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植物生长抑制剂对盆栽小报春矮化效应的预试验 总被引:2,自引:0,他引:2
《现代园艺》2015,(14)
为了有效控制盆栽小报春的株高,防止花葶过高产生倒伏影响观赏效果,采用不同浓度的矮壮素(CCC)和烯效唑(S3307)对盆栽小报春进行叶施激素处理。结果表明:不同植物生长抑制剂对小报春都有矮化作用,矮化效果烯效唑比CCC更为明显,此外激素处理对小报春的小花直径、花序直径、花葶数也有不同程度的影响。综合考虑各个性状以及憋花率,处理CCC500mg/L叶施效果最佳,不仅使小报春的花葶高度明显矮化,抑制了花葶徒长,而且不影响小花直径、花序直径以及花葶数,同时在成本较低的情况下提高了小报春的盆栽观赏效果。 相似文献
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多效唑、烯效唑和矮壮素对金钱树的矮化效应 总被引:8,自引:0,他引:8
采用植物生长延缓剂多效唑(PP333)、烯效唑(S3307)、矮壮素(CCC)喷施和灌根的方法对1~3年生盆栽金钱树的矮化效应进行研究。结果表明:PP333能明显使叶轴矮化,小叶间距缩短,叶柄基部变粗,复叶相对生长速率降低;S3307主要使叶柄基部变粗;CCC药效表现不稳定,对部分指标表现出了促进作用。不同年龄金钱树适宜的PP333浓度变化大,S3307浓度变化小。喷施或灌根的矮化效果基本一致。药害在灌根处理上较同浓度喷叶处理更严重。综合考虑金钱树的生长及观赏价值,对不同年龄金钱树应用植物生长延缓剂调控株形效果好的组合有:1年生苗用300mg·L-1S3307喷叶处理;2年生苗用300mg·L-1S3307灌根处理或600mg·L-1PP333灌根处理;3年生苗用1200mg·L-1PP333喷叶处理。 相似文献
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PP_(333)、B_9、CCC对盆栽一串红矮化效应研究 总被引:1,自引:0,他引:1
高质量的盆花要求株型矮小、紧凑,茎杆粗壮,花繁叶茂。一串红(Salvia splen-dens Ker.-Gawl.)是各地广泛栽培,尤其是国庆节期间布置花坛美化环境的重要盆栽花卉。但在普通栽培条件下,大多株高茎瘦,花叶稀疏,脱脚现象严重,容易倒伏,影响观赏价值。目前生产上多采用反复摘心来促使分枝,控制株高,但费工费时,经济效益差。应用植物生长阻滞剂控制盆栽植物的株高是一项重要现代农业技术措施。多效唑(PP_(333))、比久(B_9)、矮壮素(CCC)为几种常用的植物生长阻滞剂,国外在金鱼草、百合和一品红等多种观赏植物上已有研究,我国也有用PP_(333)和B_9处理培养案头菊的实例。但在一串红上应用的报道甚少。为此,我们进行了用叶面喷布PP_(333)、B_9和CCC的方法促使盆栽一串红矮化的试验。 材料与方法 本试验于1989年在南京玄武湖公园进行。 相似文献
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《中国蔬菜》2021,(11)
矮壮素(CCC)作为植物生长调节剂被广泛应用于蔬菜生产,为探究其在特色水生蔬菜蒌蒿上的使用效果及安全性,本试验采用大田试验方法,设置4个矮壮素浓度水平(0、150、300、450 mg · L~(-1)),研究矮壮素在蒌蒿上的消解规律以及对蒌蒿产量、品质和氮素利用特征的影响。结果表明:矮壮素在蒌蒿上的降解规律符合一级动力学方程,其在茎秆中的半衰期仅为6.9~9.1 d,降解速率明显大于叶片。苗期喷施不同浓度矮壮素处理,采收期所有茎秆均安全合格,但叶片除低浓度(150 mg · L~(-1))处理外矮壮素残留量均超标。随着矮壮素施用浓度的增加,蒌蒿叶片叶绿素含量和茎秆可溶性糖含量逐渐增加,植株矮化程度加剧,但产量、氮素表观利用率、氮肥偏生产力和氮肥农学利用效率均呈下降趋势。低浓度(150 mg ·L~(-1))矮壮素处理对采收期的蒌蒿植株矮化作用不显著,单株茎鲜质量和叶鲜质量分别为57.5 g和45.0 g,产量较不喷施矮壮素处理提高了13.5%,氮肥农学利用效率提高了49.4%。综上,低浓度(150 mg · L~(-1))矮壮素在食茎类蔬菜蒌蒿的种植过程中可以安全使用。 相似文献
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以经典菊花品种‘Mona Lisa Sunny’为试材,采用叶面喷施方法,研究了B9和PP333 2种植物生长延缓剂对菊花观赏性状和生理指标的影响,以期获得最适矮化条件,达到最佳盆栽化效果。结果表明:B9和PP333能使植株产生矮化效应,表现为抑制株高、侧枝增多,且PP333的影响大于B9;二者均能加快花芽分化进程,表现为提前开花并延长花期(观赏期)。B9和PP333均能增加植株生殖生长后期叶绿素含量和可溶性糖含量,减少生殖生长后期内源激素GA3和IAA含量。综合分析表明浓度400 mg·L-1的PP333处理效果最好,该处理下的‘Mona Lisa Sunny’表现为株高适中、株型紧凑、不易倒伏、叶色浓绿、花期延长等诸多优点,提高了其作为盆栽菊的观赏价值。 相似文献
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以基质中不添加矮壮素的处理作为对照(CK),对甘蓝幼苗株高、茎粗、下胚轴长、SPAD值和植株生物量等生长指标进行测定,分析基质中添加不同浓度矮壮素对甘蓝幼苗生长的影响。结果表明,矮壮素浓度为2.5 mg/kg处理下培育的甘蓝株高、下胚轴长均有显著降低,甘蓝幼苗茎粗随着基质中矮壮素浓度的增高而增加,下胚轴长随着浓度的增高而降低,从幼苗的各项生长指标得出,基质中添加矮壮素浓度为2.5 mg/kg的处理能有效地提高甘蓝幼苗的壮苗指数,有效抑制在温室穴盘育苗的条件下高温高湿环境造成的幼苗徒长,达到培育壮苗的目的,从而大大满足工厂化育苗培育壮苗的需要。 相似文献
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不同生长抑制剂对盆栽百合的矮化效应 总被引:1,自引:0,他引:1
以亚洲百合"小洋人"、"穿梭"及亚洲×东方杂交种为试验材料,采用不同浓度CCC、PP333、三唑酮浸泡种球的方式,比较不同的生长抑制剂处理对百合的矮化效果。结果表明:PP333处理效果最好,三唑酮次之,CCC最不理想;采用300mg/L PP333浸球处理1h时,3个品种百合矮化效果最理想,观赏效果最佳。 相似文献
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Lettuce plants were sprayed with gibberellin (GA3) or water at the rosette (8-leaf) stage and subsequently with water or CCC (500 or 1500 ppm) at the onset of bolting. GA3 induced rapid bolting and increased seed yield, but seed stalks were longer and thinner than those that had been sprayed with water at the same stage. Treatment with CCC (500 ppm) at bolting decreased the flower stalk height of plants that had been sprayed with water at the rosette stage, but not that of GA3 treated plants. CCC (500 ppm) increased the number of inflorescence branches per plant as well as seed yield in the autumn sown crop, but had no effect on the winter sown crop. When a higher concentration of CCC (1500 ppm) was applied at bolting, flower stalk height decreased, irrespective of whether the plants had been previously treated with GA3 or not, and seed stalk diameter increased. However, 1500 ppm CCC reduced the number of inflorescence branches per plant and mean seed yield. It is concluded therefore that although the application of 500 ppm CCC at the onset of bolting may increase seed yield in the autumn sown crop, this treatment does not improve the seed stalk strength (e.g. increasing diameter or reducing height) of GA3 treated plants. On the other hand, whereas a higher concentration of CCC (1500 ppm) improves seed stalk characteristics, it reduces seed yield. 相似文献
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转rol基因枳橙分子鉴定及部分生物学的观测 总被引:9,自引:0,他引:9
对转rol基因枳橙B、D、E 3个系及对照田间高接植株进行了PCR分子鉴定、RT-PCR转基因表达分析和生物学特征的观测。PCR分析表明rolA、rolB、rolC已成功转入到3个转化枳橙系中。利用RT-PCR在田间转化植株中只检测到nptⅡ和rolC基因的表达, 而rolA、rolB基因未检测到。3个转化系枳橙均表现出顶端优势减弱, 侧枝增多, 植株矮化性状明显, 高度只有对照植株的44% ~50% , 节间长度缩短,叶面积减少; 光合作用增强; 内源赤霉素、生长素、玉米素等促进类激素在中部、下部叶片含量均高于对照, 这可能是诱导上述形态特征的变化的因素之一。 相似文献
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CCC treatment at flowering time suppressed the occurrence of tomato fruit puffiness in solution culture. Root application, truss spraying and whole plant spraying of CCC were all effective in correcting fruit puffiness, and truss spraying did not decrease fruit weight, unlike the other two treatments. For practical use, truss spraying might be the best method to control tomato fruit puffiness.Cytokinin contents in the xylem sap of tomatoes increased when CCC was applied to roots. This suggests that cytokinin biosynthesis in roots was increased by CCC treatment. Cytokinin activities in tomato fruits at an early developmental stage were also markedly increased by CCC treatment to roots. These results suggest that the CCC effect on the control of tomato fruit puffiness might be partly due to increased cytokinin activity in the developing fruit. 相似文献
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以基砧为八棱海棠的4 种不同中间砧嫁接的苹果幼苗长富2 号/八棱海棠、长富2 号/M9、长
富2 号/M26、长富2 号/SH6 为试验材料,研究干旱胁迫对其导水特性的影响。结果表明:在干旱胁迫下,
4 种中间砧木嫁接苗的整体、冠层、茎干、根系叶比导水率均有减小,各器官叶比导水率基本趋势是乔
化 > 半矮化 > 矮化,其中矮化中间砧的变化幅度最大,乔化中间砧的变化最小。中间砧嫁接口导水阻
力表现为矮化砧比半矮化、乔化砧高,在正常水分条件下,八棱海棠、M9、M26 和SH6 中间砧嫁接区域
导水阻力在植株总体导水阻力中所占的比率分别为4.07%、6.60%、4.97%和5.11%,当受到干旱胁迫后,
嫁接区域所占比率均有不同程度减小。由于矮化苗有效导水率长期低下,根系吸水和运输水分的能力下
降,导致地上部分水分供给减少,从而影响树体的生长。 相似文献
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New Guinea Impatiens hybrids ‘Morning Star’, ‘Arctic Star’, ‘Pink Eyes’ and ‘Star Fire’ were tested for their response to (2-chloroethyl) trimethylammonium chloride (chlormequat, CCC), α-cyclopropyl, α-4-methoxypropyl, α-5-pyrimidine methanol (ancymidol, EL531) and succinic acid-2, 2-dimethylhydrazide (SADH). Treatments included the concentrations recommended for other bedding-plants plus extremely high concentrations, and were applied as a soil drench or a spray, with or without a surfactant. Results indicated highly significant cultivar × chemical interactions, which precludes the making of specific recommendations that would apply to all cultivars. Of the chemicals tested, ancymidol generally showed the largest and most stable effect. Where height was reduced, the reduction was usually less than 10% of total height. Because genetically controlled height variation in these Impatiens is much greater, breeding for the desired plant height should be more economical than chemical modification. 相似文献