中华稻蝗Knickkopf(Knk)基因分子特性和生物学功能

基于中华稻蝗转录组数据库,采用生物信息学方法搜索获得1条OcKnk基因全长cDNA序列,采用qRT-PCR检测其组织部位表达特性和其在表皮发育过程中表达情况,明确其分子特性,采用RNAi技术结合表型观察,研究其对中华稻蝗蜕皮和生长发育的影响,以明确其生物学功能。组织部位表达结果显示其在中华稻蝗体壁、前肠和脂肪体表达最高,发育表达结果显示其在表皮不同发育日龄均有表达,且在蜕皮前期和后期表达显著高于其他日龄。生物学功能研究表明,注射dsRNA后,多数虫体难以成功蜕去旧表皮,导致死亡,少部分可蜕至下一龄期,但活动力较低,行动缓慢,最终死亡。研究结果表明OcKnk参与昆虫生长发育和蜕皮过程,可作为重要靶标基因,为下一步害虫防治提供理论基础。     

荒漠区滴灌施氮量对葡萄叶绿素荧光特性及碳代谢的影响

为了研究蛇龙珠葡萄各生育期施氮量对叶片光合特性和同化产物积累的影响,在滴灌条件下,设定4个尿素施用量:150(N1),300(N2),450(N3),600 kg/hm~2(N4),对照(CK)设置为0 kg/hm~2,分析各生育期(花前5 d DBF5、花后20 d DAF20和花后50 d DAF50)不同氮素营养对葡萄叶片的光合荧光参数及碳代谢相关指标的影响。结果表明:适量增施氮肥提高了叶片叶绿素含量和RuBp羧化酶活性,增强了葡萄树的光合作用,而叶片中PSⅡ有效光化学效率(Fv′/Fm′)、光化学淬灭系数(qP)、PSⅡ实际光化学效率(ΦPSⅡ)的提高及非光化学淬灭系数(NPQ)的降低使叶片叶绿素荧光增强,且N2下的Fv′/Fm′、ΦPSⅡ、qP在DAF20和DAF50时比同期CK分别显著升高了16.10%,17.80%;21.49%,21.13%及11.77%,19.73%;适量增施氮肥提高了蔗糖代谢相关酶的活性和可溶性糖含量,减少了淀粉含量,且在整个生育期,SPS、SS以及蔗糖在N3下有最高值,葡萄糖和果糖在N2下有最高值,而在DBF5、DAF20和DAF50时NI和AI分别在N2、N2和N1处理下有最高值。同CK相比,N2处理显著增加了可溶性糖、单宁、花青素的含量和可滴定酸含量,提高了坐果率和糖酸比,产量达14.50 t/hm~2。综上,在300～450 kg/hm~2的尿素施用范围内明显增强了叶片光合作用,促进可溶性糖的合成,从而为葡萄果实的生长发育供应足够的营养。     

翻心型大白菜新品种连狮1 号的选育

连狮1 号是以连云港地区菜农提供的中狮头自留种为原始种，经4 代自交提纯选育成的大白菜新品种。株型紧凑， 整齐度较好，叶球为长筒翻心形，叶片呈长倒卵形，叶表面具有较深核桃纹并带稀疏茸毛。株高35 cm，外叶数约10 片， 叶球高28～32 cm、横径22～27 cm，单个叶球质量3.5～4.0 kg，每667 m² 叶球产量4 700 kg 左右，净菜率达83%。生育期 为90～95 d（天），田间抗病毒病、霜霉病、根肿病能力优于对照中狮头，适合在江苏、安徽、山东等地及其相近气候条件 地区秋季种植。     

大豆对大豆胞囊线虫侵染的应答机制研究

大豆胞囊线虫病(Heterodera glycines,soybean cyst nematode,SCN)是大豆生产上的重要病害,其特点为危害重、分布广、难防治,每年对大豆生产造成极大的损失。种植大豆抗性新品种是防治SCN目前最为有效的措施,研究大豆对SCN侵染的应答机制,是培育大豆持久抗病品种的前提,对加快抗线虫品种选育及SCN的防控具有重要的意义。本文综述了大豆对SCN侵染的组织细胞学应答机制;介绍了大豆在SCN侵染后酶系变化及酚类代谢的生理生化应答机制;从分子水平阐明了SCN侵染后大豆的基因转录变化,差异蛋白及DNA甲基化的应答机制,以期为大豆胞囊线虫病害的进一步研究与防治提供参考。     

苦瓜新品种淮农青1号的选育

为了选育早熟、产量高、抗病性强、微苦的苦瓜新品种,以B19强雌系为母本,以B118苦瓜自交系为父本,进行杂交、分离后,经系统选育,培育出苦瓜新品种——淮农青1号。其早熟,果皮翠绿色,长纺锤形,口感脆嫩;前期平均667 m2产量1 126.2 kg,比对照增产25.5%,平均667 m~2总产量达2 740.8 kg,比对照增产26.3%;中抗白粉病,适合江苏省春季大棚栽培。     

甜瓜属新型作物--火参果的研究和利用现状及建议

火参果是我国近年来引进和栽培的新型瓜类水果作物,具有坐果能力强、果实外观漂亮、风味独特、经济效益高和发展前景广阔等优点。就火参果遗传多样性及分类地位、种质资源评价与栽培、抗性及其利用、营养和药用功能成分方面回顾了国内外研究进展,并对火参果栽培技术要点进行总结。此外,由于目前的火参果鲜食品质难以满足大众化的消费需求,市场空间较为有限,制约了火参果产业的进一步发展,提出了解决这个问题相关的建议,旨在为促进我国火参果产业发展提供借鉴。     

Screening of antagonistic Trichoderma strains and their application for controlling stalk rot in maize

Maize is one of the major crops in China, but maize stalk rot occurs nationwide and has become one of the major challenges in maize production in China. In order to find an environment-friendly and feasible technology to control this disease, a Trichoderma-based biocontrol agent was selected. Forty-eight strains with various inhibition activities to Fusarium graminearum, and Fusarium verticillioides were tested. A group of Trichoderma strains(DLY31, SG3403, DLY1303 and GDFS1009) were found to provide an inhibition rate to pathogen growth in vitro of over 70%. These strains also prevented pathogen infection over 65% and promoted the maize seedling growth for the main root in vivo by over 50%. Due to its advantage in antifungal activity against pathogens and promotion activity to maize, Trichoderma asperellum GDSF1009 was selected as the most promising strain of the biocontrol agent in the Trichoderma spectrum. Pot experiments showed that the Trichoderma agent at 2–3 g/pot could achieve the best control of seedling stalk rot and promotion of maize seedling growth. In the field experiments, 8–10 g/hole was able to achieve over 65% control to stalk rot, and yield increased by 2–11%. In the case of natural morbidity, the control efficiency ranged from 27.23 to 48.84%, and the rate of yield increase reached 11.70%, with a dosage of Trichoderma granules at 75 kg ha~(-1). Based on these results, we concluded that the Trichoderma agent is a promising biocontrol approach to stalk rot in maize.     

籽用南瓜育种研究进展

南瓜种子含有丰富的营养成分，具有较高的保健价值。我国籽用南瓜产业规模逐年扩大，但目前种质创制和新品种 选育尚有待开展较为系统的研究。本文从籽用南瓜种质资源的鉴定评价和遗传多样性研究、籽用南瓜产量、抗性、种皮颜色、 营养成分等重要农艺性状的遗传定位及调控研究等方面进行综述，同时，对籽用南瓜的研究方向进行展望，以期为籽用南瓜 种质创制和新品种选育提供一定的理论参考。     

Predicting the potential geographic distribution of Bactrocera bryoniae and Bactrocera neohumeralis(Diptera: Tephritidae) in China using MaxEnt ecological niche modeling

Bactrocera bryoniae and Bactrocera neohumeralis are highly destructive and major biosecurity/quarantine pests of fruit and vegetable in the tropical and subtropical regions in the South Pacific and Australia. Although these pests have not established in China, precautions must be taken due to their highly destructive nature. Thus, we predicted the potential geographic distribution of B. bryoniae and B. neohumeralis across the world and in particular China by ecological niche modeling of the Maximum Entropy(Max Ent) model with the occurrence records of these two species. Bactrocera bryoniae and B. neohumeralis exhibit similar potential geographic distribution ranges across the world and in China, and each species was predicted to be able to distribute to over 20% of the globe. Globally, the potential geographic distribution ranges for these two fruit fly species included southern Asia, the central and the southeast coast of Africa, southern North America, northern and central South America, and Australia. While within China, most of the southern Yangtze River area was found suitable for these species. Notably, southern China was considered to have the highest risk of B. bryoniae and B. neohumeralis invasions. Our study identifies the regions at high risk for potential establishment of B. bryoniae and B. neohumeralis in the world and in particular China, and informs the development of inspection and biosecurity/quarantine measures to prevent and control their invasions.     

东北三省大豆种质品质性状鉴评与综合分析

根据目标性状有的放矢的选配杂交亲本是提高优异品质组成品种的选择效率的基本前提。本研究对东北三省102份大豆种质资源的蛋白、氨基酸组分、油份及脂肪酸组分进行测定,通过遗传多样性、主成分和聚类分析,对其进行表型鉴定及基因型分类以综合评价种质品质特性。结果表明:东北三省大豆种质油份及脂肪酸组分变异较丰富,遗传多样性程度较高。根据主成分分析筛选到9个主成分进行聚类分析,通过聚类分析将供试种质资源分为5类。第I类群蛋白含量较高、油份含量偏低,第II类群蛋白、油份含量均居中,第III类群油份含量较高、蛋白含量偏低,第IV类群高油,第V类群高蛋白,类群间的氨基酸、脂肪酸组分各有差异。需根据育种目标在群体间选配亲本,以提高品质育种的效率。