啤酒大麦优质高产栽培措施及收藏要领

啤酒大麦作为我国啤酒工业的重要原料,不仅要求有较好的外观色泽、较高的内在品质、较低的蛋白质含量、较高的千粒重,还需保持较高的发芽率。所以,熟练掌握啤酒大麦的优质高产栽培措施和其安全贮藏技术,是提高啤酒大麦生产效益和使用价值的关键所在。啤酒大麦的优质高产栽培必须以主攻穗数、稳定粒数、提高粒重为目标,确保每公顷成穗数达750万～825万、每穗20～22粒、千粒重40g以上,确保每公顷产量突破6000～6750kg;而其安全贮藏则必须做到适时收获、及时摊晒、科学堆放、科学防治病虫等四点。     

饲用复合酶对蛋用种鸡日粮磷的利用和生产性能的影响

本试验旨在研究低磷日粮添加复合酶制剂对蛋用种鸡磷的利用和生产性能的影响。选用972只24周龄罗曼褐父母代种鸡,分为3个处理,每处理6个重复,每重复54只种鸡。采用玉米-豆粕-杂粕型基础饲粮,正对照组含总磷0.55%,非植酸磷0.40%,不加酶;负对照组含总磷0.40%,非植酸磷0.21%,不加酶;试验组含总磷0.40%,非植酸磷0.21%,加酶制剂。试验期18周。结果表明:在低非植酸磷的日粮中添加复合酶,粪便中磷含量极显著低于正对照组(P<0.01);粪便中粗蛋白质含量显著低于正对照组和负对照组(P<0.05);显著改善蛋黃顔色(P<0.05);不影响生产性能、骨骼发育和蛋壳质量。添加200 g/t复合酶替代罗曼褐蛋用种鸡日粮中75%的磷酸氢钙能够降低饲料成本,提高养殖企业的经济效益,对罗曼褐蛋用种鸡生产性能无不利影响。     

天目山－怀玉山区水源涵养与生物多样性保护 重要区生态承载力评价

为了明确近10年天目山－怀玉山区水源涵养与生物多样性保护重要区生态承载力状况,基于社会发展压力、经济发展压力、资源环境支撑力和生态弹力构建评价指标体系,利用投影寻踪模型对2008—2017年天目山－怀玉山区水源涵养与生物多样性保护重要区生态承载力进行评价。研究结果显示,第三产业占GDP比重、人均国内生产总值、一般工业固体废弃物产生量及森林覆盖率对研究区城市生态承载力有较大影响。2008年研究区城市生态承载力评价等级基本安全的城市有6个,较不安全的城市有5个,不安全的城市有2个。2017年研究区城市里生态承载力评价等级较安全的城市有1个,基本安全的城市有1个,较不安全的城市有7个,不安全的城市有4个。2008—2017年5个城市生态承载力呈上升趋势,8个城市生态承载力呈下降趋势。研究区城市生态承载力在空间分布上呈现由中心向南北递减的趋势。     

江苏地区小麦赤霉病菌种群检测与抗药性分析

本研究旨在检测江苏地区小麦赤霉病菌的种群组成与对传统杀菌剂单剂的抗性严重度。以江苏溧阳、通州和盐城地区小麦赤霉病菌子囊孢子为试材,鉴定其优势种群,检测对多菌灵、戊唑醇和咪鲜胺的抗性。结果表明：江苏地区小麦赤霉病菌株中全部检测到亚细亚镰孢,是绝对优势种群;禾谷镰孢占比最高是溧阳地区的14%,最低是通州地区的8%,平均占比为11.33%,显著低于亚细亚镰孢占比;江苏地区小麦赤霉病菌对多菌灵的抗性频率介于26.3%~54.5%;未检测到戊唑醇和咪鲜胺具有抗性的赤霉菌株。综上,江苏地区小麦赤霉病菌优势种群是亚细亚镰孢,其对多菌灵单剂已产生严重抗性,未发现对戊唑醇和咪鲜胺产生抗性。     

Relay-intercropping soybean with maize maintains soil fertility and increases nitrogen recovery efficiency by reducing nitrogen input

Optimized nitrogen(N)management can increase N-use efficiency in intercropping systems.Legume-nonlegume intercropping systems can reduce N input by exploiting biological N fixation by legumes.Measurement of N utilization can help in dissecting the mechanisms underlying N uptake and utilization in legume-nonlegume intercropping systems.An experiment was performed with three planting patterns:monoculture maize(MM),monoculture soybean(SS),and maize-soybean relay intercropping(IMS),and three N application levels:zero N(NN),reduced N(RN),and conventional N(CN)to investigate crop N uptake and utilization characteristics.N recovery efficiency and 15N recovery rate of crops were higher under RN than under CN,and those under RN were higher under intercropping than under the corresponding monocultures.Compared with MM,IMS showed a lower soil N-dependent rate(SNDR)in 2012.However,the SNDR of MM rapidly declined from 86.8%in 2012 to 49.4%in 2014,whereas that of IMS declined slowly from 75.4%in 2012 to 69.4%in 2014.The interspecific N competition rate(NCRms)was higher under RN than under CN,and increased yearly.Soybean nodule dry weight and nitrogenase activities were respectively 34.2%and 12.5%higher under intercropping than in monoculture at the beginning seed stage.The amount(Ndfa)and ratio(%Ndfa)of soybean N2 fixation were significantly greater under IS than under SS.In conclusion,N fertilizer was more efficiently used under RN than under CN;in particular,the relay intercropping system promoted N fertilizer utilization in comparison with the corresponding monocultures.An intercropping system helps to maintain soil fertility because interspecific N competition promotes biological N fixation by soybean by reducing N input.Thus,a maize-soybean relay intercropping system with reduced N application is sustainable and environmentally friendly.     

Genetic bases of source-,sink-,and yield-related traits revealed by genome-wide association study in Xian rice

The source-sink relationship determines the ultimate grain yield.We investigated the genetic basis of the relationship between source and sink and yield potential in rice.In two environments,we identified quantitative trait loci(QTL)associated with sink capacity(total spikelet number per panicle and thousand-grain weight),source leaf(flag leaf length,flag leaf width and flag leaf area),source-sink relationship(total spikelet number to flag leaf area ratio)and yield-related traits(filled grain number per panicle,panicle number per plant,grain yield per plant,biomass per plant,and harvest index)by genome-wide association analysis using 272 Xian(indica)accessions.The panel showed substantial variation for all traits in the two environments and revealed complex phenotypic correlations.A total of 70 QTL influencing the 11 traits were identified using 469,377 high-quality SNP markers.Five QTL were detected consistently in four chromosomal regions in both environments.Five QTL clusters simultaneously affected source,sink,source–sink relationship,and grain yield traits,probably explaining the genetic basis of significant correlations of grain yield with source and sink traits.We selected 24 candidate genes in the four consistent QTL regions by identifying linkage disequilibrium(LD)blocks associated with significant SNPs and performing haplotype analysis.The genes included one cloned gene(NOG1)and three newly identified QTL(qHI6,qTGW7,and qFLA8).These results provide a theoretical basis for high-yield rice breeding by increasing and balancing source–sink relationships using marker-assisted selection.     

柑桔黄龙病三种媒介昆虫的研究进展

柑桔木虱是传播世界毁灭性病害柑桔黄龙病的唯一虫媒,因此,科学合理防治柑桔木虱是治理柑桔黄龙病的关键措施之一。本文系统概述了柑桔上3种木虱的生物学特性、发生和扩散规律、与柑桔黄龙病的互作及传毒机制等方面的研究进展,以期为柑桔木虱的合理防治提供参考,为柑桔黄龙病的综合治理提供理论依据和借鉴。