基于灰度关联分析的冬小麦叶片含水量高光谱估测

尝试应用灰色关联分析方法(GRA)分析典型的水分植被指数(WVI)和水分含量(LWC)间的关联度,然后选择对冬小麦叶片水含量敏感的指数,比较SRM-PLS(逐步回归-偏最小二乘)方法和PLS方法估算LWC的精度。首先,对冬小麦WVI与LWC进行灰色关联分析,筛选出对冬小麦LWC敏感的WVI;其次,利用筛选出的敏感WVI,分别用PLS-SRM方法和PLS两种方式估算冬小麦LWC;然后对两种方式进行比较,选择最高决定系数(R2)和最小均方根误差(RMSE)的LWC估算模型来估算冬小麦LWC。结果表明：在整个生育期用PLS和PLS-SRM方法估算LWC, R2和RMSE分别为0.605和0.575,4.75%和7.35%。研究表明：先使用GRA对WVI和LWC进行关联度分析,再用PLS或PLS-SRM方法可以提高冬小麦的LWC估算精度。     

Effect of manganese stress on the mineral content of the leaves of wheat seedlings by use of X-ray fluorescence excited by synchrotron radiation

The present study describes the potential of the synchrotron radiation based X-ray fluorescence spectroscopy technique for the rapid, sensitive, user friendly and simultaneous monitoring of the changes in the elemental profile of the wheat seedlings stressed by excess manganese (Mn). For this, X-ray fluorescence spectra of the leaves of the control and Mn treated wheat seedlings have been recorded by synchrotron radiation X-ray of energy 15?keV. The analyses of the recorded spectra show the presence of elements chlorine, potassium, calcium, manganese, iron, copper, nickel, and zinc. A calibration-free approach, PyMca has been used for the quantitative estimation of the detected elements in the leaves of the control and Mn treated wheat seedlings. The excess supply of Mn to wheat seedlings results in the accumulation of manganese in the leaves of the seedlings. The accumulation of manganese in wheat seedlings negatively affects the uptake and translocation of calcium, potassium, and iron while it has stimulating effect on the uptake of copper and zinc.     

高压对小麦种子发芽和幼苗生长的影响初探

 以豫麦18号小麦种子为材料，初步探索了不同压力和时间对不同处理的小麦种子发芽的影响，并对95 MPa压力、不同时间处理下发芽种子幼苗的生长情况进行测定。结果表明：在50~95 MPa压力下，直接真空包装的小麦种子均丧失发芽能力；在不同压力和时间下处理直接加水包装的小麦种子，种子发芽受到显著抑制；将水浸6 h再加水包装的小麦种子在95 MPa压力下处理4 h，能抑制小麦种子的发芽势和发芽率，但抑制强度较弱，也表明水可以有效降低高压对小麦种子的损伤。在95 MPa压力下、不同时间处理的直接加水包装的小麦种子幼苗的平均苗高和幼苗鲜重均大于对照。     

Surface-enhanced fluorescence and application study based on Ag-wheat leaves

Wheat leaves with natural microstructures as substrates were covered by the silver nanoislands by magnetron to prepare a low-cost, environment-friendly and mass production surface-enhanced fluorescence (SEF) substrate (Ag-WL substrate). The best SEF substrate was selected by repeatly certifying the fluorescence intensity of 10^-5 M Rhodamine B (RB) and 10^-5 M Rhodamine 6G (R6G) aqueous solutions. The abundant semi-spherical protrusions and flake-like structures on the surface of the Ag-WL substrate produce high-density hot spots, which provides a new and simple idea for the preparation of biomimetic materials. The results of 3D finite-different time-domain (FDTD) simulation show that the nanoisland gap of semi-spherical protrusions and flake-like structures has produced rich hotspots. By adjusting the time of magnetron sputtering, the enhancement factor (EF) was as high as 839 times, relative standard deviation (RSD) reached as low as 10.7%, and the substrate was very stable and repeatable, which shows that Ag-WL substrate is trustworthy. Moreover, semi-spherical protrusions provide stronger surface-enhanced Raman scattering (SERS) effects compared to flake-like structure. What is more surprising is that the detection limit of the substrate for toxic substance crystal violet (CV) is as low as 10^-10 M.     

液相色谱-串联质谱法测定小麦中T-2、ZEN及DON 3种镰刀菌毒素

采用液相色谱-串联质谱建立了小麦中T-2、玉米赤霉烯酮（ZEN）和脱氧镰刀菌烯醇（DON）的测定方法。样品经80% 乙腈-水提取,氨基柱（500 mg,6 mL）杂质吸附模式净化,以5 mmol/L乙酸铵溶液和甲醇为流动相,ZORBAX Extend-C18柱（150 mm×2.1 mm,1.8 μm）进行色谱分离;在电喷雾正离子化模式下,多反应监测方式测定。结果表明：T-2、ZEN和DON分别在0.5~500、5~500、10~2 000 μg/L质量浓度范围内呈良好线性,相关系数分别为0.998 9、0.999 7和0.999 1。通过对空白小麦样品进行3个水平的加标回收实验,T-2、ZEN和DON的回收率分别为86%~94%、80%~101%和81%~105%,相对标准偏差（RSD）分别为2.6%~5.5%、3.6%~8.9%和2.2%~8.1%,方法检出限分别为0.5、8.0、10.0 μg/kg。该方法准确、灵敏、成本低,适用于小麦中T-2、ZEN和DON的同时分析。     

小麦茎秆抗倒性的数学模型研究

利用多元统计分析和微分方程建立了小麦发育后期茎秆抗倒伏的数学模型.首先,对实验所得的数据进行了预处理,建立了倒伏指数的相关模型,并在给定穗重的条件下,模拟出理想的株型结构;然后,对小麦茎秆进行受力分析,建立小麦倒伏临界力的微分方程,算出腊熟期各品种小麦的抗倒伏风速;最后,对所建模型以及相关问题和结果进行总结分析,并结合实际提出小麦育种的一些建议.     

Determination of Benzoyl Peroxide Levels in Wheat Flour and Pharmaceutical Preparations by Differential Pulse Voltammetry in Nonaqueous Media

Abstract

Benzoyl peroxide (BP) was determined by differential pulse voltammetry (DPV) using a glassy carbon electrode in a dichloromethane‐acetic acid (1.5×10^?2 mol l^?1) solution and tetrabutyl ammonium perchlorate (0.01 mol l^?1) as the supporting electrolyte. The peak potential was ?0.045 V (vs. Ag/AgCl). There was a good linear relationship between the peak current and the benzoyl peroxide concentration in the range of 2.5×10^?6–1.0×10^?4 mol l^?1. The detection limit of the method was 2.5×10^?7 mol l^?1. The recovery was 94.8–106.0%. The samples of wheat flour and the pharmaceutical preparations for the treatment of acne vulgaris were directly detected with desired results. The reaction mechanism of benzoyl peroxide on the electrode was also discussed, which was two electrons and two protons irreversible reaction.     

冬小麦生长期光谱变化特征与叶绿素含量监测研究

在分析冬小麦生长期冠层反射光谱和叶绿素含量变化特征的基础上,对二者之间的相关性进行了研究。表明从小麦拔节期开始,冠层反射光谱在可见光区(400～750 nm)的反射率先降低而后升高,以孕穗期反射率最低;在近红外区(750～1 000 nm)冠层反射率由拔节期至孕穗期反射率降低,然后开始上升。扬花期上升至最高点后又开始下降,直至乳熟期降至最低。冬小麦冠层反射率与叶绿素含量相关分析结果表明,冬小麦拔节期和孕穗期二者呈正相关,扬花期二者呈负相关;整个生长期中,孕穗期可见光区552 nm处反射率与叶绿素含量相关系数最大达0.89。依据冬小麦生长期冠层反射光谱红边拐点位置,分别建立了拔节期叶绿素含量线性检测模型(R2=0.92)和孕穗期二项式模型(R2=0.91),用于冬小麦叶绿素含量的无损检测是可行的。     

新疆小麦粉的特性及面条专用粉的应用研究

通过对美国硬红冬麦粉与新疆小麦粉的比较研究,找到了新疆小麦粉的主要特征及弱点,并针对性地制订了改良方案,为研制新疆的面条专用粉提供了新方法。     

近红外光谱主成分-所有可能回归法定量分析烤烟、小麦样品中的组分含量

利用主成分-所有可能回归法,建立了烤烟、小麦样品不同组份的近红外光谱定量分析模型。结果表明,烤烟样品的总糖、还原糖以及小麦样品的蛋白质含量的预测模型均有好的定量分析结果,且其预测结果与PLS法预测结果相当。