Analysis of Fruit Width Using Mixed Major Gene and Polygene Inheritance Model in Summer Squash

[Objective] The aim was to provide scientific basis for breeding on the fruit width of summer squash.[Method] Inheritance of the fruit width traits of summer squash in P1,P2,F1,BC1,BC2 and F2 from two crosses q-1×23-4G（cross 1）and q-1×A-7（cross 2）was investigated by the mixed major gene and polygene inheritance model of quantitative traits.[Result] The fruit width was controlled by B-1 model.Heritability values of the major genes of F2 were relatively high and the environmental effect was relatively low.[Conclusion] The fruit width breeding of summer squash should be selected in early generation selection.

Analysis of Flesh Thickness of Summer Squash by Using Mixed Major Genes and Polygene Inheritance Model

[Objective]The aim was to study the inheritance of flesh thickness,so as to provide a theoretical basis for breeding of thicker-flesh summer squash variety.[Method]Using mixed major genes and polygene inheritance model,a joint analysis of six generations from two crosses q-1×23-4G（Cross 1）and q-1×A-7（Cross 2）was conducted to investigate the inheritance of the flesh thickness of summer squash.[Result]The results showed that the flesh thickness was controlled by D-2 model（a pair of additive major genes plus additive-dominant polygene）;genetic effect of flesh thickness in the two crosses was mainly the dominant effect of polygene.Heritability values of the genes of F2 generation were relatively low,while the environmental effect was great.[Conclusion]To flesh thickness,the method of individual selection on high separated generations was effective in the breeding of summer squash with thick flesh.

Analysis of Fruit Length Using Mixed Major Gene and Polygene Inheritance Model in Summer Squash

[Objective]The aim was to provide scientific basis for breeding on the fruit length of summer squash.[Method]Inheritance of the fruit length of summer squash in P1,P2,F1,B1,B2 and F2 from two crosses q-1 ×23-4G（cross 1） and q-1 ×A-7（cross 2） was investigated by the mixed major gene and polygene inheritance model of quantitative traits.[Result]The results showed that the fruit length was controlled by D2 model;Genetic effect of fruit length of cross 1 was mainly additive effect,but genetic effect of fruit length of cross 2 was mainly dominant effect.Heritability values of the genes of F2 were relatively high and the environmental effect was relatively low.[Conclusion]The fruit length breeding of summer squash should be selected in early generation selection.

Fruit Yield and Quality, and Irrigation Water Use Efficiency of Summer Squash Drip-Irrigated with Different Irrigation Quantities in a Semi-Arid Agricultural Area

Fruit yield, yield components, fruit mineral content, total phenolic content, antioxidant activity and irrigation water use efifciency （IWUE） of summer squash responses to different irrigation quantities were evaluated with a ifeld study. Irrigations were done when the total evaporated water from a Class A pan was about 30 mm. Different irrigation quantities were adjusted using three different plant-pan coefifcients （Kcp, 100% （Kcp1）, 85% （Kcp2） and 70% （Kcp3））. Results indicated that lower irrigation quantities provided statistically lower yield and yield components. The highest seasonal fruit yield （80.0 t ha-1） was determined in the Kcp1 treatment, which applied the highest volume of irrigation water （452.9 mm）. The highest early fruit yield, average fruit weight and fruit diameter, length and number per plant were also determined in the Kcp1 treatment, with values of 7.25 t ha-1, 264.1 g, 5.49 cm, 19.95 cm and 10.92, respectively. Although the IWUE value was the highest in the Kcp1 treatment （176.6 kg ha-1 mm-1）, it was statistically similar to the value for Kcp3 treatment （157.1 kg ha-1 mm-1）. Total phenolic content and antioxidant activity of fruits was higher in the Kcp1 （44.27 μg gallic acid equivalents （GAE） mg-1 fresh sample） and in the Kcp2 （84.75%） treatments, respectively. Major （Na, N, P, K, Ca, Mg and S） and trace （Fe, Cu, Mn, Zn and B） mineral contents of squash fruits were the highest in the Kcp2 treatment, with the exception of P, Ca and Cu. Mineral contents and total phenolic content were signiifcantly affected by irrigation quantities, but antioxidant activity was not affected. It can be concluded that the Kcp1 treatment was the most suitable for achieving higher yield and IWUE. However, the Kcp2 treatment will be the most suitable due to the high fruit quality and relatively high yield in water shortage conditions.

Technique for Using Spent Mushroom Substrate of Flammulina velutipes to Cultivate Volvariella volvacea in Idle Period of Greenhouse Summer Squash

Greenhouse summer squash is a major type of greenhouse vegetable in Shandong Province.In summer,there is a three-month idle period of greenhouse summer squash.Volvariella volvacea is a high temperature resistant high-quality edible fungus.In practice,it is able to use the spent mushroom substrate of Flammulina velutipes to cultivate V.volvacea.In the idle period of greenhouse summer squash,cultivating V.volvacea using the spent mushroom substrate of F.velutipes has high economic and environmental benefits.The cultivation techniques mainly include the preparation of cultivation materials,preliminary preparation for the greenhouse,planting management of V.volvacea,and returning the spent mushroom substrate to the field.By comparison with the conventional summer squash planting,this technique has higher economic benefits and its application prospects will be broad.

有机生产中防治西葫芦白粉病的药剂筛选

为加大有机生产中白粉病防控力度,提高防治效果。采用有机生产标准(GB 19630—2019)中允许使用的大黄素甲醚、蛇床子素、硫黄、碳酸氢钾、枯草芽孢杆菌、哈茨木霉菌及乳化植物油等制剂进行田间药效试验,比较其防治效果,结果表明,7种供试药剂均有一定的控制白粉病的效果,第3次药后7 d,对西葫芦白粉病防效为64.61%~74.78%,其中以0.5%大黄素甲醚AS防效最优,达74.78%,防治效果表现为0.5%大黄素甲醚AS>100亿CFU/g枯草芽孢杆菌WP>1%蛇床子素EW>碳酸氢钾DP>3亿CFU/g哈茨木霉菌WP>50%硫黄SC>乳化植物油;供试药剂均可提高西葫芦产量,使用碳酸氢钾增产率最高,为44.70%,其次是1%蛇床子素EW及0.5%大黄素甲醚AS,增产率分别是38.83%和37.90%,乳化植物油EC也有一定的增产效果,增产率为35.63%。根据以上研究结果,建议在白粉病发生初期优先使用碳酸氢钾,在白粉病发生期推荐使用0.5%大黄素甲醚AS、100亿CFU/g枯草芽孢杆菌WP、1%蛇床子素EW等药剂。

日光温室西葫芦水肥耦合效应量化指标研究

采用3因素二次回归通用旋转组合设计,研究了灌水量、氮肥、钾肥的耦合效应对西葫芦产量的影响,得到西葫芦产量对3因素的回归数学模型。结果表明:1在本试验条件下,3因素对西葫芦产量的影响顺序为氮>水>钾。2各因素间存在交互作用,水与氮、水与钾、氮与钾分别在低于0.6302与1.9280,0.6302与0.3392,3.9704与-3.9970水平时,与产量存在正相关关系,在高于以上水平时又呈负相关关系。经计算机模拟,当西葫芦达到最高产量(88578kg/hm2)时,相对应的灌水量为2515.5m3/hm2,施氮、施钾量分别为583.1和265.4kg/hm2。对试验结果进行验证表明,构建的模型准确可靠。

西葫芦果实性状的遗传分析

应用数量遗传学原理,研究了西葫芦3个杂交组合5个果实性状的遗传效应。结果表明:各 性状的遗传符合加性-显性模型,在3个组合中具有不同程度的显性效应和加性效应;3个组合中大多数 果长、果径、果形指数和果肉厚的显性效应值为正值,超过或者接近加性效应值。瓜柄长的显性效应值为 负值。果长、果径及果形指数的广义和狭义遗传力较大。瓜柄长和果肉厚性状广义和狭义遗传力较小。

西葫芦未受精胚珠离体培养条件的优化及胚囊植株的产生

目的建立西葫芦离体雌核发育高频植株再生体系,以加速自交系选育,有效缩短西葫芦杂种一代育种周期。方法将西葫芦未受精胚珠接种至附加2,4-D、NAA、BA的N6培养基上可形成胚状体,该胚状体转接至无激素的N6培养基上可形成再生植株。结果试验共获得120棵再生植株(R0),其中41株因生活力低下死亡,8株用于摸索移栽方法死亡,71株移栽成活且生长正常,其中42株性状表现符合二倍体特征且育性正常,已有10株获得自交果实及种子,其余29株育性异常。试验结果表明,胚珠发育时期、培养基、供体基因型及供体栽培季节等均显著影响胚状体诱导频率。结论胚状体起源于胚囊成员细胞,再生植株为胚囊植株。试验筛选出3种诱导频率较高的培养基;以开花前1日及当日的胚珠诱导频率较高;秋播材料诱导效果最好。

西葫芦微咸水膜下滴灌土壤水盐运移对产量影响的预测模型

为了定量计算微咸水膜下滴灌对土壤水盐和西葫芦产量的影响,根据微咸水膜下滴灌土壤水盐运移特点和西葫芦生长试验,建立了西葫芦微咸水膜下滴灌土壤水盐运移模型和水盐生产函数,并将二者联立,建立了西葫芦微咸水膜下滴灌土壤水盐运移对产量影响的预测模型。利用西葫芦微咸水膜下滴灌水盐试验数据对模型进行验证,结果表明模型计算的西葫芦微咸水膜下滴灌土壤含水率和土壤含盐量与实测土壤含水率和土壤含盐量的变化趋势一致,模型计算土壤含水率、土壤含盐量和西葫芦产量的均方根误差分别为0.049 cm^3/cm^3、0.065 g/kg和3.83 t/hm^2,土壤含水率、土壤含盐量和西葫芦产量的平均相对误差分别为5.17%、7.42%和5.84%,土壤含水率、土壤含盐量和西葫芦产量的平均绝对误差分别为0.047 cm^3/cm^3、0.062 g/kg和3.95 t/hm^2。所建的模型具有较高的模拟精度,可用于模拟西葫芦微咸水膜下滴灌土壤水盐动态和西葫芦产量。

西葫芦杂种一代产量性状优势表现及相关分析

西葫芦杂种一代和亲本产量性状测定分析表明,杂种一代产量性状较其亲本均有不同程度的优势表现,除第一雌花节位、始花期、始收期表现为负向优势外,其余性状均表现为正向优势,不同组合不同性状优势表现不同。性状相关和亲子相关分析表明,单株产量与单株结果数、果实发育速度相关显著,杂种一代大多数性状不同程度的受到亲本的影响。亲子相关分析为利用亲本表现初步预测杂种一代性状表现、杂交制种亲本选择选配和性状改良提供了理论基础。

植物源抗病毒剂20%丁香酚AS防治西葫芦病毒病药效试验

田间药效试验结果表明:20%丁香酚AS对西葫芦病毒病具有优良的防治效果,270 g/hm2和135 g/hm220%丁香酚AS 2次药后7 d的防效分别为73.29%和64.98%,显著优于对照药剂,对西葫芦安全。

不同瓜龄、后熟期对西葫芦采种指标的影响

西葫芦不同瓜龄和后熟期对种子质量均有影响。在30～60d,瓜龄越长,种子的千粒重、单瓜产种量、发芽率、发芽势和活力指数越高;延长种瓜后熟期能明显地改善种子质量;在后熟期0～30d,随着后熟期的延长,种子的质量明显提高。瓜龄为40d,后熟期为10d的西葫芦种子,接近正常的种子质量标准,可作为生产上采种的重要依据。

壳聚糖涂膜处理对西葫芦冷害的影响

以西葫芦为研究对象,在5℃下采用不同质量浓度壳聚糖溶液对其进行涂膜处理,研究壳聚糖涂膜处理对西葫芦冷害发生、贮藏品质和生理生化指标的影响,为壳聚糖涂膜在控制果蔬冷害上的应用提供理论依据。结果表明,采用壳聚糖涂膜处理可以延缓西葫芦冷害的发生时间,减轻冷害程度,在贮藏第8天,水洗对照组冷害指数达到0.42,而10g/L壳聚糖处理组冷害指数只有0.08,抑制冷害效果最佳。壳聚糖涂膜还可以降低西葫芦采后呼吸强度,抑制细胞膜透性的升高和丙二醛的积累,减缓果皮叶绿素的降解,贮藏第16天,10g/L壳聚糖处理组的细胞膜相对电导率为15.04%,丙二醛含量为0.806μmol/g,叶绿素含量为0.135 3mg/g,而对照组的细胞膜相对电导率为30.23%,丙二醛含量为1.573μmol/g,叶绿素含量已降至0.053 8mg/g,壳聚糖涂膜还可以抑制CAT和POD活性下降,并降低其活性高峰。用壳聚糖处理西葫芦可以减轻其冷害发生和贮藏品质下降的程度,以10g/L壳聚糖处理组抑制冷害效果最佳。

西葫芦未受精胚珠离体诱导植株再生的关键因素

开花当天的西葫芦未受精胚珠在含5%蔗糖和0.8%琼脂的N6基本培养基中附加0.5 mg/L NAA和1.0mg/L 2,4-D的诱导培养基上培养最有利于诱导植株再生;所得再生植株经气孔保卫细胞叶绿体计数法鉴定,60%为二倍体,其自交后代株系内高度整齐一致,证明所得二倍体再生植株是纯合的双单倍体,来源于单倍的胚囊细胞。

西葫芦银叶病叶片的光合生理与解剖学特征

使用CI-310型便携式光合作用测定系统对西葫芦银叶病叶片的光合生理进行了测定.结果表明:西葫芦感染银叶病后,其一日内不同时段的光合速率(Pn)都较正常叶明显下降,轻病叶下降幅度为5.6%～30.2%,重病叶下降幅度为21.7%～52.5%,并且不同处理Pn的最高峰期也不尽一致,正常叶的最高峰期为10点钟,轻病和重病叶的最高峰期均为8点钟.西葫芦轻、重银叶病病叶的气孔限制值(Ls)均较正常叶减少,轻病叶减少幅度为5.3%～23.5%,重病叶减少幅度为22.0%～58.8%.轻、重病叶和正常叶之间的气孔导度(Gs)、胞间CO2浓度(Ci)差异不明显,蒸腾速率(Tr)的变化无规律性.经测定,西葫芦轻、重病叶的叶绿素a、b及叶绿素总量都较正常叶减少,轻病叶叶绿素总量减少9.97%,重病叶叶绿素总量减少18.21%.西葫芦重病叶的鲜、干重较正常叶减少,而轻病叶的鲜、干重较正常叶增加.对西葫芦银叶病叶片的解剖学特征观察发现,正常叶上表皮细胞为扁平状,致密排列;而病叶上表皮细胞则变为球状,疏松排列,并且上表皮与栅栏细胞之间出现轻微的间隙.病叶上表皮厚度占叶片厚度的比例明显增加,栅栏组织厚度占叶片厚度的比例略有减少.

套袋和摘除花瓣对西葫芦果实发育及品质的影响

以早青一代西葫芦品种为材料,研究了套袋及摘除雌花花瓣对果实发育和品质的影响。结果表明,套袋对西葫芦的瓜形、瓜色无不良影响,套袋瓜新鲜度好,质地脆嫩,感官品质提高,蛋白质含量稍有增加,但套袋对坐瓜率、果实发育、商品瓜产量以及果实中维生素C、可溶性糖和游离氨基酸的含量均有一定程度的不利影响。套袋结合摘除花瓣可以消除或降低套袋对坐瓜、果实发育和商品瓜产量的不利影响。

土壤水分对日光温室西葫芦耗水量及产量的影响

在日光温室中研究了不同土壤水分条件对西葫芦耗水量、产量及水分利用效率的影响.结果表明,在整个生育期,西葫芦总耗水量随土壤含水量的增大而增大.土壤相对含水量保持在90%～100%时,耗水量最大,为8 668.25 m3/hm^2.然而水分利用效率却最低,仅为39.7 kg/m^3.相反,土壤含水量下限为70%（T3）时,耗水量虽不高,产量却最高,达到352.4 t/hm^2,叶片净光合速率和结瓜数也最大,水分利用效率也相应最大,达到了66.1 kg/m3.综合考虑产量构成诸因子和水分利用效率,认为过量灌溉对提高西葫芦产量并不利,合理利用水资源,土壤水分控制在田间持水量的70%～80%较适宜.

不同光周期对西葫芦幼苗生长的影响

研究了不同光周期(L24D0、L14D10和L9D15)对西葫芦幼苗生长状况、根系活力和可溶性蛋白含量的影响。结果表明:西葫芦幼苗叶面积、茎粗、生长速率、根冠比、壮苗指数、根系活力和叶片可溶性蛋白含量都是24 h光照处理的最高,其次是15 h光照处理,9 h光照处理最低。长日照促进西葫芦幼苗生长,提高根系活力和叶片可溶性蛋白含量。