低功耗经济型区域墒情实时监测系统

灌区墒情实时监测是现代灌区灌溉管理中的必要部分和基础工作。该文设计了一种利用微功耗处理器的墒情监测仪,仅用2节1号干电池供电,结合GPRS(general packet radio service)数据传输至网络服务器处理分析,从而实现了区域分布式的墒情监测。本系统设计装载4层土壤水分/温度传感器和1层水势传感器,根据灌溉管理需要布设在作物根区不同深度;利用微处理器和设计电路进行土壤墒情等参数的采集、存储、传输和控制,每小时采集1次数据、每日将数据发送至网络服务器。通过在灌区不同区域典型作物生育期内实际运行1 a结果表明,该系统采用干电池或锂离子电池供电,体积小而便于在田间布设,不影响农田耕作,方便经济;监测数据能够及时传送至网络服务器以进行结果处理和灌溉管理。该文同时也对系统特点进行了总结,并指出对该系统进一步改进和研发方向。     

基于离散元法的牛肉咀嚼破碎模型构建

为了实现准确、便捷、客观地牛肉嫩度分级检测。该文利用离散单元法构建牛肉块在口腔中咀嚼破碎模型,并进行仿真模拟。研究中选取50头牛的眼肉作为试验样品,30头牛用于构建模型,20头牛用于验证仿真模型的准确性。试验牛样品在75~80℃的恒温水浴中加热至样品内部温度达到70℃时取出,冷却至室温(20℃)。利用质构仪测得牛肉样品的剪切模量、法向刚度等参数,同时测得密度、碰撞恢复系数、摩擦系数等构建离散元模型需要的相关参数。利用测得的参数构建牛肉咀嚼破碎的离散元仿真模型。将咀嚼破碎的牛肉微颗粒作为离散单元模拟仿真中的最小单位,利用Hertz-Mindlin with bonding模型中的颗粒体积力将牛肉块替换为微颗粒黏结的颗粒簇。在咀嚼作用下,当任意2个微颗粒之间的法向应力和切向应力超过最大极限值时,颗粒簇就开始破碎,仿真牛肉的咀嚼破碎过程。研究中利用离散元模拟仿真4个咀嚼周期并记录力和牛肉颗粒的变化。采用感官评定法和剪切力测定分别验证仿真的准确性,准确率都达到90%。研究表明,利用离散元模拟仿真能有效地实现牛肉嫩度等级的预测评定,为牛肉嫩度品质检测提供新方法。     

水土保持生态自然修复适宜性研究综述

 根据我国的地域特点和水土保持生态建设的实施情况,进行适宜性研究至关重要。在介绍生态自然修复主要基础理论的基础上,分析了自然因素和人为因素对生态自然修复的影响作用。从区域定性、定量分析,地带性分区到GIS技术应用,以及适宜人为促进修复的作用和措施等方面探讨了水土保持生态自然修复适宜性研究的方法和内容。生态自然修复适宜性研究正向前迈进,在地理空间分析技术的引领下,生态自然修复适宜性评价在方法上会有新的发展。     

动物实验评价转基因食品食用安全的研究进展

转基因食品的食用安全评价是转基因产品开发中的重要环节,其中动物实验在转基因食品的安全性评价中占据了非常重要的位置,主要解决转基因食品在整体水平上对健康的影响。本研究将实验动物按照大型禽畜和小型啮齿类进行了初步分类,综述了用不同动物实验来评价第一代、第二代转基因食品安全的研究现状,并对今后的研究进展进行了展望。     

冬小麦不同生长期雷达后向散射特征分析与应用

雷达遥感具有全天候观测能力,其时效性保障是作物关键物候期观测的迫切需求。该文以全极化雷达遥感数据RADARSAT-2为数据源,选择冬小麦的孕穗期和乳熟期为研究对象,以理论模型MIMICS模拟为依据,分析了冬小麦不同物候期的散射特征和参数提取方法。结果表明：冬小麦不同生长期由于结构上的差异,散射特征差别很大;模型模拟可以为长势反演提供参考,为作物参数反演提供理论依据;孕穗期可以用极化比HH/VV提取作物长势信息,乳熟期极化比VV/VH更易提取长势信息,且精度更高,同时极化比VV/VH能在乳熟期估算冬小麦的产量。     

不同耕作方式对旱作区冬小麦生产和产量的影响

为了筛选出适宜旱作区推广的耕作技术,在旱作大田条件下,设置一次深翻、免耕覆盖、深松覆盖、传统耕作四种耕作方式,研究了不同耕作方式下花后土壤水分和养分状况、小麦旗叶叶绿素含量、小麦旗叶净光合速率和小麦籽粒灌浆速率及产量。结果表明,免耕覆盖、深松覆盖开花期和灌浆期0～40 cm土层土壤水分含量分别比传统耕作提高了4.13%、6.23%和5.50%、9.27%,0～40 cm土层土壤碱解氮、速效磷和速效钾含量均显著高于传统耕作,为小麦开花后生长发育提供了良好的环境,从而提高了小麦灌浆中后期旗叶叶绿素含量和净光合速率,促进花后干物质积累及干物质向籽粒转运,进而提高了籽粒灌浆速率,使得籽粒产量显著提高。     

波段比算法结合高光谱图像技术检测柑橘果锈

为克服柑橘表面不平整导致光线反射不均匀的影响,研究提出了波段比算法,使高光谱图像技术能够快速有效地检测柑橘果锈。首先根据Sheffield指数（SI）确定最佳波段（625 nm和717 nm）,经比值变换后得到第一幅比值图像;然后选取特征波长625 nm的邻近波段（621 nm）,与其比值变换后得到第二幅比值图像,提取轮廓,构建掩膜以消除第一幅比值图像的背景噪声,最后进行阈值分割和数字形态学运算,完成果锈区域的特征检测。试验结果表明,基于波段比算法的高光谱图像技术可有效检测柑橘果锈,检测率达到92%。研究表明波段比算法在高光谱图像技术快速无损地检测柑橘果锈中,能够有效地降低光照反射不均匀的影响,增强谱间差异,提高检测的精度。     

楔形减阻旋耕刀设计与试验

为解决旋耕整地作业阻力大、能耗高等问题,该文基于旋耕刀理论受力模型设计了一种楔形减阻旋耕刀。采用Inventor和HyperMesh软件分别创建国标旋耕刀及楔形减阻旋耕刀的三维模型和切削土壤模型,分析了楔形减阻旋耕刀的应力强度,对比了国标旋耕刀与楔形减阻旋耕刀的切削阻力。通过田间试验对比了国标旋耕刀与楔形减阻旋耕刀的扭矩、功耗与碎土率。结果表明:楔形减阻旋耕刀所受最大应力为29.49 MPa,远小于材料的屈服强度430 MPa,在保证刀身强度的前提下,与国标旋耕刀相比,楔形减阻旋耕刀质量减轻8.3%;平均切削阻力较国标旋耕刀下降10.65%。在相同工况条件下,楔形减阻旋耕刀的平均扭矩为648.916 N·m,较国标旋耕刀下降11.35%;楔形减阻旋耕刀的平均功耗为67.3kW,较国标旋耕刀下降9.29%,碎土率提高4%,耐磨性能与国标旋耕刀持平,能够达到在降低作业功耗的同时,提高耕作质量并保证刀具使用寿命。     

Soil nitrogen balance and nitrogen utilization of winter wheat affected by straw management and nitrogen application in the Yangtze river basin of China

Straw incorporation is a useful management practice in sustainable agricultural systems to improve soil fertility and to reduce air pollution from straw burning. A three-year field experiment was conducted under two rice straw managements and four nitrogen (N) application rates in Rugao, China during 2010–2013, to examine whether straw management practices integrated with fertilizer N applications affect crop yield, N balance and N use efficiency in the wheat season of rice-wheat cropping systems. The results showed that straw incorporation had positive effects on plant N uptake and grain yield. This may be attributed to the greater soil water content and lower amount of seasonal rainfall. However, straw incorporation resulted in lower soil inorganic N and more N surplus at the early growth stage. Grain yield had a significant relation with wheat N uptake from sowing to jointing and from jointing to anthesis with straw incorporation. Therefore, our results suggest that in adjusting the ratio of basal and topdressing N fertilizer, it is important for the supply of optimum N to the crop and to maintain grain production with straw incorporation.     

Effects of part and whole straw returning on soil carbon sequestration in C3–C4 rotation cropland

Long‐term no‐tillage management and crop residue amendments to soil were identified as an effective measure to increase soil organic carbon (SOC). The SOC content, SOC stock (SOCs), soil carbon sequestration rate (CSR), and carbon pool management index (CPMI) were measured. A stable isotopic approach was used to evaluate the contributions of wheat and maize residues to SOC at a long‐term experimental site. We hypothesized that under no‐tillage conditions, straw retention quantity would affect soil carbon sequestration differently in surface and deep soil, and the contribution of C3 and C4 crops to soil carbon sequestration would be different. This study involved four maize straw returning treatments, which included no maize straw returning (NT‐0), 0.5 m (from the soil surface) maize straw returning (NT‐0.5), 1 m maize straw returning (NT‐1), and whole maize straw returning (NT‐W). The results showed that in the 0–20 cm soil layer, the SOC content, SOCs, CSR and CPMI of the NT‐W were highest after 14 years of no‐tillage management, and there were obvious differences among the four treatments. However, the SOC, SOCs, and CSR of the NT‐0.5 and NT‐W were the highest and lowest in 20–100 cm, respectively. The value of δ¹³C showed an obviously vertical variability that ranged from –22.01‰ (NT‐1) in the 0–20 cm layer to –18.27‰ (NT‐0.5) in the 60–80 cm layer, with enriched δ¹³C in the 60–80 cm (NT‐0.5 and NT‐1) and 80–100 cm (NT‐0 and NT‐W) layers. The contributions of the wheat and maize‐derived SOC of the NT‐0.5, NT‐1 and NT‐W increased by 11.4, 29.5 and 56.3% and by 10.7, 15.1 and 40.1%, relative to those in the NT‐0 treatment in the 0–20 cm soil layer, respectively. In conclusion, there was no apparent difference in total SOC sequestration between the NT‐0.5, NT‐1, and NT‐W treatments in the 0–100 cm soil layer. The contribution of wheat‐derived SOC was higher than that of maize‐derived SOC.