689

    Google Scholar 

  81. SAFTNER RA, RE. WYSE 1984 Effect of plant hormones on sucrose uptake by sugar beet root tissue discs. Plant Physiol 74: 951–955

    Article  PubMed  CAS  Google Scholar 

  82. SAKAI S, T. HANAGATA 1983 Purification of an auxin-binding protein from etiolated mung bean seedlings by affinity chromatography. Plant Cell Physiol 24: 685–693

    CAS  Google Scholar 

  83. SASTRI RLN 1963 7n Plant Tissue and Organ Culture- A Symposium. Int Soc Plant Morphol, New Delhi, pp 105–107

    Google Scholar 

  84. SKOOG F (ed) 1979 Plant Growth Substances. Springer-Verlag, Berlin, pp 1–527

    Google Scholar 

  85. SKOOG F, CO. MILLER 1957 Chemical regulation of growth and organ formation in tissues cultured in vitro. Symp Soc Exp Biol, No 11, The Biological Action of Growth Substances, pp 118–131

    Google Scholar 

  86. SOMMER HE, CL. BROWN 1979 Application of tissue culture to forest tree improvement. In WR Sharp, PO Larsen,EF Paddock, V Raghavan, Plant Cell and Tissue Culture: Principles and Applications, Ohio State Univ Press, Columbus, OH, pp 461–491

    Google Scholar 

  87. STODDART JL, MA. VENIS 1980 Molecular and subcellular aspects of hormone action. In J. Macmillan, ed, Hormonal Regulation of Development. I. Encycl Plant Physiol vol. 9. Springer-Verlag,NY, pp 445–510

    Chapter  Google Scholar 

  88. STRAUS J and RR EPP 1960 Response of Cuoressus funebris tissue cultures to gibberellins. Science 131: 1806–1807

    Article  PubMed  CAS  Google Scholar 

  89. STREET HE (ed) 1974 Tissue Culture and Plant Science. Acad Press, London, pp 1–502

    Google Scholar 

  90. STREET HE (ed) 1977 Plant Tissue and Cell Culture. Univ of Calif Press, Berkeley pp 1–614

    Google Scholar 

  91. STUART R, HE. STREET 1969 Studies on the growth in culture of plant cells. IV. The initiation of division in suspensions of stationary phase cells of Acer oseudoolatanus L. J Exp Bot 22: 556–571

    Article  Google Scholar 

  92. STUART R, HE. STREET 1971 Studies on the growth in culture of plant cells. X. Further studies on the conditioning of culture media by suspension of Acer eseudoolatanus L. cells. J Exp Bot 22: 96–106

    Google Scholar 

  93. THORPE TA (ed) 1978 Frontiers of Plant Tissue Culture 1978. Int Assoc Plant Tissue Cult, Univ Calgary Press, Canada, pp 1–556

    Google Scholar 

  94. THORPE T, S. BIONDI 1981 Regulation of plant organogenesis. Ii K Maramoroseh, ed, Advances in Cell Culture. Vol 1, Acad Press, NY pp 213–239

    Google Scholar 

  95. TREWAVAS A 1981 How do plant growth substances work. Plant Cell Environ 4: 203–228

    CAS  Google Scholar 

  96. TREWAVAS A 1982 Growth Substances sensitivity: The limiting factor in plant development. Physiol Plant 55: 60–72

    Article  CAS  Google Scholar 

  97. TRIGGLE DJ 1980 Receptor–Hormone Interelationships. EE Bittar, ed, Membrane Structure and function vol. 3. John Wiley and Sons, New York. pp 1–58

    Google Scholar 

  98. TULI V, HS. MOYED 1969 The role of 3-methyleneoxyindole in auxin action. J Biel Chem 244: 4916–4920

    CAS  Google Scholar 

  99. WALKER KA, PC. YU, SJ. SATO, EG. JAWORSKI 1978 The hormonal control of organ formation in callus of medicago sativa L. cultured in vitro. Am J Bot 65: 650–659

    Google Scholar 

  100. WARDROP AJ, GM. POLYA 1977 Properties of a soluble auxin-binding protein from dwarf bean seedlings. Plant Sci Lett 8: 155–163

    Article  CAS  Google Scholar 

  101. WAREING PF 1978 Abscisic acid as a natural growth regulator. Phil Trans R Soc, London B 284: 483–498

    CAS  Google Scholar 

  102. WAREING PF (ed) 1982 Plant Growth Substances 1982. Acad Press, NY, pp 1–683

    Google Scholar 

  103. WAREING PF, J. GOOD, J. MANUEL 1968 Some possible physiological roles of abscisic acid. In F. Wightman, G Setterfield, eds, Biochemistry and Physiology of Plant Growth Substances. Runge Press, Ottawa, pp 1561–1579

    Google Scholar 

  104. WENT FW 1926 On growth-accelerating substances in the coleoptiles of Avena sativa,. Proc Kon Akad Wetensch Amst 30: 10–19

    Google Scholar 

  105. WETHERELL DF, DK. DOUGALL 1976 Sources of nitrogen supporting growth and embryogenesis in cultured wild carrot tissue. Physiol Plant 37: 97–103

    Article  CAS  Google Scholar 

  106. WHITE PR 1939 Potentially unlimited growth of excised plant callus in an artificial medium. Am J Bot 26: 59–64

    Article  Google Scholar 

  107. WINTON LL, SA. VERHAGEN 1977 Shoots from Douglas-fir cultures. Can J Bot 55: 1246–1250

    Article  Google Scholar 

  108. WOCHOK ZS, DF. WETHERELL 1972 Restoration of declining morphogenetic capacity in long-term cultures of Daucus carota by kinetin. Experientia 28: 104–105

    Article  CAS  Google Scholar 

  109. WOOD HN 1970 Revised identification of the chromophore of a cell division factor from crown gall tumor cells of Vines rosea L. Ann NY Acad Sei 144: 244–250

    Article  Google Scholar 

  110. WOOD HN, AC. BRAUN, H. BRANDES, H. KENDE 1969 Studies on the distribution and properties of a new class of cell division-promoting substances from higher plant species. Proc Natl Acad Sci USA 62: 349–356

    Article  PubMed  CAS  Google Scholar 

  111. ZAERR JB, MO. MAPES 1982 Action of growth regulators. In JM Bonga, DJ Durzan eds, Tissue Culture in Forestry. Martinus Nijhoff/Dr W Junk Publ, the Hague pp 231–255

    Google Scholar 

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  1. Subhash C. Minocha
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Editors and Affiliations

  1. Canadian Forestry Service, P.O. Box 4000, E3B 5P7, Fredericton, N.B., Canada

    J. M. Bonga

  2. University of California, USA

    J. M. Bonga

  3. Canadian Forestry Service, Canada

    Don J. Durzan

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Minocha, S.C. (1987). Plant Growth Regulators and Morphogenesis in Cell and Tissue Culture of Forest Trees. In: Bonga, J.M., Durzan, D.J. (eds) Cell and Tissue Culture in Forestry. Forestry Sciences, vol 24-26. Springer, Dordrecht. https://doi.org/10.1007/978-94-017-0994-1_4

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  • DOI: https://doi.org/10.1007/978-94-017-0994-1_4

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