Influence of nutrient application rate on growth and rooting potential of the West African hardwood Triplochiton scleroxylon

Effects of stock plant nutrition on growth and subsequent rooting of leafy stem cuttings of the commercially important west African tree Triplochiton scleroxylon K. Schum. were investigated to identify the primary morphological variables influencing adventitious root formation. Potted plants were wa...

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Veröffentlicht in:	Tree physiology 2004-01, Vol.24 (1), p.35-44
Hauptverfasser:	Dick, J McP, Leakey, R R B, McBeath, C, Harvey, F, Smith, R I, Woods, C
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Sprache:	eng
Schlagworte:	Malvaceae - growth & development Plant Leaves - growth & development Plant Roots - growth & development Trees - growth & development
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container_title	Tree physiology
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creator	Dick, J McP Leakey, R R B McBeath, C Harvey, F Smith, R I Woods, C
description	Effects of stock plant nutrition on growth and subsequent rooting of leafy stem cuttings of the commercially important west African tree Triplochiton scleroxylon K. Schum. were investigated to identify the primary morphological variables influencing adventitious root formation. Potted plants were watered as required with one of four balanced nutrient solutions (0, 15, 63 or 125 mg N l(-1)). Increasing the nutrient supply to stock plants increased growth rate and rate of adventitious root production of subsequently harvested cuttings, but an optimum nutrient regime was not identified. Rooting percentage increased from 27% in cuttings harvested from stock plants receiving a low nutrient supply to 64% for cuttings harvested from stock plants receiving eight times the amount of nutrients extractable from plants under typical field conditions in West Africa. The ability of a cutting to retain its leaf during propagation and the length of the cutting were the primary measured characteristics associated with rooting and accounted for 43% of the variance fitted in the model. The length of the new shoot, total leaf area and within-shoot position (node position) were also significantly associated with rooting. After these characteristics were fitted to the model, the genetic origin (clone) was not statistically significant. We conclude that genetic variation in rooting potential is mediated through variations in morphological and physiological traits, rather than through genetic variation in cell differentiation or related aspects of root initiation.
doi_str_mv	10.1093/treephys/24.1.35
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Schum. were investigated to identify the primary morphological variables influencing adventitious root formation. Potted plants were watered as required with one of four balanced nutrient solutions (0, 15, 63 or 125 mg N l(-1)). Increasing the nutrient supply to stock plants increased growth rate and rate of adventitious root production of subsequently harvested cuttings, but an optimum nutrient regime was not identified. Rooting percentage increased from 27% in cuttings harvested from stock plants receiving a low nutrient supply to 64% for cuttings harvested from stock plants receiving eight times the amount of nutrients extractable from plants under typical field conditions in West Africa. The ability of a cutting to retain its leaf during propagation and the length of the cutting were the primary measured characteristics associated with rooting and accounted for 43% of the variance fitted in the model. The length of the new shoot, total leaf area and within-shoot position (node position) were also significantly associated with rooting. After these characteristics were fitted to the model, the genetic origin (clone) was not statistically significant. 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source	MEDLINE; Oxford University Press Journals All Titles (1996-Current)
subjects	Malvaceae - growth & development Plant Leaves - growth & development Plant Roots - growth & development Trees - growth & development
title	Influence of nutrient application rate on growth and rooting potential of the West African hardwood Triplochiton scleroxylon
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