天然植物生长调节剂芸苔素的生物活性及应用浅析

天然芸苔素属于甾体类植物内源生物活性物质,其骨架为甾醇,其中芸苔素内酯生物活性最强,被称为第六类植物激素,是高效、广谱、无毒的植物生长调节剂(PGR)。为更好地将芸苔素推广应用于农业生产,本文概括了芸苔素内酯的生物活性及在粮食、果蔬等作物上的应用。探讨了芸苔素内酯在提高种子活力,促进作物生长,大幅度促进产量提升以及品质改善,提升作物抗逆性,缓解农药对作物影响的研究概况及取得的进展,指出了芸苔素内酯的应用是作物增产增收的关键途径,同时,能够减少化肥、农药的施用量,减少作物种植成本与减轻环境污染,将带来显著的经济效益。     

基于应用型人才培养教学中思政教育的融入策略实施

思政教育是高职院校教学的重点内容,对学生的思想、行为会产生直接影响,同时与工匠精神存在紧密关系,需要对其予以融合。为了提升高职机械类专业教学的质量,引入思政教育极为重要,其在推动学生全面发展方面也发挥出了重要作用。基于此,主要以机械基础类专业教学为例,分析了高职机械类专业课程与思政教育的联系为切入点。同时,通过调整教学思路与路径,结合机械发展史展开思政教育,引入大国重器实际研发案例,落实全面评价这些思政教育的融入策略。     

基于逆运动学降维求解与YOLO v4的果实采摘系统研究

为提高采摘设备的执行效率，采用六自由度机械臂、树莓派、Android手机端和服务器设计了一种智能果实采摘系统，该系统可自动识别不同种类的水果，并实现自动采摘，可通过手机端远程控制采摘设备的起始和停止，并远程查看实时采摘视频。提出通过降低自由度和使用二维坐标系来实现三维坐标系中机械臂逆运动学的求解过程，从而避免了大量的矩阵运算，使机械臂逆运动学求解过程更加简捷。利用Matlab中的Robotic Toolbox进行机械臂三维建模仿真，验证了降维求解的可行性。在果实采摘流程中，为了使机械臂运动轨迹更加稳定与协调，采用五项式插值法对机械臂进行运动轨迹规划控制。基于Darknet深度学习框架的YOLO v4目标检测识别算法进行果实目标检测和像素定位，在Ubuntu 19.10操作系统中使用2000幅图像作为训练集，分别对不同种类的果实进行识别模型训练，在GPU环境下进行测试，结果表明，每种果实识别的准确率均在94%以上，单次果实采摘的时间约为17s。经过实际测试，该系统具有良好的稳定性、实时性以及对果实采摘的准确性。     

低温冷榨核桃油工艺及主要压榨参数优化

为得到高品质的核桃油，利用新疆“新新2”品种核桃进行核桃破壳、壳仁分离和低温螺旋冷榨工艺中试试验。对比研究了物料粒度对出油率的影响以及低温螺旋冷榨机压榨的主要工艺参数（出饼口直径和榨轴转速）对核桃油饼粕残油率和压榨效率的影响，得出核桃油冷榨关键技术的最佳工艺条件:核桃仁粒径10 mm、压榨温度35 ℃、入榨水分8%、榨轴转速60 r/min及出饼口直径6 mm，在此工艺条件下核桃油出油率可达40%。将冷榨装置与核桃破壳及壳仁分离生产线进行集成配套，形成低温冷榨核桃油生产线，为冷榨核桃油工业化生产提供坚实基础。      

基于高光谱和参数优化支持向量机的水稻施氮水平分类研究

为探索水稻氮素营养的快速、无损诊断方法以及构建基于高光谱技术的水稻氮素营养状况分类识别模型。本研究以 4种不同施氮水平的“中嘉早 17”水稻分蘖期顶部第三完全展开叶叶片(简称顶三叶)为研究对象，测定各叶片的可见光到近红外波段(350～ 2500 nm)内的光谱数据，对所获取的光谱数据进行平滑处理和归一化处理，以消除噪声及量纲的影响，并采用主成分分析(PCA)的方法进行数据降维至 22维，同时分别选用基于网格搜索算法、粒子群算法和遗传算法优化参数的支持向量机进行水稻氮素营养状况分类识别模型的建立。研究结果表明:1)不同施氮水平下的水稻叶片光谱反射率曲线走势大致相同，但不同施氮水平下 780～ 1 300、1 400～ 1 850及 1 900～ 2500 nm波段光谱反射率存在一定的差别；2)优化参数后的 SVM模型与默认参数下的 SVM模型相比，其训练集与测试集分类识别效果都要优于默认参数下的 SVM模型。其中，以遗传算法优化参数的 SVM模型识别分类效果最佳，训练集和测试集识别准确率分别为 99.375%、98.750%，测试集的4种施氮水平(施氮量从低到高)识别准确率分别为 100%、95%、100%和 100%。结果表明利用高光谱技术能够很好地进行水稻氮素营养状况的定性诊断研究。为快速水稻氮素营养诊断提供了一种新途径，为精确施氮提供了技术支撑和理论依据。     

2015―2020年国家西北内陆棉区棉花品种区域试验参试品种（系）枯黄萎病抗性评述

对2015－2020年参加西北内陆棉区区域试验的192个棉花品种（系）枯萎病、黄萎病的抗性分析，为棉花抗病育种及品种推广提供依据。结果表明，参试棉花品种（系）未出现对枯萎病和黄萎病免疫的品种；参试棉花品种（系）对枯萎病的抗性水平较高，除2018年高抗和抗病品种（系）占比为 88.2%外，其他年份均在92%以上；参试的品种（系）的黄萎病抗性水平除2017年较高外，其余各年均较低，以耐病为主，6年耐病品种（系）平均占比为56.2%；参试品种的总体抗枯萎病指数（r_F）远大于总体抗黄萎病指数（r_V）和总体兼抗指数（r_FV）,各年份均表现为r_F＞r_V＞r_FV，且三者均呈振荡上升趋势；早中熟常规棉的抗枯萎病、黄萎病性及兼抗性表现均优于早熟常规棉_。可见，黄萎病抗性的提高是西北内陆棉区选育兼抗棉花品种的关键。     

Naringin-loaded Poly(ε-caprolactone)/Gelatin Electrospun Mat as a Potential Wound Dressing: In vitro and In vivo Evaluation

In the present study, naringin, a flavonoid isolated from the grape and citrus fruit species, was incorporated with poly(ε-caprolactone)/gelatin composite mats in order to develop a potential wound dressing. The composite mats were prepared by electrospinning of poly(ε-caprolactone)/gelatin (1:1 (w/w)) solution incorporated with 1.50 %, 3 % and 6 % (w/w) of naringin. The electrospun mats were evaluated regarding their morphology, contact angle, water-uptake capacity, water vapor transmission rate, tensile properties, drug release, cellular response and in vivo wound healing activity. The study showed that after 2 weeks, the full-thickness excisional wounds of Wistar rats treated with the naringin-loaded dressings achieved a wound closure of higher than 94 % and the dressing containing 6 % (w/w) naringin had almost 100 % wound closure. The sterile gauze, as the control group, showed nearly 86 % of wound closure after this period of time. Our results provided evidence that supports the possible applicability of naringin-loaded wound dressing for successful wound treatment.     

Influence of dietary lipid on growth performance and some lipogenesis‐related gene expression of tongue sole (Cynoglossus semilaevis) larvae

A 30‐day feeding trial was conducted to investigate the effects of dietary lipid levels on growth performance, activities of digestive enzymes, fatty acid composition and some lipogenesis‐related gene expression of half‐smooth tongue sole (Cynoglossus semilaevis) larvae. Five isoproteic diets were formulated with graded lipid levels (6.68%, 9.84%, 13.47%, 17.89% and 21.88% dry weight) using fish oil as the main lipid source. Each diet was randomly allocated to triplicate groups of 150 larval tongue sole (35 DAH, 54 ± 1 mg). Fish were fed five times daily to apparent satiation during the feeding experiment. Results showed that, the survival rate (SR) of larvae increased significantly firstly, and thereafter decreased significantly. The specific growth rates (SGR) of larvae fed the diet with 13.47% lipid were significantly higher than other treatments. Larvae fed 9.84% or 13.47% dietary lipid showed higher trypsin, lipase, leucine aminopeptidase and alkaline phosphatase (AP) activities than other treatments, whereas amylase activity nearly showed reverse trend with them. The fatty acid composition of the tongue sole larvae was well correlated with dietary fatty acid profile. Expression of acetyl‐CoA carboxylase alpha (ACC1) was found to be slightly negatively correlated with dietary lipid level, and high dietary lipid level depressed the expressions of acetyl‐CoA carboxylase beta (ACC2) and fatty acid synthase (FAS) mRNA expression significantly, implying that larvae may cope with high dietary lipid mainly through down‐regulating lipogenesis‐related gene expression of FAS and ACC2. Besides, on the basis of SGR, the optimal dietary lipid level for larval tongue sole was estimated to be 13.56% using second‐order polynomial curve.     

Effect of dietary chitosan oligosaccharide complex with Ce (IV) on growth,immunity and disease resistance against Vibrio splendidus of sea cucumber,Apostichopus japonicas

An 8‐week feeding trial was conducted to investigate the effects of dietary chitosan oligosaccharide complex with cerium (Ce IV) (COS‐Ce) on growth performance, nonspecific immunity and disease resistance of sea cucumber, Apostichopus japonicas. Five isonitrogenous (18.6%) and isolipidic (1.1%) practical diets were formulated with graded level of COS‐Ce (0, 150, 300, 600 and 1200 mg kg^?1 dry feed), which were named as COS‐Ce/0, COS‐Ce/150, COS‐Ce/300, COS‐Ce/600, COS‐Ce/1200 respectively. Each diet was allocated to four replicates of sea cucumbers (Initial weight: 6.72 ± 0.02 g). Sea cucumbers were fed to apparent satiation once daily (19:00 hours) for 56 days. During the experiment, water temperature was kept at 16 ± 0.5°C, pH 7.8–8.2, dissolved oxygen beyond 5 mg L^?1, ammonia nitrogen below 0.5 mg L^?1 and salinity from 30‰ to 31‰. Results showed that the specific growth rate of sea cucumbers was significantly higher in COS‐Ce/600 than that in other four treatments. Activities of phagocytosis, respiratory burst, acid phosphatase and alkaline phosphatase in COS‐Ce/600 were significantly higher than that in COS‐Ce/0 (P < 0.05) respectively. On the contrary, cumulative mortality was the lowest in COS‐Ce/600 following 14 days exposure to Vibrio splendidus (P < 0.05). In conclusion, these results confirmed that dietary COS‐Ce had beneficial effects on growth performance, nonspecific immunity and disease resistance of sea cucumber.     

基于土壤微波辐射布儒斯特角反演土壤含水率

在利用被动微波遥感技术进行裸露地表土壤含水率(Soil Moisture Content,SMC)的反演中,土壤粗糙度是制约反演精度的最关键因素。该研究利用改进的积分方程模型(Advanced Integral Equation Model,AIEM)进行地表多角度微波发射率的模拟,探索地表微波辐射多角度信息用于提高地表SMC反演精度的可行性。基于不同SMC和不同粗糙度地表多角度V极化发射率数据的变化趋势提取土壤介质布儒斯特角,结果表明,土壤布儒斯特角对SMC具有较高的敏感性,C波段(6.6 GHz)不同含水率土壤的布儒斯特角分布在60°～80°范围内。基于AIEM模拟数据的分析发现,土壤布儒斯特角正切值与SMC具有较好的线性关系,线性拟合决定系数为0.94,均方根误差为0.027cm~3/cm~3,并得到了基于布儒斯特角的裸露地表SMC反演算法。基于模拟数据的算法验证结果表明,算法的SMC预测值与理论值的决定系数为0.95,均方根误差为0.024 cm~3/cm~3。算法在不同土壤粗糙度自相关函数下均表现出稳健的特性,SMC预测精度最大均方根误差为0.027 cm~3/cm~3,最小为0.023cm~3/cm~3。基于布儒斯特角的SMC反演算法利用的是多角度土壤发射率的相对变化而非其绝对数值,该研究为SMC的多角度被动微波遥感提供了一种不同的研究思路。