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1.
用马尾松19个家系1年生苗及18个家系3年生苗为母株建立采穗圃,采集半木质化插条在人工气候室的条件下扦插试验,研究生根率、每穗生根数、最长根长、平均根长、当年插条苗高的家系间变异程度,生根性状间的表型相关,遗传力等。结果表明,各生根性状在家系间存在显著差异,且受较强的遗传控制。根系效果指数是评价马尾松插条生根能力的较理想综合指标,但从不同生根性状的相关性分析结果来看,用生根率性状更简便直观。在家系选择基础上建采穗圃,可明显提高马尾松扦插繁殖能力。从种子园优良家系中筛选出生根率高的优良家系建立采穗圃,是马尾松扦插繁殖应用的有效途径。 相似文献
2.
杉木无性系扦插苗产量和质量的变异与相关分析 总被引:1,自引:1,他引:0
杉木无性系扦插试验结果表明,秋季扦插平均成活率83%;比春、夏、冬季扦插平均成活率分别高53%、69%和60%,102个无性系1年生秋插苗平均成苗率81%,苗高29.5%厘米,地径4.1毫米,直立率59.2%,反映秋插苗质量的苗高、地径、直立率等性状受较强的遗传控制且遗传变异幅度较大。秋插苗直立率与成苗率、同、地径之间存在极显著的遗传正相关,根据直立率进行间接选择,入选10个无性系的成活率,成苗率 相似文献
3.
Peter Felker 《Agroforestry Systems》2008,72(1):23-26
Rooting of cuttings is an important part of many components of agroforestry and horticultural research. A technique for rooting
cuttings in which the frequency between misting is controlled by environmental sensors is reported here. In developing countries
variability in water pressure (or lack thereof) and voltage levels for mist systems often greatly comprises research involved
with rooting of cuttings. These problems were overcome with an electrical system comprised of a permanently charged truck
battery with a DC mist controller and a high pressure pump. An 800 l ground level storage tank with float valve provided a
water reservoir. This system was capable of operating a 2.2 m by 2.2 m, high-pressure, mist bench for about 8 h completely
independent of water and electricity. As an added advantage, the mist frequency was proportional to light intensity (and air
temperature), thus avoiding over watering. 相似文献
4.
在无激素处理的条件下,1.5年生幼龄母株的插穗易于生根,平均生根率达96.0%以上,且发根最大,偏根率低;4.5年生时,插穗生根率极显著低于1.5年生母株,而与8.5年生母株无显著差异;12.5年生母株插穗生根率又极显著低于8.5年生母株。母株年龄与插穗生根率和偏根率分别呈显著的负相关(r=-0.9652)和极显著正相关(r=0.9993),但与生根量和平均最长根长度无显著相关。插穗基部切削方式不 相似文献
5.
《林业研究》2017,(2)
Experiments were carried out to define the effects of hormonal concentrations on semi-hard wood(SHW) and hard-wood(HW) branch cuttings of the Z.armatum. SHW and HW cuttings were collected in the month of March. The SHW and HW cuttings were treated with different concentration of indole-3-acetic acid and indole-3-butyric acid(IAA and IBA) and placed in vermiculite rooting medium for 90 days under 1-min misting after 10 min. Sprouting, rooting percentage, sprout number, sprout length, root number, and length were measured.The highest rooting and sprouting rate, 64.0 %, was obtained at the 0.3 % IBA treatment in the SHW cuttings.Similarly sprout length and number of roots per cutting were also higher at the 0.3 % IBA treatment in the SHW cuttings. The number of shoots per cutting was higher at the 0.3 % IAA treatment in the SHW cuttings. Root length per cutting was higher in 0.4 % IBA treatment in the SHW cuttings. The results indicated that 0.3 and 0.4 % IBA treatment produce higher rooting percentages as well as the number of roots and their length in SHW cuttings. The HW cuttings produced maximum rate of 18.0 % rooting in0.5 % IBA treatment. The control set and lower concentrations of IBA and IAA completely failed to root in the mist chamber. 相似文献
6.
Applying auxins to freshly cut basal ends of leafy single-node cuttings of Triplochiton scleroxylon, an important timber tree of West Africa, considerably enhanced rooting percentages. The optimal concentrations in 10 μl MeOH droplets of a 50 : 50 mixture of α-naphthalene acetic acid (NAA) and indole-3-butyric acid (IBA) ranged from 8–40 μg according to clone. Larger amounts, which tended to increase numbers of roots per rooted cutting, inhibited root production in some clones. When applied singly, IBA was more effective than NAA in most clones.Leafless cuttings rarely rooted even when treated with auxins. Rooting occurred following the retention of 5 cm2 of leaf lamina, and was maximal, as judged by rooting percentages, with 50 cm2. The inability of leafless cuttings to root was associated with the rapid depletion of all carbohydrates in stem tissues, while those in unshaded leafy cuttings tended to increase.Percentages of cuttings rooting increased when temperatures of propagating-beds were raised above 20°C, and 28°C was optimal for most clones, especially if treated with auxins. Cutting survival declined above 28°C, although up to 38°C surviving cuttings rooted equally well. 相似文献
7.
A study to determine the best vegetative propagation protocol was carried out for Dalbergia melanoxylon. Natural regeneration of D. melanoxylon is limited due to poor seed viability and germination. The effects of age of donor plant, indole-3-butyric acid (IBA) treatment
and cutting position on rooting of stem cuttings were investigated. The effect of age of donor plant was significant (P < 0.001) only for percent rooting, position effect was significant for all studied parameters, and IBA treatment at 300 ppm
was insignificant only for percent callusing. Interactive effects of cutting position × age of donor and cutting position × IBA
treatment were significant for percent rooting and root number per cuttings while interactive effect of age × IBA was significant
only for percent rooting. Observed difference in rooting performance could be due to uneven distribution of root promoting
and inhibiting substances with respect to age of donor plant and IBA which intensified root formation. Cuttings from juvenile
donor plant performed better in all rooting parameters than mature donor plant. The highest percentages in rooting were (71.11%)
and (24.42%) for cuttings from juvenile and mature donor plants, respectively. IBA treated cuttings produced higher percentage
rooting, number of roots and root length than untreated cuttings which revealed a strong IBA influence on rooting ability
of stem cuttings in D. melanoxylon. It was concluded that stem cuttings should be taken from juvenile donor plants and basal cutting position should be used
to produce high quality planting stock material for the afforestation and conservation programme of D. melanoxylon. 相似文献
8.
A comparison of pre-planting treatments on hardwood cuttings of four hybrid poplar clones 总被引:1,自引:1,他引:1
Rooting and early growth of four hybrid poplar clones (Populus spp.) planted in a greenhouse were examined after applying 40 pre-rooting treatment combinations to dormant cuttings. Treatments included 2 cutting lengths (5 and 10 cm), 5 soaking times (0, 2, 4, 8, and 12 days), and 4 dips (chitosan, rooting hormone powder, liquid rooting hormone added to the soaking water, and none). Significant differences in both rooting percentages and growth were shown between clones after 7 weeks of growth. Ten cm cuttings had 29% greater rooting success, 28% more above-ground growth, and 12% lower root/shoot ratios than 5 cm cuttings. Cuttings planted without soaking had the lowest rooting success, at less than 45% on average. Commercial rooting hormones decreased the number of rooted cuttings but increased root/shoot ratios. For optimal rooting, we recommend using 10 cm cuttings, soaked for 2 days in water (4 days for the Jackii10 clone) without any additional dipping/hormone substance. 相似文献
9.
Genetic variation in rooting ability of loblolly pine cuttings: effects of auxin and family on rooting by hypocotyl cuttings 总被引:1,自引:0,他引:1
After about 20 days, hypocotyl cuttings from 20-day-old loblolly pine (Pinus taeda L.) seedlings rooted easily in the presence of the auxin indole-3-butyric acid (IBA), with roots forming directly from xylem parenchyma. In contrast, woody cuttings from 1-2-year-old hedged seedlings formed roots indirectly from callus tissue in 60-90 days, but IBA had little effect on rooting. Variation in rooting among hypocotyls from both half- and full-sib families was highly significant in response to IBA, and rooting did not occur within 20 days unless IBA was applied. Hypocotyls from poor rooting families tended to produce fewer roots per cutting than hypocotyls from good rooting families. Rooting by woody cuttings and hypocotyl cuttings from the same nine full-sib families was weakly correlated, raising the possibility that at least some common genetically controlled processes were affecting rooting by both types of cutting. The phytotropin N-1-naphthylphthalamic acid (NPA), supplied at 1 micro M with 10 micro M IBA, significantly inhibited rooting by hypocotyl cuttings from both good and poor rooting families, but there was no significant family x treatment interaction. Family variation in rooting ability may be a function of the frequency of occurrence of auxin-responsive cells in the hypocotyls. 相似文献
10.
Rooting of baldcypress cuttings 总被引:6,自引:0,他引:6
A test of the rooting performance and growth of cuttings from 1-year-old and 25-to 50-year old baldcypress (Taxodium distichum L.) branch tips is reported. Rooting of cuttings from one-year-old trees averaged 75% (0.1% IBA treatment) and 88% (control), cuttings from 25 to 50-year-old trees averaged 12% in both the IBA treatment and the control treatment. Indole-3-butyric acid at a 0.1% concentration did not enhance rooting, but resulted in a significant increase in shoot dry weight on cuttings from one-year-old trees. The results of this experiment suggest that cuttings from mature baldcypres trees have the potential to root, thereby, additional rooting techniques such as girdling and stump sprouts is worthy of pursuing. 相似文献
11.
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. 相似文献
12.
13.
本文以卡亚(Cnidoscolus aconitifolius)为对象,研究不同基质,不同木质化程度以及植物生长调节剂不同种类、浓度对其扦插生根的影响.研究结果显示:砂基质扦插效果最好,扦插8d后生根,生根率达95.3%,平均生根数为35.2条,平均根长为3.56条;不同木质化程度的穗条扦插效果存在差异,以顶芽(嫩枝)扦插效果最好;添加ABT的处理生根率高于添加IBA、NAA的处理,ABT、IBA、NAA等3个不同激素浓度为2000mg·L-1的处理生根数最多,从成本和配制难易程度来看可选择浓度为500mg·L-1的ABT作为卡亚扦插的最佳适用植物生长调节剂种类和浓度. 相似文献
14.
15.
以3年生金雀花实生苗为试验材料,采用正交设计的方法,研究了激素种类(IAA,NAA和GGR)、质量浓度(1 000,1 500和2 000 mg/L)、处理时间(5,10,20 s)和插穗年龄(1,2,3年生)对其扦插生根的影响。结果表明:4因素对金雀花插穗生根质量均有显著影响,其中生根率1年生插穗极显著高于3年生插穗。因此,在实际生产中可通过修剪促进枝条萌芽,以增加1年生插穗的数量,多产出生根扦插苗;扦插生根的最佳处理为用1 500 mg/L IAA处理金雀花2年生插穗10 s,该处理的生根指标为生根率79.97%、根量13条/枝、根长71.68 mm。 相似文献
16.
In order to study and monitor rates of rooting, callusing and survival, small diameter stem cuttings (less than 0.4 cm) with eight nodes (12–14 cm long) were taken from trees in the field at different times of the year in tests with small batches of cuttings. Among the four tested substrates, well drained crushed basalt powder placed on a bed of gravel was the best rooting medium. Rooting was generally poor or even non-existent with this type of cutting, but the presence of leaves both promoted rooting and significantly (using Chi square test) improved survival of the cutting. Four leaves were sufficient to assure the necessary metabolic functions. Only stem cuttings collected during the rainy season gave roots and then, only when hormonal treatments were applied to the cuttings. 8%-IBA resulted in significantly better rooting than did 2%-IBA, 0.2%-NAA and 1%-IAA. With 8%-IBA, the rate of rooting varied between 50 and 70% for leafy cuttings collected in the rainy season. Hormonal treatments had a significant effect on the survival rate of the stem cuttings during the two months observation period. Further investigations are being conducted with different types of cuttings. 相似文献
17.
Applied auxin, node position, leaf area and cutting length were examined to investigate the requirements for rooting stem cuttings of Khaya ivorensis. All these variables were shown to be important factors affecting rooting, confirming the hypothesis that successful rooting can be achieved if these primary variables are optimised.The best concentration of the auxin IBA was found to be 200 g per cutting, which hastened rooting, increased the percentage of cuttings rooted and increased the number of roots per cutting. One clone (8013) was unresponsive to auxins in terms of the percentage of cuttings rooted, but was the most responsive in terms of the numbers of roots per cutting. A greater percentage of cuttings from basal nodes were rooted than from apical nodes. Cuttings cut squarely at the base produced a radially-arranged root system, whereas an oblique cut resulted in a one-sided root system.Trimming the leaf area of cuttings to 10 cm2 gave greater rooting percentages than trimming to 100 cm2. In general, long cuttings (39 mm) rooted better than short cuttings (19 mm), however, there was an interaction between leaf area and cutting length, in which cuttings with short stems and large leaves had the lowest rooting percentage. 相似文献
18.
The main objective of our clonal propagation program is the production of high quality timber and faster tree growth. Teak
(Tectona grandis Linn. f.) is an important plantation species in the tropics but the demand of teak timber is increasing globally. Teak planting
stock is still produced from seeds of unselected elite genotypes which may lead to poor stand establishment. The number of
seeds per fruit and their germination ability are also variable and limited by several factors. Therefore an alternative method
i.e., clonal propagation is required for mass multiplication of elite trees. It is an established fact that the clonal propagation
or adventitious root formation in cuttings is markedly affected by several external and internal factors. Considering these,
an experiment was conducted on leafy soft wood shoot cuttings of 3-year-old hedged teak stock plants grown in a hedge garden
to study the effects of branch position and auxin treatment on adventitious root formation. A factorial completely randomized
design was used for experimentation. Coppice shoots were collected from basal, middle and upper positions of the hedge garden;
and mono-nodal leafy cuttings were prepared. These cuttings were treated with different concentrations of IBA and NAA; and
were cultured in a mist chamber for rooting where the relative humidity was maintained at 85 ± 2% with maximum and minimum
day-night temperature at 32 ± 1°C and 26 ± 1°C respectively. After 45 days the cuttings were removed from the rooting medium
and observations were made. It was observed that the rooting parameters viz., percent rooting and percent sprouting, mean
number of leaves, mean number of shoots and length, and mean number of roots and length per cutting were significantly influenced
by the branch position and auxin treatment. Treatment with 4000 ppm IBA increased percent rooting and percent sprouting whereas
NAA suppressed it. Treatment with 4000 ppm IBA also increased the mean number of leaves and shoots, and the length, and the
mean number of roots per cutting. The highest mean number of roots and length were observed in cuttings taken from the branch
emerging at the upper position followed by branches of middle and lower position. Cuttings of branches at a middle position
showed the highest values of percent rooting, percent sprouting, mean number of leaves and shoots and mean shoot length per
cutting. Furthermore, the interactive effect of branch position and auxin treatment on rooting and sprouting response was
also found to be significant. Overall, the findings of this investigation suggest that middle branch position in hedge plants
and 4000 ppm IBA can be made to induce maximum rooting and to produce high quality planting stock material for clonal forestry
program of teak. 相似文献
19.
R. L. Jinks 《New Forests》1995,10(2):183-195
The effect of propagation environment on the rooting of field collected leafy cuttings of ash (Fraxinus excelsior, sycamore (Acer pseudoplatanus) and sweet chestnut (Castanea sativa) was investigated in two experiments. In the first experiment, rooting of all three species in mist enclosed inside a polythene tent was greater than 50%, while rooting of ash cuttings was reduced from 63% in enclosed mist to only 16% in open mist. Rooting in open mist, enclosed mist, and contact polythene was studied in a second experiment. Sycamore cuttings rooted equally well in the two mist systems with an average rooting of 78%. In contrast cuttings of both ash and sweet chestnut rooted most under the enclosed mist system, at 64 and 46% respectively. Rooting of ash cuttings was again depressed in the open mist system where less than 30% of cuttings rooted. This reduction was related to an increase in the percentage of cuttings which remained alive without rooting, while showing proliferation of callus at the cutting base. The percentage of sweet chestnut cuttings which callused without rooting was also much greater in the open mist system than in enclosed mist or contact polythene. 相似文献
20.
Techniques for the vegetative propagation of Ulmus villosa, an indigenous agroforestry tree species of the north-western sub-Himalayas, were developed. Studies investigated the effects on rooting of stem cuttings of growth regulators with sucrose and fungicide (0%, 0.2% p-HBA + 5% sucrose + 5% captan, and IBA concentrations ranging from 0.2 to 1.0% plus each containing, 0.2% p-HBA + 5% sucrose + 5% captan). Cuttings were collected at two times of the year (February and July) from two types of stock plant (seedling and mature trees) and from two positions within the shoots (lower and upper nodes). Cuttings collected in February were leafless, while those collected in July had about 80 cm2 leaf areas. These cuttings were then set under a mist unit. Percentage rooting and primary root number differed significantly between treated and untreated cuttings. Treatment of cuttings with chemical formulations of 0.4% IBA + 0.2% p-HBA + 5% sucrose + 5% captan maximized rooting (82.0%), while, survival (80%) and primary root number (14.7) were greatest with: (i) 0.6% IBA + 0.2% p-HBA + 5% sucrose + 5% captain and (ii) 0.8% IBA + 0.2% p-HBA + 5% sucrose + 5% captan, respectively. Rooting success and root number were better in propagules set in February rather than in July. Cuttings from seedlings rooted better, with more roots ensuring better survival, than cuttings from mature trees (12–13-years-old). In cuttings from seedlings, those cuttings collected from the lower part of the shoots had greater percentage rooting and primary root number than those from the upper part. Maximum root regeneration (100%), roots number (19.0), and survival (98.5%) were achieved when the time of collection (February) and shoot position were optimized. Rooting was best when cuttings had higher levels of sugar, total carbohydrate and peroxidase enzyme activity, and low N. 相似文献