Study on the Relationship of Seedling Density and Line Spacing to Leaf-stem Ratio, DW/FW Ratio and Grass Yield of Forage Sweet Sorghum

[ Objectives ] The aim was to optimize the configuration of seedling density and line spacing of forage sweet sorghum （ Sorghum blcolor （ L. ） Moench） and explore its high-yield cultivation techniques. [ Methods] Effects of such two influencing factors as line spacing and seedling density on the leaf-stem ratio, DW/FW ratio and grass yield of forage sweet sorghum were analyzed by using split-plot experiment design experiment method and LSD method of IBM. SPSS. Statis- tics. v22 stati, stics software. [ Results ~ Seedling density and line spacing had no obvious effect on the leaf-stem ratio and DW/FW ratio of forage sweet sorghum but had obvious influences on the grass yield. Moreover, the optimal combination of seedling density and line spacing for high yield of forage sweet sorghum was A2 B4, that is, seedling density was 225 000 plants/hm2, and line spacing was 40 cm. [ Conclusions] The results provided a theoretical basis and technical support for high-yield cultivation techniques of forage sweet sorghum.

直立堤前stem波的分布规律及对工程的影响

当波浪沿直立堤以小于某临界角度入射时,将形成沿堤增长的stem波,目前国内外对stem波的研究较少且停留在理论阶段。以某直立堤台风破坏复演的物模试验为例,结合国内外研究成果,对stem波的产生条件、特征以及对工程的影响进行探讨。结果表明:1)stem波的波高和波宽均在沿堤传播中逐渐增大,沿堤比波高的增长呈现前快后慢的特点;2)不同入射波高和波向对于stem波的特征影响较大,详细的规律仍待进一步研究;3)stem波可对工程中直立堤造成蛇行破坏或对端部斜坡衔接段造成破坏,工程规划和结构选型应避免类似布置,宜采用三维物理模型试验验证stem波作用下结构的安全性。目前行业规范未涉及stem波相关内容,本研究成果可为工程设计提供参考。

Preparation of a Novel Highly Effective and Environmental Friendly Wheat Seed Coating Agent

A novel environmental friendly wheat seed coating agent was prepared from the natural polymer,biological pesticide,microfertilizer,microelements and other additives.The laboratory and field test results showed that it could enhance the yield up to 16% and reduce its input cost to 1/6 as compared with the conventional wheat seed coating agent.It is safe without causing any pollution and would have significant economic and environmental benefits.

Effects of Different Row Ratios of Male and Female Parents and Application Amount of Nitrogen Fertilizer on Hybrid Wheat Seed Production and Its Component Factors

In order to screen suitable high hybrid wheat seed production technology,the split-plot experiment design was adopted and study was carried out about the effects of the different row ratios of male and female parents and application amount of nitrogen fertilizer on hybrid wheat seed production and its component factors. The results showed that the seed production increased with the increase in the number of female parent row. When the row ratio of male and female parents was 2 ∶ 6,the seed production was 3 683. 8 kg/ha; when the application amount of nitrogen fertilization was 50 kg/ha,the seed production was 3 649. 4 kg/ha; the interaction between the row ratio of male and female parents and the application amount of nitrogen fertilizer indicated that when the row ratio of male and female parents was 2∶ 6 and the application amount of nitrogen fertilizer was 300 kg/ha,the seed production reached the highest( 4160. 6 kg/ha). The row ratio of male and female parents and application amount of nitrogen fertilizer had significant effect on the component factors of seed production,including the number of grains per spike,spike weight and setting percentage. When the row ratio of male and female parents was 2∶ 5,the number of grains per spike,spike weight and setting percentage were the highest at 26. 7 grains,1. 12 g,and 62. 6% respectively; when application amount of nitrogen fertilizer was 450 kg/ha,the number of grains per spike,spike weight and setting percentage were the highest at 26. 0 grains,1. 08 g,and59. 2% respectively; the interaction of row ratio of male and female parents and application amount of nitrogen fertilizer had significant effect on the number of grains per spike,spike weight and setting percentage; when the row ratio of male and female parents was 2∶ 5 and the application amount of nitrogen fertilizer was 300 kg/ha,the number of grains per spike,spike weight and setting percentage were the highest at 29. 6grains,1. 24 g,and 71. 6% respectively. The number of grains per spike is the largest component factor for seed production. Increasing the number of grains per spike can increase the seed production. According to the effects of row ratio of male and female parents and application amount of nitrogen fertilizer on the component factors of seed production,the optimal condition was 2∶ 5-2∶ 6 for row ratio of male and female parents and 300-450 kg/ha for application amount of nitrogen fertilizer.

Gene expression profiles of human adipose-derived mesenchymal stem cells dynamically seeded on clinically available processed nerve allografts and collagen nerve guides

It was hypothesized that mesenchymal stem cells(MSCs) could provide necessary trophic factors when seeded onto the surfaces of commonly used nerve graft substitutes. We aimed to determine the gene expression of MSCs when influenced by Avance■ Nerve Grafts or Neura Gen■ Nerve Guides. Human adipose-derived MSCs were cultured and dynamically seeded onto 30 Avance■ Nerve Grafts and 30 Neura Gen■ Nerve Guides for 12 hours. At six time points after seeding, quantitative polymerase chain reaction analyses were performed for five samples per group. Neurotrophic [nerve growth factor(NGF), glial cell line-derived neurotrophic factor(GDNF), pleiotrophin(PTN), growth associated protein 43(GAP43) and brain-derived neurotrophic factor(BDNF)], myelination [peripheral myelin protein 22(PMP22) and myelin protein zero(MPZ)], angiogenic [platelet endothelial cell adhesion molecule 1(PECAM1/CD31) and vascular endothelial cell growth factor alpha(VEGFA)], extracellular matrix(ECM) [collagen type alpha I(COL1A1), collagen type alpha III(COL3A1), Fibulin 1(FBLN1) and laminin subunit beta 2(LAMB2)] and cell surface marker cluster of differentiation 96(CD96) gene expression was quantified. Unseeded Avance■ Nerve Grafts and Neura Gen■ Nerve Guides were used to evaluate the baseline gene expression, and unseeded MSCs provided the baseline gene expression of MSCs. The interaction of MSCs with the Avance■ Nerve Grafts led to a short-term upregulation of neurotrophic(NGF, GDNF and BDNF), myelination(PMP22 and MPZ) and angiogenic genes(CD31 and VEGFA) and a long-term upregulation of BDNF, VEGFA and COL1A1. The interaction between MSCs and the Neura Gen■ Nerve Guide led to short term upregulation of neurotrophic(NGF, GDNF and BDNF) myelination(PMP22 and MPZ), angiogenic(CD31 and VEGFA), ECM(COL1A1) and cell surface(CD96) genes and long-term upregulation of neurotrophic(GDNF and BDNF), angiogenic(CD31 and VEGFA), ECM genes(COL1A1, COL3A1, and FBLN1) and cell surface(CD96) genes. Analysis demonstrated MSCs seeded onto Neura Gen■ Nerve Guides expressed significantly higher levels of neurotrophic(PTN), angiogenic(VEGFA) and ECM(COL3A1, FBLN1) genes in the long term period compared to MSCs seeded onto Avance■ Nerve Grafts. Overall, the interaction between human MSCs and both nerve graft substitutes resulted in a significant upregulation of the expression of numerous genes important for nerve regeneration over time. The in vitro interaction of MSCs with the Neura Gen■ Nerve Guide was more pronounced, particularly in the long term period(> 14 days after seeding). These results suggest that MSC-seeding has potential to be applied in a clinical setting, which needs to be confirmed in future in vitro and in vivo research.

Stem flow of seed-maize under alternate furrow irrigation and double-row ridge planting in an arid region of Northwest China

Maize is widely planted throughout the world and has the highest yield of all the cereal crops. The arid region of North- west China has become the largest base for seed-maize production, but water shortage is the bottleneck for its long-term sustainability. Investigating the transpiration of seed-maize plants will offer valuable information for suitable planting and irrigation strategies in this arid area. In this study, stem flow was measured using a heat balance method under alternate furrow irrigation and double-row ridge planting. Meteorological factors, soil water content （e）, soil temperature （Ts） and leaf area （LA） were also monitored during 2012 and 2013. The diurnal stem flow and seasonal dynamics of maize plants in the zones of south side female parent （SFP）, north side female parent （NFP） and male parent （MP） were investigated. The order of stem flow rate was： SFP〉MP〉NFP. The relationships between stem flow and influential factors during three growth stages at different time scales were analyzed. On an hourly scale, solar radiation （Rs） was the main driving factor of stem flow. The influence of air temperature （Ta） during the maturity stage was significantly higher than in other periods. On a daily scale, Rs was the main driving factor of stem flow during the heading stage. During the filling growth stage, the main driving factor of NFP and MP stem flow was RH and Ts, respectively. However, during the maturity stage, the environ- mental factors had no significant influence on seed-maize stem flow. For different seed-maize plants, the main influential factors were different in each of the three growing seasons. Therefore, we identified them to accurately model the FP and MP stem flow and applied precision irrigation under alternate partial root-zone furrow irrigation to analyze major factors affecting stem flow in different scales.

Responses of Seed Yield and Economic Benefit of Winter Oilseed Rape(Brassica napus L.) to Different NPK Ratio and Dose

Field experiments were conducted during 2008-2010 to investigate the effects of NPK fertilization on seed yield and economic benefit of a new hybrid cultivar of winter oilseed rape(Brassica napus L.)- Xiangzayou763,and to determine the optimum NPK ratio and dose in Hunan,China.The results showed that NPK ratio(1:0.50:0.50) with 180 kg/hm2 N,90 kg/hm^2 P_2O_5 and 90 kg/hm^2 K_2O was the optimum combination for the highest seed yield(2 231.13 kg/hm2) and economic benefit(9 816.97 Yuan/hm^2),of which 1 641.23 Yuan/hm^2 being set for fertilizer investment(VCR=4.11).Besides,the effects of N,P and K fertilizers on seed yield and oil production of winter oilseed rape were not identical.N had the greatest effect on plant growth of winter oilseed rape,followed by P and K.Total leaf number,green leaf number,leaf length and width,rhizome diameter,branch number,dry weight per plant and other agronomic characters in high N treatments were higher than those in low N treatments.By correlation and path analysis of yield components,the contribution rate to seed yield was found:effective silique number per plant>seed number per silique>1 000-seed weight.

颌骨来源骨髓间充质干细胞成骨分化的特点、优势与应用

背景:颌面部骨组织缺损修复是目前研究的热点与难点,而种子细胞的选择是关键。颌骨来源骨髓间充质干细胞是存在于颌骨内的成体间充质干细胞,在颌面部组织再生方面的应用更具优势。目的:综述颌骨来源骨髓间充质干细胞的生物学特性和成骨分化优势以及药物、体内环境、微小RNA对其成骨分化影响的相关研究进展。方法:利用计算机在PubMed和中国知网进行文献检索。中文检索词为“口腔,骨组织工程,干细胞”,英文检索词为“oral,bone tissue engineering,stem cells”。共检索下载文章405篇,根据纳入与排除标准对文章进行筛选,最终纳入70篇文献进行综述。结果与结论:颌骨来源骨髓间充质干细胞是口腔骨组织工程的优良种子细胞,与长骨骨髓间充质干细胞相比,颌骨来源骨髓间充质干细胞具有更强的增殖能力和成骨分化能力。药物、体内环境、微小RNA均可以调控颌骨来源骨髓间充质干细胞的成骨分化,但目前对颌骨来源骨髓间充质干细胞的研究尚处于初始阶段,因此需要更多论证力较强的研究来证实其在颌面部骨组织再生领域的应用更具优势。

雌雄配比和种植密度对单雌性工业大麻籽糠产量的影响

以单雌性工业大麻云麻雌1号作为对象,研究不同雌雄配比(雄株比例为10%、20%和30%)种植模式下种植密度(5210、10420、15630株/hm^(2))对麻籽和麻糠产量的影响,进而探讨单雌性工业大麻用于籽糠兼用的生产模式。结果表明,在同一雌雄比例下,种植密度越大,麻籽、麻糠、麻秆及大麻二酚(CBD)理论产量越高;在最大种植密度15630株/hm^(2)下,20%雄株率下的麻籽、麻糠、麻秆及CBD理论产量均高于10%和30%雄株率的产量,其麻籽产量为5738.02 kg/hm^(2),麻糠产量为6087.14 kg/hm^(2),麻秆产量为9396.35 kg/hm^(2),CBD理论产量127.58 kg/hm^(2)。在单雌性工业大麻云麻雌1号籽糠生产实践中,建议配置花期一致的20%左右雄株,保证授粉充足,实现麻籽和麻糠丰产。

宽幅条播对燕麦间作箭筈豌豆产量及种间关系的影响

为明确宽幅条播对燕麦‖箭筈豌豆间作系统生产力的影响,在常规条播和宽幅条播两种播种方式下设置燕麦单作、箭筈豌豆单作及燕麦‖箭筈豌豆间作三种种植方式,比较分析了不同处理间作物产量、种间关系及燕麦产量构成因素的差异。结果表明,与单作相比,间作燕麦的饲草及籽粒产量显著提高,增幅分别为24.25%~32.77%和27.44%~32.69%,而间作箭筈豌豆的饲草及籽粒产量降低为7.16%~8.08%和2.80%~5.48%。宽幅条播可提高燕麦及箭筈豌豆产量,宽幅条播间作饲草和籽粒产量的土地当量比较常规条播间作分别提高0.03和0.06。在间作中,燕麦的侵占力大于0,实际产量损失大于1,竞争比率大于1,且燕麦的相对拥挤系数大于箭筈豌豆,说明燕麦在间作系统中处于竞争优势。间作燕麦穗数、穗粒数和穗重较单作显著提高,平均增幅分别为24.23%、14.84%和17.43%,其中宽幅条播间作处理的穗粒数、公顷穗数和穗重均显著高于其他处理。由此可见,宽幅条播下通过与箭筈豌豆间作,可提高燕麦生产力和土地资源利用效率。

异基因造血干细胞移植输血不良反应风险预警模型的构建及验证

目的:探讨异基因造血干细胞移植(allo-HSCT)输血不良反应的危险因素,建立风险预警模型。方法:选取2018年1月—2023年2月我院收治的115例allo-HSCT病人作为研究对象,将其分为建模组(73例)和验证组(42例)。对病人一般资料进行调查,对病人血清中C反应蛋白(CRP)、白蛋白(ALB)、中性粒细胞、淋巴细胞进行检验,计算CRP/ALB和中性粒细胞与淋巴细胞比值(NLR),采用单因素分析和Logistic回归分析筛选allo-HSCT输血不良反应的危险因素,构建风险预警模型并转化为风险评分系统;采用受试者工作特征(ROC)曲线和Hosmer-Lemeshow(H-L)检验评价模型的区分度与校准度;对预警模型进行验证。结果:发生输血不良反应组CRP/ALB和NLR高于未发生输血不良反应组,差异有统计学意义(均P<0.05)。Logistic回归分析结果显示,输血次数≥3次、有原发性血液病史、有输血史、有过敏史、病人基础体温≥38℃、发血至输血时间≥30 min、输注红细胞滴速每分钟≥50滴、输注血小板滴速每分钟≥90滴以及CRP/ALB≥0.90和NLR≥1.37是allo-HSCT发生输血不良反应的危险因素(均P<0.05)。建模组ROC曲线下面积为0.841,H-L检验结果显示P=0.856,模型的灵敏度为0.909,特异度为0.775,Youden指数为0.684。验证组ROC曲线下面积为0.798,H-L检验结果显示P=0.813,灵敏度为0.818,特异度为0.775,Youden指数为0.593。结论:构建的allo-HSCT输血不良反应风险预警模型预测效能较好,可为allo-HSCT输血不良反应的护理提供针对性的指导。

血管化类器官的构建策略

背景:有效促进类器官内部血管发生是目前类器官培养中的焦点问题,作为一种新近发展的生物培养技术,血管化的类器官在研究活体组织的发育、疾病形成的机制、组织替代疗法以及药物筛选等方面,都有很大的研究和应用价值。目的:对近年来类器官血管化的方法或策略进行归纳总结,分析类器官血管化形成机制以及构建策略,以期为更加深入地研究类器官的发生机制和为临床转化提供可靠的思路。方法:检索PubMed及中国知网数据库收录的相关文献。英文检索词为“organoids,Vascularization,Vascular,Vascular development,vessel”,中文检索词为“血管发生,血管生成,类器官,干细胞,血管化,预血管化”,最终纳入77篇文献进行归纳总结。结果与结论:①类器官血管化形成机制涉及3个关键因素,即种子细胞、细胞因子与细胞外基质。种子细胞为血管化类器官提供了关键的细胞来源,细胞因子为类器官内部的血管发生起了重要的信号引导作用,细胞外基质为血管细胞提供了外在的生长环境,促进类器官血管化的发生。②血管化类器官的构建策略包括细胞自我重组、微血管碎片渗入、宿主体内移植以及微流控芯片等。体外诱导多能干细胞向血管内皮祖细胞分化能顺利与邻近组织整合并具有血管生成的潜力,故可利用多能干细胞的自我重组功能构建血管化类器官。微血管碎片保留了其细胞复杂性、天然结构和表型可塑性,更利于模拟天然微血管从而促进类器官的血管化。宿主体内移植是目前类器官实现完整血液灌流的最佳方法,而微流控芯片则为实现类器官体外血液供应提供了解决方案。③类器官的多种构建策略如多类干细胞共分化、信号分子的精准调控、微血管渗入和活体宿主移植等,一定程度上在类器官中引入血管成分,使得类器官在功能和成熟度上更接近相应组织。然而缺乏血流灌注仍然是一个难题,迄今为止,仅宿主体内移植才能在类器官中实现有效的血流灌注,因此类器官在血管化方面仍面临许多挑战。

辣木茎叶、籽、果荚营养成分及提取物抗氧化活性研究

以辣木茎叶、辣木籽、辣木果荚为原料,分析三种原料营养成分含量。以乙醇为提取溶剂,超声辅助法提取得到三种辣木粗提物,测定此三种辣木粗提物的总酚、类黄酮、可溶性糖的含量,以DPPH自由基、ABTS+自由基、羟自由基清除率以及亚铁还原能力等指标评价三种辣木提取物的体外抗氧化能力。结果表明:(1)辣木茎叶和辣木果荚的类黄酮、总酚、还原糖、碳水化合物、酸性洗涤纤维、中性洗涤纤维的含量明显高于辣木籽,辣木籽拥有较高的粗蛋白、粗脂肪含量;(2)辣木茎叶和辣木果荚粗提物的类黄酮和总酚含量明显高于辣木籽,辣木茎叶提取物的可溶性糖含量显著高于辣木籽和辣木果荚;(3)辣木茎叶粗提物表现出了较强的抗氧化活性。

微生物种衣剂的制备及其对大麦生长的影响

为促进大麦种子萌发及幼苗生长,明确微生物种衣剂在大麦生产中的作用,以黄原胶-明胶(XG-GEL)为成膜剂,解淀粉芽孢杆菌B1(Bacillus amyloliquefaciens B1)为活性成分设计制备微生物种衣剂XG-GEL-B1;通过研究微生物种衣剂对大麦发芽率及幼苗生长和生理指标的影响,以优化微生物种衣剂的使用比例。结果表明,当药种比为1∶75时,成膜剂包衣大麦种子后的发芽率较清水处理组提高12.67%;同时,风干24 h时的细菌活性较B1包衣提升13.92%。进一步研究发现,当成膜剂中的细菌浓度为104 CFU·mL^(-1)时,与清水处理组相比,制备得到的XG-GEL-B1可使发芽24 h时的大麦种子发芽率显著提升14.00个百分点。盆栽试验结果表明,XG-GEL-B1包衣处理使大麦幼苗的株高、根长和鲜重分别较清水处理组提高20.39%、13.51%和14.63%;可溶性总糖、可溶性蛋白、叶绿素a、叶绿素b和叶绿素a+b含量分别较清水处理组提高16.18%、1.97%、13.07%、44.47%和26.47%。此外,本研究制备的XG-GEL-B1种衣剂符合悬浮种衣剂和微生物菌剂的pH值、粘度、成膜时间、包衣均匀度和包衣脱落率指标要求,可用作大麦种子包衣。上述结果表明,微生物种衣剂XG-GEL-B1可提高种子发芽率和作物生理特性。本研究结果为大麦的科学、高效种植提供了理论基础。

木薯种茎精密播种过程中机械碰撞损伤有限元分析

【目的】明确木薯种茎在播种过程中的碰撞损伤机制,寻求较小损伤的播种方式。【方法】利用三维扫描技术逆向建立木薯种茎的三维模型,通过基于Hyper Mesh和LS-DYNA的种茎碰撞有限元分析,研究播种性能的主要影响因素(跌落高度、振动板安装倾斜角度及振动板振动频率)下种茎碰撞损伤过程,明确不同试验因素水平下种茎种芽−播种部件斜面接触等效应力、种芽−茎秆交接处等效应力、种芽−茎秆交接处应变及种芽−播种部件斜面接触应变变化规律;在单因素试验基础上,通过二次旋转正交组合试验研究,结合非线性多目标优化计算方法,对影响因素进行优化,以验证所建立回归模型的合理性。【结果】当跌落高度为167.83 mm、振动板安装倾斜角度为22.18°、振动频率为66.96 Hz时,种芽−播种部件斜面接触等效应力为32.64 MPa、种芽−茎秆交接处等效应力为17.08 MPa、种芽−茎秆交接处应变为0.094、种芽−播种部件斜面接触应变为1.049,模型预测结果与实际仿真结果相近,证明了回归模型的可靠性。【结论】本研究结果为揭示木薯种茎碰撞机制及播种装置优化等提供了理论依据。

煤矿复垦区博落回生物量及其分配特征对氮的响应

为探究博落回(Macleaya cordata)在不同施氮梯度下各生育期生物量及总生物量分配的动态变化规律,设置5个施氮水平:CK(0 kg·hm^(−2))、N_(1)(75 kg·hm^(−2))、N_(2)(150 kg·hm^(−2))、N_(3)(225 kg·hm^(−2))、N_(4)(300 kg·hm^(−2)),从2020年起开展为期两年的连续施氮试验,揭示博落回在贫瘠土壤中的生长适应特征。结果表明:1)N_(3)、N_(4)各时期博落回的冠生物量、根系生物量和总生物量均显著高于CK、N_(1)和N_(2)(P<0.05)。2)博落回的根冠比在不同年份有差异,第1年所有处理的根冠比在6月最低,分别为0.04、0.12、0.09、0.15和0.16,第2年在8月最低,分别为0.20、0.18、0.08、0.06和0.10;2021年6月和8月,CK的根冠比都高于其他处理。3)2020年10月N_(3)的茎叶比显著高于其他处理(P<0.05),其他处理的茎叶比各月份间差异不大;2021年各处理间茎叶比随恢复时间逐渐增加,在11月达到最大,分别为2.82、1.19、1.23、1.89和2.05。综上所述,建议对煤矿复垦区博落回施加225~300 kg·hm^(−2)的氮,以此来促进博落回在贫瘠土壤中的快速定植,本研究可以为缺氮土壤中博落回的生长适应性研究提供理论依据。

聚合物水泥防水涂料用苯丙乳液的研制及其各因素影响研究

通过预乳化半连续种子乳液聚合法自制了JS防水涂料专用苯丙乳液,并由此制备了聚合物水泥防水涂料。研究了乳化剂用量及其分配对苯丙乳液粒径及其吸水率的影响,同时通过尝试不同的方法降低乳液残留单体减少VOC排放。在自制苯丙乳液的基础上探究不同液粉比对聚合物水泥防水涂料拉伸性能的影响,通过添加一些不同的助剂来提升聚合物水泥防水涂料的综合性能。