延迟收获对长江中游春玉米农艺性状及机收质量的影响

为探明长江中游玉米籽粒机械直收适宜品种与配套农艺措施，2018—2019年选用不同玉米品种，测定不同机收时间下玉米关键农艺性状、产量及机收质量指标。结果表明，收获时间对春玉米机收产量与机收质量均有显著影响。延迟1周收获后籽粒容重显著增加，机收产量显著提高，2年平均提高9.72%；而延迟2周收获则有降低机收产量的趋势。2年收获时杂质率总体≤3%，而机收籽粒破碎率与损失率均>5%，是该区域春玉米籽粒机收面临的主要问题。籽粒厚度、籽粒含水率和百粒重是影响机收籽粒破碎率的关键性状，三者与机收籽粒破碎率均呈显著的倒二次曲线关系；玉米的倒伏率、穗位高和重心高度是影响机收损失率的关键性状，倒伏率与机收损失率呈显著正相关，而穗位高和重心高度与机收损失率均呈显著的二次曲线关系。延迟收获能显著降低籽粒含水量，从而降低籽粒破碎率，但继续延迟收获有增加倒伏的风险。综上，长江中游春玉米成熟后适时延迟7~10 d收获，可有效降低籽粒含水量与机收籽粒破碎率，提高玉米籽粒机收产量。     

金花茶组叶片生化成分评价及其最佳采收期研究

本研究以26份来源于6种金花茶组植物、不同表型防城金花茶和不同月份采收的防城金花茶的成熟叶片为材料,建立同时测定芦丁、槲皮素、木犀草素、山奈酚4种黄酮成分的HPLC法,以及优化了测定茶多酚、总黄酮、总多糖和总皂苷成分含量的紫外分光光度法,基于以上8种成分含量,结合主成分综合评分和聚类分析的化学计量学方法,对不同来源金花茶叶片生化成分进行综合评价。结果表明：8种成分含量在不同来源金花茶叶片中存在差异,其中无名金花茶8种成分含量均较高,四季金花茶、防城金花茶次之;8年生1—12月份采收的防城金花茶叶片中,总皂苷、总黄酮和总多糖含量均表现为升-降-升-降的变化规律,并在10月含量达到最高;5年生不同种（S1~S14）主成分综合评分顺序为：无名金花茶>四季金花茶>防城金花茶（花蕾大、花多、不抗寒、花黄且大、尖果）>显脉金花茶>凹脉金花茶>小果金花茶;8年生不同月份（S15~S26）主成分综合评分顺序为：10月采>2月采>3月采>4月采>5月采>7月采>6月采>1月采>8月采>12月采>11月采>9月采,其中无名金花茶、四季金花茶及防城金花茶中花蕾大、花多、花黄且大等表型的金花茶叶片与2—4月份和10月份采集的8年生金花茶叶片的多指标综合评分排序位列前10;聚类分析结果将供试26份样品分为5类。综上所述,金花茶叶片的生化成分与金花茶植物种类和采收期有关,无名金花茶、四季金花茶和防城金花茶中花蕾大、花多、不抗寒、花黄且大的表现型的综合生化成分较高,初步确定防城金花茶叶片的适宜采收期为2—4月份和10月份,所建立的多指标定量结合化学计量学分析方法为金花茶组植物叶片的生化成分评价提供依据。     

Narbon Vetch (Vicia narbonensis L.): A Potential Feed Legume Crop for Dry Areas in West Asia

Provision of feed supplies for the rapidly growing livestock population is essential in West Asia. Shortages can be alleviated by growing forage crops in the existing fallow lands.
Narbon vetch (Vicia narbonensis L.) is a leguminous species with high yield potential, drought tolerance and cold resistance. It could be used for grain and straw production as source for animal feed in dry areas. It is good source of protein with seeds contain 28 % protein yielding 364 kg per hectare protein, whilst straw contains 9 % protein and yields a similar amounts of digestible protein per hectare.
Nine promising lines of Narbon vetch developed at ICARDA were tested at two sites over four years under rainfed conditions. Since climatic conditions were considered to be of considerable importance, each site in each year was treated as a separate environment to give eight environments with annual rainfall varied from 195 to 504 mm.
Narbon vetch possessed high seedling vigour with rapid winter growth and negligible cold damage. Grain yield varied form 0.47 to 1.90 t/ha, with a harvest index varying from 30 to 40 %. The data indicated that below 300 mm rainfall the grain yield varied from 0.47 t/ha when rain fall was 195 mm to 1.4 t/ha when rainfall was 245 mm. Most of the lines had wide adaptation to dry areas in terms of both grain yield and stability. Climate, except early spring rains had little effect on biological and grain yields.     

Yield Performance of Wheat Isolines with Different Dosages of the Short Arm of Rye Chromosome 1

Translocations of the short arm of rye (Secale cereale L.) chromosome 1 (1RS) in wheat (Triticum aestivum L. cv. Pavon 76) are known to increase root biomass. Such an increase enhances water and nutrient uptake and may improve grain yield. Two greenhouse experiments and a field experiment were carried out at the University of California, Riverside, in 2012 and 2013 under well‐watered and terminal drought treatments to evaluate phenotypic characters associated with varying dosages of 1RS, including grain yield. The genotypes used were cultivar Pavon 76 (R₀), Pavon 76/Pavon1RS.1AL (F₁ hybrid) with a single dosage of 1RS (R₁A), Pavon 1RS.1AL with two dosages of 1RS (R₂A), Pavon 1RS.1DL (R₂D) also with two dosages of 1RS and Pavon 1RS.1AL‐1RS.1DL (R₄AD) with four dosages of 1RS. There was a significant positive correlation between number of dosages of 1RS and root biomass. However, no correlation was found between root biomass and grain yield per plant. Drought in the field experiment reduced grain yield significantly. Under well‐watered field conditions, grain yield of R₂A (215.9 g plant^?1) was significantly greater than those of R₂D (191.8 g plant^?1) and R₄AD (161.7 g plant^?1). Also, grain yield of R₄AD was significantly less than those of F₁, Pavon 76 and R₂D under well‐watered conditions. Under drought field conditions, no significant differences were found among the genotypes for grain yield was found between F₁ (14.7 g plant^?1) and R₄AD (12.4 g plant^?1). Harvest index was significantly greater in well‐watered (44.2 %) than in drought (34.6 %) field conditions. On average, genotypes F₁ (42.3 %) and R₂A (40.6 %) had higher harvest index than R₂D (38.3 %) and R₄AD (35.5 %) in the field. Also, Pavon 76 (40.2) and R₂D (38.3) had higher harvest index than R₄AD. Drought tolerance was lowest for R₄AD due to its relatively lower grain yield potential. In general, Pavon 1RS.1AL carrying two dosages of 1RS showed higher grain yield under wet treatments. Pavon 1RS.1AL‐1RS.1DL carrying four dosages of 1RS produced the largest shoot and root biomasses, but the least grain yield.     

Some Agronomic Strategies for Organic Quinoa (Chenopodium quinoa Willd.)

Quinoa is a potential new seed crop for protein feed and human consumption in Europe, with tolerance to a range of abiotic stresses. For this purpose the study was planned to analyse the effect of important agronomic strategies like nitrogen level, N application strategy, row spacing and harvest time on yield and quality of quinoa. The experiments took place in the field of the experimental station of the Faculty of Science, University of Copenhagen. Three levels of organic nitrogen from slurry was used (60, 120 and 180 kg N ha^?1), supplied either all at once at sowing, or split between sowing and beginning of the reproductive phase. The effect of row spacing and harvest time was studied by harvesting seeds at seed maturity, which occurred 2–3 weeks prior to the mechanical harvest by threshing, and a couple of months after. Yield increased significantly (P ≤ 0.05) with an application up to 180 kg N ha^?1, reaching 2200 kg ha^?1. Increasing N also caused a significantly increased seed weight (up to 3.3 mg) and protein content (up to 17 %). N level did not affect number and amount of weeds. Split application with part of the N applied at bud formation did not have a significant effect on yield. Delayed harvest had a negative influence on seed weight, whereas protein content was stable after harvesting even a month after seed maturity. A late harvest significantly reduced seed germination, being reduced by 50 % after a 2‐month delay. A conclusion from this study is that both yield and protein content of seed can be manipulated by N level and application strategy. Harvest time is important for securing a high seed quality measured as seed germination, seed weight and protein content. A fast germination of quinoa is an important characteristic demonstrating that the crop has good possibilities for being well‐established in the field when free from weeds at the time of sowing. The choice of row spacing is important and depends on weed control method. Weed control strategy should be developed based on modern precision tools.     

不同密度紧凑型油菜的源库特征及与收获指数的相关研究

旨在为油菜株型育种和机械化栽培提供理论和技术依据。选用3个不同类型的紧凑型油菜常规品种,以松散型油菜杂交种‘秦优7号’为对照,研究了在15万、30万、45万、60万、75万、90万株/hm²密度下各品系的库源特征及其与收获指数的关系。结果表明,紧凑型油菜单株在不同密度下的库源特征与对照松散型相同,单株根、茎、枝、壳干重,角粒数和单株角果数随种植密度的增加而降低,且低密度显著高于高密度;千粒重随密度的变化不大。紧凑型油菜的生物学产量和经济产量随种植密度的增加而增加,松散型油菜随种植密度的增加而下降。说明紧凑型油菜适宜密植和机械化收获。收获指数对密度的响应在两类型品种表现一致,最低密度15万株/hm²增加到30万株/hm²时达到峰值,以后随着种植密度的继续增加而降低。收获指数与茎+枝+壳干重之和,与库性状角粒数、角果数、千粒重、单株产量,与库源关系的粒根比、粒茎比、粒枝比、粒壳比显著正相关,说明要提高收获指数不仅要扩“源”增“库”,还要协调库源的合理分配比例。     

新疆酿酒葡萄振动采收装置设计与试验

酿酒葡萄收获具有季节性强、占用劳动量大等特点,而机械化采收是酿酒葡萄收获的必然趋势。为此,针对新疆酿酒葡萄种植特点及采收作业要求,在测定了酿酒葡萄果蒂连接力的基础上,设计了一种由牵引架、工作部件和驱动部件等组成的酿酒葡萄振动采收装置,确定了其工作参数及关键结构参数,并进行了初步试验。结果表明:采用振动原理开展酿酒葡萄采收作业在技术层面是可行的,装置的研究为酿酒葡萄收获机的研制提供一定的理论与技术基础。     

‘金艳’猕猴桃果实生长规律及不同采收期对其品质的影响

以‘金艳’猕猴桃为材料,研究其果实生长动态规律及不同采收期(谢花后153 d、168 d、183 d和198 d)(Ⅰ、Ⅱ、Ⅲ、Ⅳ)的软果品质。结果表明：金艳猕猴桃在凉山州西昌市一般4月中旬进入盛花期；在生育期内,果实尺寸(纵、横径)呈前期逐渐增大,后期趋于平稳的变化,谢花后59 d内为果实快速膨大期,谢花后101 d进入生长缓滞期；随采收期延迟,果实软熟时可溶性固形物、干物质和糖酸比呈逐渐升高的趋势；早期采收(Ⅰ、Ⅱ)果实软熟时可溶性固形物、干物质、糖酸比和总氨基酸偏低,淀粉和粗纤维较高；晚期采收(Ⅲ、Ⅳ期)果实软熟时可溶性固形物、干物质、糖酸比较高,淀粉和粗纤维较低,风味更浓,口感更佳；Ⅳ期维生素C和总氨基酸含量最高,但采收较晚不利于当年鲜果销售；若作为鲜果,其最佳采收期为Ⅲ期,Ⅱ期和Ⅳ期可作为备选采收期；作为保健品加工原料,最佳采收期为Ⅳ期。     

水平摘锭式采棉机采摘头传动系统优化与试验

为了提高水平摘锭式采棉机的作业效率,针对国产采棉机在高速作业过程中存在采摘速比系数匹配不当、采摘头传动系统不合理的问题,该研究根据水平摘锭式采棉机采摘头结构与工作原理,对采摘头传动系统、采棉机采摘机理进行分析,根据传动系统传动要求和采棉机采摘条件,建立目标函数与约束条件,运用遗传算法和1stOpt软件对采摘头传动系统进行优化分析。优化结果为:滚筒动力齿轮齿数为72,离合器上齿轮变位系数为-0.14,滚筒动力齿轮变位系数为1.208,齿轮顶隙系数为1.25。结合采棉机作业要求搭建棉花采摘性能试验台,选取采摘滚筒转速113～143 r/min、作业速度5.93～7.20km/h,对优化前后采摘头的作业性能进行验证试验。结果表明:优化后的采摘头作业速度由6.4km/h提升至7.2 km/h,工作效率由4.86 hm~2/h提升至5.47 hm~2/h,提高了12.5%;优化后的采摘头在7.2 km/h的作业速度下,采净率由90.4%提升至93.7%,采净率提高了3.6%,含杂率由10.28%降至9.72%,含杂率降低了5.4%,验证了传动系统优化结果的合理性。该研究可为国产采棉机采摘头的研发提供参考。     

不同采收期对阿克苏富士苹果贮藏品质的影响

以阿克苏红富士苹果为试材,研究了不同采收期对采后果实品质的影响,为苹果选择合理的采收期和保持果实良好的贮藏品质提供依据。结果表明:采收期对苹果呼吸高峰的出现时间影响较小,但对呼吸高峰的峰值影响明显;早期采收的果实硬度较大,但失重率也明显高于其他晚采果实;适宜采收期采收的果实在贮藏期间,其VC、可滴定酸、可溶性固形物含量变化幅度小。用于鲜食的果实可在10月22左右采收,此时果肉硬度为10.01 kg/cm2,固酸比为29.16,口感酸甜。用于长期贮藏的阿克苏红富士苹果的最佳采收期为11月1日左右,低温贮藏150 d后果实硬度≥8.79 kg/cm2,可溶性固形物含量≥14.67%。