植物免疫诱抗剂的作用机理和应用研究进展

植物免疫诱抗剂除了能诱导植物免疫反应以使植物获得或提高对病菌的抗性外,也可以激发植物体内代谢调控过程,促进植物生长,增加作物产量。植物免疫诱抗剂可以诱导植物产生系统获得抗性以使植物对病原菌产生广泛、长期的抗性。本综述全面、系统地介绍了植物免疫诱抗剂的种类及其目前在生产、病害防治上的应用状况,阐述了其作用机理,并展望了植物免疫诱抗剂的应用前景。通过对植物免疫诱抗剂发展历史和应用现状的分析,旨在为植物免疫诱抗剂未来的开发和应用提供一定的理论和实践依据。     

拟南芥DUF647家族成员RUS4植物表达载体的构建及亚细胞定位

ROOT UV-B SENSITIVE4 (RUS4)是拟南芥DUF647蛋白家族的一个功能未知的成员。RUS1和RUS2曾经报道和根UV-B-感应途径相关联,并在拟南芥早期幼苗形态发生和发育中发挥重要作用。为了探究RUS4的分子功能,本研究对RUS4蛋白进行了亚细胞定位分析。首先,我们通过Gateway TOPO载体系统,构建了融合蛋白表达载体pMDC83-RUS4;然后,通过农杆菌介导的花苞转化法,获得了转化pMDC83-RUS4的转基因拟南芥株系;对转基因植物叶肉原生质体的荧光显微镜观察显示,RUS4-GFP信号与叶绿体的自发荧光共定位,说明RUS4蛋白定位叶绿体中。该结果为进一步研究RUS4的分子功能奠定了良好的基础。     

糯玉米新品种河糯612的选育及高产栽培技术

河糯612是以自交系 HN601作为父本，与自主选择自交系 HN16作为母本，经杂交选育而成的糯玉米杂交种，于2018年5月30日通过广西壮族自治区农作物品种审定委员会审定。河糯612幼苗长势旺盛、整齐，植株穗位、株高较为整齐，果穗均匀、穗长较长，结实好，行排列整齐，行间紧致，出籽率比较高，色泽好。可在广西全区种植。     

九峰科技植物资源现状与保护对策

经过查阅历史档案、询问当事人及外业核查、调查,结果表明:九峰地区现有39块试验现场,面积124.7hm^2;实施各类科技项目53项,项目规模面积140.25hm^2,涉及裸子、被子等植物73科,150属,194种(类),已形成科技植物群体;在九峰森林植物本底调查、林木种质资源收集与保存、林木品种遗传改良及繁殖技术等13个学科方向及近120个植物品种开发研究方面取得了重大突破和创新;鉴于九峰科技植物资源现状,本文提出了相应的保护对策与措施。     

Effects of natural protease inhibitors on high protease activity flours

Wheat grain damaged by wheat bug (Eurygaster spp.) contains the bug salivary secretion which hydrolyses the gluten needed for the dough quality of breadmaking due to its proteolytic activity. Since the protease inhibitors are widespread throughout the plant kingdom, the possibility of using some plants, especially food and feed legumes to decrease the proteolytic activity of flours milled from bug damaged wheats was investigated. The proteolytic activity was considerably inhibited by pefabloc-SC and EDTA-Na₂, suggesting that bug protease(s) included serine and metallo proteases. Extracts from cones of hops, seeds of grass pea, red kidney bean and sunflower caused reduction in the activity of bug protease(s). Effects of hop extract on electrophoretic, rheological properties of high protease activity flours milled from different bread wheat cultivars damaged by the bug were also studied. The dough development time and stability values of high protease activity flours increased considerably with hop extract at the lowest addition level (10:1, flour to hop extract ratio). The doughs supplemented with the hop extract had higher maximum resistance and lower extensibility values as compared to their controls. These results suggested that hop extract had improving effects on high protease activity flours due to the bug damage.     

植物种子脱水耐性的研究现状分析与展望

为了更好的聚类植物种质资源耐贮藏和培育免晒植物新品种，研究植物种子脱水耐性的获得、基因表达、调控机理具有重要的理论指导与实践意义。笔者归纳了植物种子脱水耐性的形成假说、生理基础、脱水耐性差异等，重点分析了种子脱水耐性在全基因组、转录组、蛋白质组方面的分子机理研究，指出运用全基因组学方法系统定位世界范围内不同国家地区的不同类型的品种脱水耐性的遗传多样性和相关基因，挖掘种子脱水敏感的关键基因。     

高寒区施肥和混播对燕麦人工草地土壤碳氮储量及垂直分布特征的影响

了解高寒地区燕麦人工草地在燕麦品种、施肥措施和混播水平下土壤碳氮储量潜力及垂直分布动态，为高寒地区燕麦人工草地建植提供理论依据。采用4个燕麦品种（A1：青燕1号，Avena sativa cv. Qingyan No.1；A2：林纳，A. sativa cv. Lena；A3：青海444，A. sativa cv. Qinghai 444；A4：青海甜燕麦，A. sativa cv. Qinghai）、4个施肥水平（B1：不施任何肥料，CK0；B2：尿素75kg/hm2+磷酸二铵150kg/hm2，IM；B3：有机肥1500 kg/hm2，OM；B4：尿素37.5 kg/hm2+磷酸二铵75 kg/hm2+有机肥750 kg/hm2，IM+OM）和4个箭筈豌豆混播水平（C1：0 kg/hm2；C2：45 kg/hm2；C3：60 kg/hm2；C4：75 kg/hm2）的三因素四水平正交试验设计[L16(45)]，在燕麦拔节期、抽穗期、开花期、乳熟期和收获后期研究了3个因素对高寒区燕麦人工草地土壤C、N储量的影响极其垂直分布特征，为高寒区燕麦人工草地土壤固C、固N潜力评估提供理论依据。品种、施肥和混播均显著影响了燕麦人工草地土壤C、N储量。3个因素在作物生长期对土壤C储量的积累的影响大小表现为施肥＞混播＞品种，收获后期表现为混播＞施肥＞品种；各时期对土壤N储量的影响大小均表现为施肥＞混播＞品种。采用尿素37.5 kg/hm2+磷酸二铵75 kg/hm2+有机肥750 kg/hm2的施肥处理，混播75 kg/hm2箭筈豌豆建植的燕麦人工草地土壤C、N储量最高。施肥措施造成燕麦人工草地各时期不同土层间土壤C、N储量的差异。在3种措施影响下燕麦人工草地0~50cm土层土壤C、N储量潜力分别为176.78 t/hm2和11.78 t/hm2。土壤C、N随着土层的加深而逐渐下降，0~20cm土层土壤C、N储量显著高于其它土层。     

Agronomic performance of an IR64 introgression line with large leaves derived from New Plant Type rice in aerobic culture

Aerobic culture is a promising water-saving technology in irrigated rice ecosystems, but the vulnerability of plants to fluctuations in soil moisture constrains leaf expansion and yield. The objective of this study was to examine whether an aboveground architecture with large leaves and reduced tillering is associated with vigorous leaf growth in aerobic rice culture. In a series of field experiments, we evaluated the agronomic performance of an IR64 introgression line, YTH323 (IR84640-11-27-1-9-3-2-4-2-2-2-B), with fewer tillers and larger leaves than IR64, derived from New Plant Type rice, under various water and nitrogen conditions. In flooded culture, YTH323 yielded the same as IR64 and 38% more than IR65564-44-51 (a New Plant Type rice) (9.0 vs. 6.6 t ha⁻¹). In aerobic culture, in contrast, it yielded 81% more than IR64 in slightly dry soils (5.1 vs. 2.8 t ha⁻¹). YTH323 had a higher leaf area index than IR64 and IR65564-44-51 under slightly dry soil conditions and under a range of nitrogen conditions. The higher and more stable yield of YTH323 in aerobic culture was attributable to greater early vigor, high specific leaf area, a high ratio of leaf weight to total biomass, and larger leaves, along with the characteristics of high-yield cultivars such as high responsiveness to fertilizers and good grain filling. We conclude that genetic modification of the aboveground architecture of IR64, a typical tropical lowland rice cultivar, to reduce tiller and leaf number improves adaptation to aerobic culture.     

有机无机肥配施对冬春烤烟经济性状的影响

在云南梁河县对冬春烤烟开展有机肥和化肥合理配施试验,结果比对照增产62.7%;中上等烟比例增加3.6个百分点;净增产值提高72%。     

Controlling sprouting in potato tubers using ultraviolet-C irradiance

Legislation limiting the use of chlorpropham (CIPC), the major potato sprout suppressant, has led to a need for new technologies to extend storage life of tubers. Ultra violet C (UV-C) has been used postharvest to reduce disease incidence on many crops, yet its use and efficacy as a sprout suppressant has not been investigated. The aim of this project was to identify the optimum dose and treatment timing of UV-C treatment on potato tubers as an alternative method of sprout suppression to reduce the dependence on chemical sprout suppressants. Up to six potato cultivars over two seasons were treated with varying doses of UV-C ranging from 0 to 30 kJ m⁻² either at harvest or at first indication of dormancy break. The tubers were stored at 9 °C and sprout growth and incidence assessed. Treatment with moderate UV-C doses (5–20 kJ m⁻²) suppressed sprout length and sprout incidence in a range of cultivars. Periderm DNA damage and programmed cell death were not detected in response to any of the UV-C doses. The inactive ABA metabolite, ABA-GE, increased in response to 10 or 20 kJ m⁻² within 72 h of treatment. Multivariate analysis showed a negative relationship between ABA metabolites and sprout growth/incidence during storage. This study found that UV-C reduced sprout growth in potato with no deleterious effects on tuber quality. This suggests potential for further development as an alternative or supplement to conventional sprout suppressant technologies.