2019年度沙县优质稻品种示范试验

试验通过对野香优669、明Ⅰ优明占、田黄101等13个水稻品种进行展示示范,分析了各品种生育期、农艺性状、抗性以及产量结构,结果表明：野香优669、野香优967、明Ⅰ优明占、中浙优华香占4个参试品种综合性状表现较好,产量较高,建议在沙县推广种植。     

泰州地区稻田综合种养模式水稻病虫害绿色高效防控技术

本文介绍了泰州地区稻田综合种养模式采用的水稻病虫害绿色高效防控技术,主要包括物理防治、化学防治、生物防治等措施,并结合当地生产实践情况,推荐出低毒安全高效的药剂使用组合,实现了稻田环境的可持续发展。     

山东地区夏玉米的高产种植技术

随着我国市场经济的不断发展和农业供给侧的不断改革，玉米价格呈现出大幅度下降趋势， 玉米种植面积也急剧下降。为了提高玉米的产量和效益，科学推广和应用玉米高产种植技术是当务 之急，同时也是玉米产业快速发展的必然趋势。基于以上情况，本文从精细播种、苗期管理、玉米穗期 管理、花粒期管理五个方面入手，研究了夏玉米高产种植技术。希望通过这次研究，为相关种植人员 提供有效的参考。     

An improved method for extraction of sorghum polymeric protein complexes

A method for fractionating sorghum proteins using extraction solvents and techniques designed to obtain polymeric protein structures (especially disulfide linked) was developed. Extraction and separation conditions were optimized in terms of completeness of protein extraction, sample stability, and analytical resolution. After pre-extraction of albumins and globulins, a 3-step sequential procedure involving no reducing agents was applied to ground whole sorghum flour. The three fractions obtained represented proportionally different protein polymer contents and molecular weight distribution as evidenced by comparative size exclusion chromatography. Protein composition also varied among the extracts with differences in kafirin composition and non-kafirin proteins detected in the fractions by RP-HPLC and SDS-PAGE analysis. The ability to quantify and further characterize sorghum polymeric protein complexes will be useful for additional studies linking protein structures with functionality and digestibility and variations for these properties within diverse sorghum germplasm.     

苗期甘蔗氮高效基因型评价指标的筛选

本研究通过低氮压力选择,筛选出甘蔗氮高效种质,分析影响甘蔗氮高效的重要指标,为甘蔗氮高效育种及栽培提供理论依据。以58份甘蔗种质资源为材料,在苗期采用正常供氮（2 mmol/L N）和低氮（0.2 mmol/L N）处理,分析甘蔗植株形态、干重及氮素在各器官中累积分配的特征。通过主成分分析方法筛选影响甘蔗氮高效利用的重要指标,通过聚类分析对58份种质进行聚类。结果表明,低氮（0.2 mmol/L N）处理可以明显从植物形态区分不同种质的氮利用差异,58份种质低氮条件下的干重范围为0.64~14.75 g/株,氮累积量为5.53~63.00 mg/株,氮利用率范围为115.40~279.30 g/g。对低氮压力下甘蔗干重及氮累积等25个指标进行主成分分析后,提取出4个主要成分,总贡献率为92.35%。通过高、低氮条件下与氮利用效率有关的氮转移系数及基因潜力等19个指标分析后提取出5个主成分,总贡献率为82.21%。影响甘蔗氮高效的重要指标有甘蔗的干重（全株、叶、根）、氮累积量（全株、叶、茎）、氮利用率（全株、叶）、叶的相对氮利用率、茎的基因潜力、茎的相对干物质量和茎的相对氮累积量。经聚类分析后初步将58份甘蔗种质分为氮高效基因型、偏氮高效基因型、偏氮低效基因型和氮低效基因型。     

Analysis of the variations in dry matter yield and resource use efficiency of maize under different rates of nitrogen,phosphorous and water supply

Abstract

Increasing resources use efficiency in intensive cultivation systems of maize (Zea mays L.) can play an important role in increasing the production and sustainability of agricultural systems. The objectives of the present study were to evaluate DM yield and the efficiency of inputs uses under different levels of water, nitrogen (N) and phosphorus (P) in maize. Therefore, three levels of irrigation including 80 (ETc₈₀), 100 (ETc₁₀₀) and 120% (ETc₁₂₀) of crop evapotranspiration were considered as the main plots, and the factorial combination of three levels of zero (N₀), 200 (N₂₀₀) and 400 (N₄₀₀) kg N ha^?1 with three levels of zero (P₀), 100(P₁₀₀) and 200 (P₂₀₀) kg P ha^?1 was considered as the sub plots. The results showed that increasing the consumption of water and P was led to the reduction of N and P utilization efficiency, while RUE increased. WUE was also increased in response to application of N and P, but decreased when ET_C increased. DM yield under ETc₈₀ treatment reduced by 11 and 12%, respectively, compared to ETc₁₀₀ and ETc₁₂₀ which was due to reduction of cumulative absorbed radiation (R_abs(cum)) and RUE. Under these conditions, changes of stomatal conductance (gs) had little effect on DM yield. It was also found that N limitation caused 11 and 20% reduction in DM yield compared to N₂₀₀ and N₄₀₀, respectively. This yield reduction was mainly the result of decrease in RUE. By decreasing R_abs(cum), P deficiency also reduced DM yield by 5 and 9%, respectively, relative to P₁₀₀ and P₂₀₀ treatments.     

利用缸压表对汽缸密封性进行检测与分析

汽缸密封性的好坏关系到汽车的使用性能是否能够得到有效的发挥,对汽车动力性、燃油经济性、环保性能都会产生较大的影响。通过对汽缸压缩压力的检测与分析,判断发动机汽缸的密封状态,确定故障部位并采取手段进行修复,使发动机保持良好的工作状态。     

番茄/茄子嫁接对其根际土壤生物学性状及细菌群落结构的影响

以茄子作为砧木，番茄为接穗进行嫁接，并以番茄自根植株和茄子自根植株作为对照，基于传统及现代高通量测序技术分析根际土壤的生物学性状及细菌群落结构特征，旨在揭示嫁接植株抗性增强的机制。结果表明：番茄/茄子嫁接植株根际土壤中可培养细菌、放线菌数量，微生物生物量、酶活性和细菌丰富度、多样性指数均显著高于茄子和番茄自根植株；另一方面，norank_c_Acidobacteria、硝化螺菌属（Nitrospira）、芽孢杆菌属（Bacillus）、norank_f_Gemmatimonadaceae、norank_o_Gaiellales、norank_f_Xanthobacteraceae、norank_o_SC-I-84、norank_f_Anaerolineaceae、norank_f_Nitrosomonadaceae、鞘脂单胞菌属（Sphingomonas）细菌是嫁接植株与茄子、番茄自根植株根际土壤中的共有优势细菌属；g_unclassified_o_Ignavibacteriales 、 醋酸杆菌属（ g_Acetobacter ）、g_norank_f_Longimicrobiaceae 、g_unclassified_f_Verrucomicrobiaceae、g_norank_p_FBP、g_norank_p_Aminicenantes 属细菌是嫁接植株根际土壤的特有优势细菌属。与自根植株相比，番茄/茄子嫁接植株根际土壤存在更高可培养微生物数量，微生物生物量和相关酶活性，具有更高的土壤养分有效性，同时拥有不同占比的共有优势细菌门属，尤其拥有更为丰富的微生物可操作分类单元（operational taxonomic units，OTU）和特有 OTU 数量，这是嫁接植株抗性增强的主要原因。     

高花青素洋葱品种"秀球赤玉"的选育与特征特性

“秀球赤玉”是以高花青素深紫皮不育系562A为母本，以高花青素深紫皮自交系2014-7-10-6为父本培育的中日照、早熟、高花青素三系杂交种。其表现：鳞茎大圆球形，花青素含量高达68.8 mg/g；洋葱鳞片从外至里均为深紫色，色泽亮，外观漂亮，商品率高；辣味轻，口感脆甜，可生食；植株长势强，抗病，耐抽薹，分球、裂球少；假茎细且收口紧，耐贮性好；平均单球质量600～1 000 g，667 m2产量8 000～12 000 kg；适宜在中日照地区推广，2019—2020年累计推广面积超过1 500 hm2。     

高产条件下日光温室越冬茬黄瓜适宜滴灌量研究

为了明确京郊日光温室越冬茬黄瓜高产栽培所需的适宜滴灌量,以黄瓜"津优35"为试材,研究了不同滴灌量对黄瓜灌溉水分配、产量、品质、水分利用效率和经济效益的影响。结果表明:85%农户常规灌溉量处理较对照节水50.8 mm,深层渗漏量减少42.6%,黄瓜产量提高3.6 t/hm~2,可溶性糖含量提高17.3%,硝酸盐含量降低5.0 mg/kg,果实品质提高;水分利用效率提高3.61 kg/m~3,增收1.42万元/hm~2。综合来看,85%农户常规灌溉量处理是京郊日光温室越冬茬黄瓜适宜滴灌量,全生育期灌溉总量为327.9 mm,其中苗期41.7 mm,初瓜期43.1 mm,结果期243.1 mm,当埋深20 cm的土壤张力计读数为-21.6 kPa时需进行灌溉。