CO2施肥对黄瓜幼苗矿质营养吸收与分配的影响

以土培和砂培黄瓜幼苗为试材，研究CO₂施肥对植株矿质营养吸收和分配的影响。结果表明：每天上午以1100±100 μl/L CO₂浓度施肥3 h或上、下午各施肥3 h明显降低植株各部位多数矿质元素的含量，CO₂施肥时间延长，降幅增大。CO₂施肥增强了黄瓜对矿质元素的吸收能力，使单株吸收总量显著增加，且施肥时间越长，吸收数量越多。因此，在CO₂施肥的同时应增加矿质营养的供给。     

CsFAD7基因转化烟草的研究

以"革新一号"烟草种子为试材,采用根癌农杆菌介导的烟草叶盘转化法将来源于黄瓜的脂肪酸去饱和酶基因(FAD7)转入烟草,并在附加300mg/L氨苄青霉素(Amp)的MS+0.1mg/L NAA+1.0mg/L 6-BA的培养基上诱导植株分化,再生芽在附加300mg/L Amp和100mg/L卡那霉素(Kan)的MS培养基上生根,获得再生植株。结果表明:Kan阳性植株经PCR检测筛选,得到转基因阳性植株,证明异源FAD基因已转入烟草基因组中。T1代经PCR-South-ern检测证明转化基因可以遗传;转基因烟草在低温胁迫下生长较好,叶绿素荧光参数F0值下降不大,Fv/Fm值保持较高,表现了对低温的耐受能力,脂肪酸分析表明,该基因可以使烟草叶片的亚麻酸含量比例升高。     

3种污水对小麦和黄瓜幼苗生长发育的影响

通过水培试验,研究了天津市3个主要污水处理厂的进水在不同清污比例处理下对小麦和黄瓜幼苗发芽率、生物量、根质量和根长的影响。结果表明,与对照相比,3种污水对小麦和黄瓜的发芽率影响不大,但是对根长有明显的抑制作用,各个处理间根长差异显著(P0.05),小麦和黄瓜的根长抑制率变化范围分别为20%~64%和6%~48%。3种污水对黄瓜的生物量均表现为不同程度的促进作用,但Ⅲ号污水对小麦的生物量和根质量表现为抑制作用。根对污水中污染物响应最敏感,根据污水对根长的影响程度得出3个污水处理厂的进水对小麦和黄瓜的毒害作用依次为:Ⅲ号Ⅱ号Ⅰ号。     

NaCl胁迫对黄瓜幼苗生长及可溶性物质含量的影响

土壤盐渍化加重和淡水资源短缺,对黄瓜的产量、品质和风味影响很大。试验表明：NaCl胁迫可以明显提高幼苗叶片的相对电导率,降低叶片和根系的相对含水量,使黄瓜幼苗体内的有机渗透调节物质如脯氨酸、可溶性糖的含量增加;脯氨酸等含量的增加可以增强细胞的渗透调节能力,减少盐离子对细胞造成的伤害;无机渗透调节离子Na^＋在盐胁迫下含量增加,而K^＋的含量降低。     

多因子联合诱导系统的构建及对黄瓜白粉病防治试验

由多个不同的抗病诱导因子组成植物抗病诱导系统的1个子系统。每个因子都是这个系统中的1个要素。系统的性质不但取决于系统中的要素,还取决于要素的结构。合理的配伍可以使要素与要素之间、要素与系统之间的关系得以优化,使系统的功能得以强化。把筛选得到的多个不同的抗病诱导因子进行配伍,组合成新的"诱导组合体",其诱导效应比单一因子显著提高;用不同的"诱导组合体"进行"相继诱导"和"循环诱导",则进一步提高诱导效应,对黄瓜白粉病的田间防治效果达到78.16%,高于常规杀菌剂的防治效果。     

银川平原日光温室黄瓜经济施磷量研究

研究不同施磷量对黄瓜产量和经济效益的影响。结果表明:在银川平原的温室土壤中,磷肥对温室黄瓜的增产有一定的作用,但施量过大,则增产作用反而不明显,当667 m2施纯磷达到31 kg时可实现产量最大化,而当667 m2施纯磷量达到15 kg时,边际产量和投入产出比达到最优。     

耐热黄瓜栽培技术

总结新育成耐热黄瓜品种——丰田6号、丰田16号在厦门地区夏季栽培的主要技术。     

有机黄瓜生产中霜霉病的防控技术

根据防治黄瓜霜霉病的实践经验,系统总结有机黄瓜霜霉病综合防控技术,解决有机黄瓜生产中遇到的首要问题,助推有机农业的健康发展。     

Effects of silicon application on drought resistance of cucumber plants

A study on the effects of silicon supply on the resistance to drought in cucumber plants was conducted in pot experiments. The results suggested that in the absence of stress, silicon slightly enhanced the net photosynthetic rate, but significantly decreased the transpiration rate and stomatal conductance in cucumber plants. Silicon enhanced the net photosynthetic rate of cucumber plants under drought stress. Since silicon decreased the stomatal conductance, enhanced the capacity of holding water, and kept the transpiration rate at a relatively steady rate during drought stress, the photosynthesis of the cucumber plants was sustained. And under drought stress, silicon increased the biomass and water content of leaves in cucumber plants. Silicon decreased the decomposition of chlorophyll in cucumber plants under drought stress, limited the increase of the plasma membrane permeability and malondialdehyde (MDA) content in leaves, alleviated the physiological response of peroxidase (POD) to drought stress, maintained the superoxide dismutase (SOD) normal adaptation, and increased the activity of catalase (CAT). Under severe stress, these physiological biochemical reactions showed positive correlations with the amount of silicon supply. These findings demonstrated that silicon enhanced the resistance of the cucumber plants to drought. Statistical analysis indicated that under drought stress the cumulative value of biomass showed a highly significant correlation with the cumulative value of diurnal photosynthesis (r = 0.9812, p < 0.01), and was significantly correlated with the water content of leaves (r = 0.8650, p < 0.05). These results demonstrated that under drought stress the first factor responsible for the effects of silicon application on the cumulative value of biomass was the increase of photosynthesis, and the second factor was the enhancement of the water holding capacity. Based on these facts, it was concluded that silicon enhanced the resistance to drought mainly by taking part in the metabolism of plants.     

缺铁黄瓜地上部对根系适应性反应的调节

用营养液培养方法研究了黄瓜地上部对根系缺铁适应性反应的调节。缺铁导致植株根系Fe