辣椒新品种‘秦椒1号’

‘秦椒1号’辣椒是以自交系‘R9816-2-1-3’为母本,‘Z97-2-7-42’为父本杂交育成的一代杂种。果实长灯笼形,表面微皱,果长17.1 cm,果肩宽4.7 cm,果肉厚3.1 mm,单果质量73.5 g,商品性好,品质佳,平均产量45 062.6 kg·hm~(-2)。高抗病毒病、青枯病和疫病。     

花生栽野种间杂交异源多倍化早期世代基因表达变化分析

为了进一步认识花生种间杂交异源多倍体进化过程中的基因表达变化规律,采用cDNA-HFO-TAG技术,研究花生种间杂交组合(四倍体栽培种‘仲恺花4号’×二倍体野生种Arachis. diogio)杂种F_1和早期多倍体世代S0~S3的基因表达变化情况。14条HFO-TAG引物共扩增出121条cDNA片段,其中差异片段84个,主要包括三种类型:亲本转录物完全沉默(3个),双亲转录物在后代部分材料中沉默(59个)和新转录物激活(22个),上述变化在F1代即开始发生。筛选其中大小为500~2 000 bp的35个TDFs进行克隆测序,有27个和NCBI数据库中已录入的基因具有较高的相似性,包括抗逆相关基因(10条)、未知功能蛋白基因(8条)、能量与代谢相关基因(7条)和转录因子相关的基因(2条)。这些研究结果进一步表明在花生种间杂交异源多倍化早期发生着快速、剧烈的基因表达变化,从中获得的差异基因片段,有助于了解花生属种间杂交异源多倍化早期分子机制变化,这对有效利用野生花生种质优异基因具有重要意义。cDNA-HFO-TAG技术简单、有效且实用,完全适用于花生属基因表达变化研究,可以作为花生属及其它物种基因表达变化分析技术的有效补充。     

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。     

优质国审棉品种——ZHM19

概述了ZHM19的选育过程、特征特性、产量、纤维品质和抗病性等特点及主要栽培技术措施。     

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。     

The efficiency of nitrogen in cattle manures when applied to a double‐annual forage cropping system

The use of cattle manure (CM) for fertilization presents challenges for optimizing nitrogen (N) use. Our work aimed to assess N efficiencies, in a 6‐year experiment with three biennial rotations of four crops: oat–sorghum (first year) and ryegrass–maize (second year) in a rainfed humid Mediterranean area of Spain. Fertilization treatments included the following: control (no N), 250 kg mineral N ha^?1 year^?1 (250MN), three CM rates (supplying 170, 250 and 500 kg N ha^?1 year^?1) and four treatments where the two lowest CM rates were complemented with either 80 or 160 kg mineral N ha^?1 year^?1. Treatments were distributed randomly in each of three blocks. Maximum dry‐matter yield (~44–49 t ha^?1 rotation^?1) was achieved in the third rotation, and only the control and the 170CM yielded significantly less. Within the limitations of the EU Nitrate Directive, the N steady state supply of 170CM always requires a complement of mineral N (80 kg N ha^?1) to maximize N agronomic efficiency. The maximum N‐fertilizer replacement value (250CM vs. 250MN) was 0·67, without significant differences between the two treatments in other N‐related efficiency indexes, which indicates that plants took advantage of residual‐N effects. Nitrogen losses by leaching in the 250CM treatment were around 5–7% of the N applied. This reinforces the sustainability of manure recycling in long cropping seasons.