共查询到19条相似文献,搜索用时 703 毫秒
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为探明保水剂对千里光(Senecio scandens)种子萌发、幼苗生长的影响以及最佳使用量,采用室内盆栽试验,研究了5个梯度的保水剂浓度[0(CK)、0.10%、0.20%、0.30%、0.40%]对千里光种子萌发及幼苗生长的影响。试验结果表明,添加适宜浓度的保水剂可提高千里光种子发芽率,最佳保水剂浓度为0.30%,较对照提高了7.62%。添加保水剂可以提升千里光幼苗生物量、株高与根系长度,株高随保水剂浓度增加呈先增加后下降趋势,根系长度随保水剂浓度增加而增加,在0.40%浓度处理达到最大值。在采用千里光进行绿化时建议加入浓度为0.30%的保水剂,有利于提高其成活率及绿化效果。 相似文献
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保水剂处理对油松容器苗生长的影响 总被引:1,自引:0,他引:1
为提高油松容器苗移植的成活率,以油松容器苗为研究对象,研究不同保水剂用量对油松容器苗生物量和形态指标的影响。试验采用保水剂1、3、5g/kg拌土,1、3、5g/L蘸根处理,调查油松苗形态指标及生物量。结果表明:保水剂1g/kg拌土处理其高径比最小,主根最长,侧根数最多。同时,其地上、地下鲜重比与干重比均最小,有利于油松容器苗的生长发育。根据研究结果,推荐采用1g/kg拌土处理。 相似文献
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亚高山半干旱地带植被恢复保水剂试验研究 总被引:1,自引:0,他引:1
在亚高山半干旱地带采用四种不同类型的保水剂材料对油松、岷江柏、刺槐、山桃进行了持续三年的田间试验。试验结果表明,采用CMS吸水材料、植物生长调节剂、生长素等配制的复合保水剂对亚高山半干旱地带造林树种进行处理,可提高苗木成活率、保存率并促进幼苗生长。造林第二年针叶树和阔叶树的平均成活率提高5.9%,造林第三年针叶树和阔叶树的平均保存率提高5.2%,针叶树和阔叶树的苗木高生长量平均增加61.7%。经统计检验,确认了复合保水剂的不同剂型对苗木成活和生长的影响之差异。 相似文献
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笔者从幼苗的年龄结构和高度结构两方面研究了30年生油松纯林下天然更新幼苗的群落关系和分布格局,结果表明,随着群落演替,油松幼苗种群的年龄结构有明显变化,幼苗以7年生-8年生居多;幼苗主要集中在30cm以下种群高度上;幼苗随年龄和高度的增加数量逐渐减少,考虑其原因主要是人为干扰;油松天然更新幼苗的空间分布格局呈聚集分布。 相似文献
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干旱处理对侧柏和油松幼苗相对含水量和叶绿素含量变化的影响 总被引:1,自引:0,他引:1
以1年生的侧柏和油松幼苗为研究对象,采用盆栽的方式,利用干旱胁迫方式对幼苗的叶片相对含水量和叶绿素含量进行测定。结果表明,随着干旱程度的加剧,侧柏和油松幼苗的叶片相对含水量和叶绿素含量都呈下降趋势,两种树苗两个指标的测定结果都是以油松幼苗的下降最低,抗旱性最好。 相似文献
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采用人工模拟水分胁迫方法,对马尾松菌根化和非菌根化容器苗的耐旱性进行研究,结果表明,水分胁迫可显著降低马尾松容器苗土壤中的水分含量,对菌根化苗和非菌根化苗光合色素、硝酸还原酶、丙二醛等生理物质含量、水分含量和根系活力均有显著影响。但在同等程度的水分胁迫条件下,菌根化苗所受的影响明显低于非菌根化苗,其光合能力、降低水分蒸腾能力、减轻细胞膜受损能力、根系活力和苗木含水率均高于非菌根化苗,这表明菌根化苗的耐旱性高于非菌根化苗。因此,为提高马尾松容器苗的耐旱能力和造林成活率,采用印度块菌子囊果匀浆制成的孢子悬浮液对苗木进行接种菌根处理是可行的。 相似文献
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通过用污染土壤盆栽方法研究油松和樟子松幼苗对土壤营养成分的影响。结果表明:油松和樟子松能够明显改善土壤中有机质含量,以樟子松提高较显著,在0~10cm土层,油松和樟子松的有机质分别比对照提高102.63%和168.42%;在全氮含量方面,油松的全氮含量低于对照,樟子松能提高土壤的全氮含量。樟子松比油松更适合种植在贫瘠的污染土壤上。 相似文献
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油松大苗移植技术研究 总被引:2,自引:0,他引:2
根据油松的生物与生态学特性,通过采用不同时间、不同栽植地点、不同树龄的移栽试验,试验结果表明,在春季新芽未萌发时移栽,可使树龄为10-15年的苗木成活率达到88.0%以上。该技术对油松大苗的移植培育具有一定的参考价值,对满足城市园林绿化建设也具有一定的促进作用。 相似文献
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以油松和樟子松2 a生苗木为材料,通过不同梯度水分胁迫处理,研究辽西地区油松和樟子松抗旱性生理特征变化,结果表明:在各水分条件处理下,油松2 a生苗木MDA含量均小于樟子松,但CAT和Pro含量均高于樟子松,说明油松苗期抗旱性更强。在40%FMC处理时,油松MDA、CAT和Pro含量都小于对照,说明该水分水平未能使苗木出现干旱状态;而樟子松MDA、CAT和Pro含量都高于对照,苗木已经出现干旱状态。在30%FMC和20%FMC处理时,油松和樟子松苗木MDA、CAT和Pro含量都随水分胁迫程度加剧而增加。在干旱半干旱辽西地区培育油松和樟子松苗木时,土壤水分临界值应分别大于田间最大持水量40%和50%。 相似文献
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针对辽宁省西部干旱石质山区针叶树育苗周期长、造林成活率与保存率低等问题,进行了油松大苗培育技术试验,结果为1a生油松苗营养杯移植培育大苗的适宜移植时间为4月1-10日(清明前后),苗床应选择高床,营养土配方以1/2油松苗土+1/2落叶松苗土为好,在营养杯之间填充沙土。采用该技术培育大苗移植成活率、合格苗率分别都在95%以上,利用该技术所育苗木在干旱年份造林成活率为86.6%,该方法可在本地或其他环境条件相近地区推广。 相似文献
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The influence of low light on tolerance to prolonged drought was tested on unshaded and shaded seedlings of ponderosa pine (Pinus ponderosa var. scopulorum Dougl. ex Laws.). Unshaded seedlings of P. ponderosa var. ponderosa were also drought stressed to compare varietal responses to drought. The maximum irradiance received by shaded seedlings was 10% of full light. Seedlings were progressively drought stressed until predawn water potentials (Psi(x)) were -5.0 MPa. Relative water content (RWC) and the reciprocal of Psi(x) were analyzed by means of an unusual application of the pressure-volume relationship for determination of RWC of the apoplast (RWC(a)), osmotic potential at full turgor (Psi(oft)), and ratio of fully turgid weight to dry weight. Major varietal differences in drought response were in RWC(a) and needle cellulose content. The shaded seedlings showed tissue damage at relative water contents < 60%, and were killed by water deficits from which unshaded seedlings recovered. Correspondingly, shaded plants had significantly higher cell volume/cell mass ratio, Psi(oft), less cellulose in needle tissue, and lower RWC(a) than unshaded plants. These differences suggest that low irradiance restricts drought adaptation in ponderosa pine. 相似文献
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The impact of drought conditioning on the ability of eight-week-old jack pine (Pinus banksiana Lamb.) seedlings to withstand drought was assessed. Two progressive cycles of drought conditioning significantly increased the survival of seedlings subjected to a subsequent prolonged drought. The in vivo accumulation of several root membrane proteins during drought conditioning was correlated with an increase in seedling survival. A group of root proteins, ranging in molecular mass from 43 to 47 kDa, increased accumulation during one cycle of drought conditioning and to a lesser extent during two cycles of drought conditioning. The accumulation of several low molecular mass membrane and soluble proteins also increased during drought conditioning, suggesting that these proteins may play an important role in the enhancement of drought tolerance. In vitro translation studies showed a general increase in the abundance of protein products encoded by mRNAs from drought-conditioned seedlings. Although the majority of the in vitro translation products appeared in both control and drought-conditioned seedlings, one mRNA encoding a 15 kDA translated protein was more prominent during the second cycle of drought conditioning. 相似文献