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51.
内蒙古中东部野生扁蓿豆种子硬实性的研究 总被引:1,自引:0,他引:1
扁蓿豆是抗逆性极强的优良牧草,但其种子发芽率低,具有65 %~75 %的硬实。在恒温25℃时发芽率较高,在变温20 ~30℃时发芽率最高,若温度超过30℃或低于15℃时发芽被抑制,但短时间高温处理有利于促进发芽。采用机械或浓硫酸处理,发芽率分别比对照高40.6 %和45.6 %。野生种子的硬实率与采集地气温,特别是与7月份温度有着很高的正相关关系,而且不同产地的种子表现出较大的差异,以赤峰市北部采到的居群硬实率最高,比呼和浩特市采集的居群高9 %。随着储藏年限的推移,种子的硬实率不断下降,发芽率增加,储藏3.5年的种子发芽率达到了67.0 %,表明扁蓿豆种子采集后通过室温储藏可以达到提高发芽率的效果。 相似文献
52.
浑善达克沙地公路综合防护技术及其效益分析 总被引:5,自引:0,他引:5
浑善达克沙地省际通道综合防护体系包括:公路沙害快速治理和沙源控制技术及耐风沙植被建植技术。阻沙带、固沙带改变了风沙流结构,降低了输沙强度,增加了地表粗糙度,有效的起到了削弱风速,阻截流沙,控制沙丘前移,保持地表稳定的作用;建立稳定的耐风沙植被是持久固沙和生物防护的核心;首次大规模使用“固沙网”专利技术产品用于公路快速固沙保苗,实践证明采用固沙网与柳条立式沙障的组合固沙技术对于快速固沙和植被恢复的作用更加显著;并提出了公路沙害快速治理技术体系与配套的技术措施。项目实施过程中3年投入产出比为1∶2.6,通过公路沙害治理工程的实施,稳定防护10年的经济总收益为4.67亿元;如将挖方路堑段砂质陡坡用植物固沙措施代替传统石砌护面墙技术推广至其它工程,效益更为显著。该项目技术研究与工程建设紧密结合,操作性强,能快速有效治理荒漠化地区公路沙害,总结出了沙区公路、铁路沙害的治理模式,对于我国荒漠化治理有推广应用价值。 相似文献
53.
干旱缺水是导致果园低产、低效的主要原因之一。重庆三峡库区降水丰沛,但水资源在时空上分布很不均匀,许多坡地果园水源紧缺,季节性干旱十分突出。2002年7月至2006年1月,通过用叶片水分亏缺与果实膨大相关性的研究以及水分管理模式,对柑橘生长和发育的影响进行试验研究,总结出了一套适合坡地柑橘园的水分管理模式。 相似文献
54.
以3年生盆栽红富士(Malus domestica Borkh. ) /湖北海棠〔Malus hupehensis (Pamp) Rehd. 〕为试材, 研究了脱落酸、水杨酸和草酸预处理对叶片脯氨酸的诱导作用, 结果表明, 预处理第2天, 自然干旱效果还不明显时, 水杨酸预处理就使叶片脯氨酸含量提高了7.87%; 自然干旱、脱落酸、水杨酸和草酸预处理至第9天, 叶片脯氨酸含量较对照分别提高了96.30%、110.67%、135.12%和115.96%; 预处理9 d后停止供水至第5天时, 叶片瞬时水分利用效率分别提高了286.77%、75.76%、79.04%和100.44% ,脯氨酸含量也明显提高; 停止供水至第10天时, 脯氨酸含量分别提高了5.33%、262.76%、92.32%和0。综合比较显示, 自然干旱、脱落酸、水杨酸和草酸预处理都可以通过提高叶片脯氨酸含量和水分利用效率而增强苹果的抗旱性, 其中脱落酸的效果最好, 其次是水杨酸, 草酸效果持续时间比较短。 相似文献
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The effects of root colonization by the arbuscular mycorrhizal (AM) fungus Glomus intraradices Schenck and Smith on growth, flower and fruit production, and fruit quality were studied in field-grown tomato plants exposed to varying intensities of drought stress. Inoculated (M+) and non-inoculated (M−) tomato seedlings were exposed to varying intensities of drought stress by adjusting irrigation intervals. Mycorrhizal plants had significantly higher uptake of N and P in both roots and shoots regardless of intensities of drought stress. AM inoculation also significantly increased shoot dry matter and the number of flowers and fruits. The fruit yields of M+ plants under severe, moderate, mild drought-stressed conditions were higher than M− plants by 24.7%, 23.1%, 16.2% and 12.3%, respectively. Furthermore, M+ plants produced tomato fruits that contain significantly higher quantities of ascorbic acid and total soluble solids (TSS) than M− plants. Mycorrhizal effects increased with increasing intensity of drought. The overall results suggest that mycorrhizal colonization affects host plant nutritional status, water stratus and growth under field conditions and thereby alters reproductive behaviour, fruit production and quality of fruits under both well-watered and drought-stressed conditions. 相似文献
57.
Nickolee Zollinger Roger Kjelgren Teresa Cerny-Koenig Kelly Kopp Rich Koenig 《Scientia Horticulturae》2006
Although low water use landscaping is becoming common in arid regions, little is known about drought tolerance and drought responses of many ornamental plants, especially herbaceous perennials. Drought responses were assessed for six herbaceous ornamental landscape perennials in a 38 l pot-in-pot system in northern Utah over a 2-year period. The first year was an establishment period. During the second year, drought responses were evaluated for established Echinacea purpurea (L.) Moench, Gaillardia aristata Pursh, Lavandula angustifolia P. Mill., Leucanthemum × superbum (J.W. Ingram) Berg. ex Kent, ‘Alaska’, Penstemon barbatus Roth var. praecox nanus rondo, and Penstemon × mexicali Mitch. ‘Red Rocks’. Plants were irrigated at frequencies of 1 (control), 2, or 4 weeks between June and September, simulating well-watered conditions, moderate drought, or severe drought. Osmotic potential (Ψs), gas exchange, visual quality, leaf area, and dry weight were assessed. In a confined root zone, P. barbatus showed the greatest tolerance to all levels of drought, avoiding desiccation by increasing root:shoot ratio and decreasing stomatal conductance as water became limiting. L. angustifolia and P. × mexicali showed tolerance to moderate drought conditions, but died after exposure to the first episode of severe drought. Neither G. aristata nor L. superbum were able to regulate shoot water loss effectively. Instead, both species displayed drought avoidance mechanisms, dying back when water was limiting and showing new growth after they were watered. Compared to control plants, G. aristata shoot dry weight was reduced by 50% and 84%, and L. superbum shoot dry weight was reduced by 47% and 99% for the 2- and 4-week irrigation intervals, respectively. Root dry weights were affected similarly for both species. E. purpurea exhibited poor visual quality at all irrigation intervals, in particular wilting severely in both drought treatments, but regaining turgor when watered again. P. barbatus is recommended for ornamental landscapes that receive little or no supplemental irrigation, while E. purpurea is not recommended for low water landscapes because of low visual quality under even mild drought. 相似文献
58.
干旱胁迫下桃树各部位贮存水调节能力的研究 总被引:2,自引:1,他引:2
干旱胁迫使桃品种瑞光5号(Prunuspersicavar.nectarinacv.RuiguangNo.5)的叶片水势和茎流下降,并且干旱越严重下降越多。干旱胁迫对贮存水调节量的影响不显著,但是绝对调节能力随干旱胁迫程度的增加而增加。各部位间的相对调节能力主要是由其水容、贮存水阻力和体积决定的,干旱胁迫对各部位间的相对调节能力的影响不显著。在充分灌水条件下各部位贮存水夜间的相对调节能力为:主根18.8%、主干38.5%、枝条17.8%、叶片3.4%、细根2.9%、果实6.7%、粗根12.0%,处理之间绝对调节能力的差异不显著。贮存水的调节主要来自主干、主根、粗根和枝条,这4部分占全部调节量的80%以上。 相似文献
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