超甜玉米种子低温吸胀的生理生化变化

试验以sh2胚乳突变体(超甜玉米)为材料，以普通杂交玉米(掖单12)为对照，比较了两者于6℃，10℃和25℃条件下吸胀的生理生化变化。试验结果表明，经6℃和10℃吸胀处理的超甜玉米种子发芽率、发芽指数和活力指数显著降低，而6℃低温吸胀对掖单12玉米种子影响甚微。低温吸胀均引起两种玉米种子吸胀速率、电解质渗出速率和核苷酸     

甘薯天蛾虫蛹蛋白水解特性及其氨基酸营养液的制作工艺研究

甘薯天蛾虫蛹用远天２３和远天１２蛋白酶水解，当底物鲜虫蛹液１２ｍＬ（浓度为２０％，Ｗ／Ｖ），添加１％酶液１ｍＬ，其适宜的水解条件：ｐＨ６～７，５０℃水解１２０ｍｉｎ并加热至７０℃继续水解３０ｍｉｎ；远天２３的酶解效果优于远天１２，添加磷酸（钠）盐和ＥＤＴＡ２Ｎａ可增加可溶性含氮物总量，添加ＶＣ则无效；底物粗蛋白的提取率为８１．２％。文章对虫蛹氨基酸营养液的制作工艺、配方及产品质量要求等亦做了介绍。     

甜、糯玉米增温种植效果的研究

试验研究增温对甜、糯玉米种植效果的结果表明,增温种植育苗 覆膜、育苗比直播种植减产幅度较大,然而由于增温种植提前乳熟收获6~31d,在反季市场价格支持下,早熟、中早熟品种的增温种植比直播提高经济效益4.1%~37.2%,为经济有效地开发甜、糯玉米产业提供了科学依据。     

Interactions of Glomus clarum with Acetobacter diazotrophicus in infection of sweet potato (Ipomoea batatas), sugarcane (Saccharum spp.), and sweet sorghum (Sorghum vulgare)

Summary Spores of the vesicular-arbuscular mycorrhizal (VAM) fungus Glomus clarum obtained from sweet potatoes grown in soil inoculated with this fungus and with an enrichment culture of Acetobacter diazotrophicus contained A. diazotrophicus and several other bacteria, including a diazotrophic Klebsiella sp. Inoculation of micropropagated sweet potatoes with G. clarum and A. diazotrophicus enhanced spore formation in soil compared to VAM inoculation alone. Plants inoculated with VAM spores containing the bacteria showed additional increases in the number of spores formed within roots. A. diazotrophicus infected aerial plant parts only when inoculated together with VAM or when present within VAM spores. Micropropagated sugarcane seedlings inoculated with the same VAM spores containing the diazotrophs also contained much higher numbers of A. diazotrophicus in aerial parts than seedlings inoculated in vitro with the bacteria alone. When grown in non-sterile soil, the sugarcane seedlings again showed the greatest infection of aerial parts after inoculation with VAM spores containing the diazotrophs. This treatment also increased VAM colonization and the numbers of spores formed within roots. Similar effects were observed in sweet sorghum except that the aerial plant parts were not infected by A. diazotrophicus.     

甜高粱田间去叶装置的初步试验

研制的甜高粱田间去叶装置,可安装在收割机前,利用拖拉机液压升降系统压力油为动力,通过液压马达驱动橡胶弹性剥指高速回转,剥去甜高粱叶。试验表明,采用这种弹性剥指去叶装置,可在茎秆切断前,于机械化收割同时在田间去叶,去叶率较高。液压传动型式简化了结构,解决了总体布置的难度,有利于在生产中应用。     

Optimizing phosphorus fertilization in an intensive vegetable-rice cropping system

A study was conducted in a sweet pepper-maize-rice cropping system in six farmers fields in Batac, Ilocos Norte, the Philippines, to determine the optimum P fertilizer rate for sweet pepper that will benefit the succeeding crops, maximize system-level productivity and profitability, and reduce the excessive accumulation of P in the soil. Single super phosphate was applied to sweet pepper at rates of 0, 28, 56, 84, 112, and 140 kg P ha^–1 and the succeeding crops were grown without P fertilization. Maize residue was incorporated into the soil at puddling of soil for rice. Phosphorus fertilization at 56 kg P ha^–1 and above had a residual effect on maize and rice. A reduction in the P applied to sweet pepper from 140 to 84 kg P ha^–1 reduced extractable P in the soil at rice harvest from 52 to 29 kg P ha^–1. Phosphorus applied at 111 kg P ha^–1 to sweet pepper was optimum for maximum productivity and economic returns of the sweet pepper-maize-rice cropping system. This rate of P also significantly reduced P accumulation in the soil, thereby reducing the chances of negative effects on soil nutrient balance/availability. The results suggested the need for a cropping systems approach to conserve and effectively use native and fertilizer P in the sweet pepper-rice cropping system.     

甜高粱组织再生研究

通过对不同外植体的筛选和培养条件的优化,建立了甜高粱再生体系。结果表明,以茎尖和茎为外植体的培养可获得甜高粱再生苗,但分化率较低,褐化较为严重;而以叶和根为外植体的培养不能获得甜高粱再生苗;成熟胚作外植体分化率高达98.7%,且未发生褐化。     

不同因素对甘薯根系发育的影响

选用3个不同基因型的甘薯品种,采用正交试验设计,研究了百苗重和施肥量对甘薯块根的形成,特别是甘薯块根结薯个数的影响。结果表明,品种、百苗重及施肥量对甘薯根系发育有显著影响,南薯88在百苗重为4.0kg和不施肥条件下其根系重量和块根数量显著优于其他水平,同时南薯88根系数量最高。     

甜高粱茎秆含糖量遗传研究进展

甜高粱(Sorghum bicolor)是普通粒用高粱的一个变种。与粒用高粱相比,甜高粱育种研究进展相对缓慢,特别是茎秆含糖量高的亲本系创造比较滞后。开展甜高粱茎秆含糖量的遗传研究,对甜高粱亲本系选育及杂交种组配具有重要意义。本文从茎秆含糖量的评价指标入手,分别对茎秆含糖量的遗传与子粒产量及其他性状的关系、基因定位等方面的相关研究结果进行了系统地概括和归纳,并分析了当前茎秆含糖量研究的热点和亟待解决的问题。     

Plant based indicators for irrigation scheduling in young cherry trees

Using a correlation between trunk diameter fluctuation (TDF) and stem water potential (SWP) it appears possible to determine water deficit threshold values (WDTV) for young cherry trees. This correlation must be based on a significant effect between SWP and at least one variable associated with the vegetative or reproductive growth of the trees. The objectives of this study are: (1) to determine the effect of several irrigation treatments on vegetative and reproductive growth and the SWP of young cherry trees; (2) to determine the correlation between TDF and SWP, and; (3) to propose a first approximation of SWP and TDF water deficit threshold values for young cherry tree plants. The experiment was carried out between September and April of the 2005-2006 and 2006-2007 seasons, in Quillota, in the Valparaiso region, central Chile. The irrigation treatments consisted of applications of 50% (T₅₀), 100% (T₁₀₀) and 150% (T₁₅₀) of potential evapotranspiration (ET₀) over the two growing seasons, using a randomized complete block design (RCB). The effect of irrigation scheduling was observed on: apical shoot growth rate (GR_AS), branch cross-sectional area (BCSA), canopy volume (CV), annual length of accumulated growth (AL_AG) and productivity. This effect showed that the T₅₀ treatment caused lower SWP (measured pre-dawn), vegetative growth and productivity. The fruit quality variables (cracking and size) were not affected by the different treatments. Combining the vegetative growth, productivity and SWP results shows that the water deficit threshold value, as a first approximation, is between 50% and 100% of ET₀, and therefore the critical SWP for defining irrigation frequency should be close to −0.5 MPa. Upon applying a post-harvest drought period (14 days without irrigation), a linear correlation was determined both between SWP and maximum daily trunk shrinkage, MDS (R² = 0.69) and between SWP and trunk growth rate, TGR (R² = 0.57). Using these correlations and the SWP reference value, reference values were obtained for MDS (165 μm) and TGR (83 μm day⁻¹), which would permit automated control of water status in young cherry trees.