吕梁山地区植被物候变化及对气候的响应

吕梁山地区地形垂直差异明显,植被对气候变化反应敏感,研究吕梁山地区植被物候变化,探索植被物候变化与气候的响应关系,旨在为高海拔山区植被物候研究和生态治理提供借鉴。基于2000—2015年MODIS NDVI时间序列数据,通过动态阈值法提取吕梁山地区的植被物候,对气温、降水进行空间插值,并对植被2个关键物候期与气候因素进行偏相关分析。结果表明：（1）植被生长季开始日期(the start of the growing season,SOS)提前的区域约占85.7%,其中16.2%显著提前;植被生长季结束日期(the end of the growing season,EOS)推迟的区域约占90.6%,其中33.3%显著推迟。（2）区内74.8%、87.7%植被SOS分别与气温、降水呈负相关,气温升高或降水增加,植被SOS提前。植被SOS在高海拔山区受4月气温影响显著,而低海拔地区受4月降水影响显著。（3）区内72.6%、65.1%植被EOS分别与气温、降水呈正相关,气温升高或降水增加,植被EOS推迟。植被EOS在北部和西部地区受11月气温影响显著,而高海拔地区受9月降水影响显著。2000—2015年吕梁山地区植被物候发生显著变化,各地区对气温、降水的响应不同,研究结果可为区域物候、气候变化研究和陆地生态治理提供科学依据。     

Genetic analysis and QTL mapping of growth period traits and plant height traits in soybean recombinant inbred lines from Dongnong 47 × PI 317334-B

High and stable yield is the main goal of soybean genetic improvement. In this study, association analysis was used to detect the quantitative trait loci (QTL) for the plant height, and soybean growth period using 182 SSR markers in the RIL population of 136 F_4:8 lines, which developed from a cross between photoperiod-insensitive cultivar ‘Dongnong 47’ and photoperiod-sensitive variety PI317334–B. The results showed that 33 QTLs related to soybean growth period and plant height traits were detected by compound interval mapping, and were located on 12 linkage groups including N, C1, C2, J, D1a, B2, E, G, A2, O, L, I, with the contribution rate of 7.85–33.84%. These QTL loci and linkage markers related to soybean photoperiod sensitivity, would be helpful to identify key genes that control soybean photoperiod sensitivity, and provide an important basis for the breeding of new photoperiod-insensitive soybean varieties based on molecular design breeding.     

基于PID直流电机驱动的移动式采摘机器人设计

为了提高移动式采摘机器人的控制效率和移动精度,将直流电机驱动电路引入到采摘机器人移动控制系统的设计中,并采用PID算法对移动速度进行调节,从而避免采摘机器人在移动过程中产生较大的速度波动,提高其作业时的平稳性。为了验证PID算法在采摘机器人移动控制系统上使用的可行性,模拟葡萄采摘机器人的作业环境,对采摘机器人移动过程的速度控制进行了仿真模拟,结果表明:达到速度预定目标时,PID算法比常规算法具有更快的响应速度,调节过程也更加平稳。     

Root distribution patterns of peanut genotypes with different drought resistance levels under early‐season drought stress

Drought severely limits crop yield of peanut. Yet cultivars with enhanced root development enable the exploration of a greater volume of soil for water and nutrients, helping the plant survive. Root distribution patterns of three genotypes (ICGV 98305, ICGV 98324 and Tifton‐8) were compared when grown in well‐watered rhizoboxes and when grown in rhizoboxes where an early‐season drought was imposed using rain‐exclusion shelters. The treatments were arranged in a completely randomized design with three replications, and the experiment was conducted during two seasons at the Field Crop Research Station of Khon Kaen University, in Khon Kaen, Thailand. The root system of ICGV 98305, when grown under drought, had a significantly higher root length in the 30–110 cm deep soil layers and less roots in the 0–30 cm soil layers when under drought than when grown under well‐watered conditions. Roots of Tifton‐8 had the largest reductions in root length in upper soil layer and reduced in most soil layers. Tifton‐8 grown under drought was smaller than under well‐watered control for all root traits, showing negative response to drought. The peanut genotypes with high root traits in deeper soil layer under early‐season drought might contribute to drought avoidance mechanism.     

响应面法优化荷叶豆乳饮料配方的研究

为研制出一款营养丰富、口感独特的荷叶豆乳饮料，以感官评定值为指标，在单因素试验的基础上，通过响应面法优化饮料配方。结果表明，荷叶豆乳的最优配方为：苹果汁添加量5%（V/V），荷叶浸提物添加量16%（V/V），白砂糖添加量6%（m/V），豆乳添加量6%（V/V），此时响应面预测的感官评分达86.4分。按照该配方制作的荷叶豆乳饮料色泽均匀，荷叶香味怡人，甜酸比适中，无豆腥味，无明显分层。     

大球盖菇1号的分离纯化及其液体培养基优化

为缩短大球盖菇(Stropharia rugoso-annulata)1号液体种生长周期,提高菌丝体产量,为大球盖菇液体种工业化生产提供参考和依据。试验以大球盖菇1号菌丝球干质量(Y)为指标,通过Plackett-Burman设计试验,得出玉米粉、MgSO4和VB1对大球盖菇的生物量有显著影响,通过最陡爬坡试验和Box-Behnken响应面分析法对大球盖菇液体培养基组成进行优化,得到大球盖菇1号最适液体培养基为蔗糖20 g·L^-1、蛋白胨6 g·L^-1、酵母膏2 g·L^-1、KH2PO43 g·L^-1、MgSO44.56 g·L^-1、玉米粉4.25 g·L^-1、VB12.43 g·L^-1,通过对模型进行验证试验,大球盖菇1号菌丝生物量为1.2154 g·150-1mL-1,较基础培养基相比生物量提高36.2%,且数学模型的预测值与试验观察值相符,相对误差约为1.9%,证明响应面法优化大球盖菇1号液体培养基可行。     

甘蓝型油菜MYB28转录因子对根肿菌和水杨酸的响应特征

MYB转录因子参与植物的生长发育和逆境胁迫过程，在植物防御相关信号反应中起着重要的调控作用。 为了明确MYB28在油菜与根肿菌互作中的作用，对感病甘蓝型油菜中双11中MYB28家族基因在根肿菌接种以及 水杨酸处理后的表达模式进行了分析。不同组织表达模式分析显示，相比于根和叶，BnaMYB28 在茎和种子中的表 达水平更高；BnaMYB28 基因在根肿菌和外源水杨酸处理下均有不同程度的表达响应，外源水杨酸处理下Bna⁃ MYB28-1 和BnaMYB28-3 上调表达，BnaMYB28-2 表达则受抑制。根肿菌侵染后，BnaMYB28-1 在整个侵染期表达 量均显著上调，但在加入水杨酸后表达被显著抑制；BnaMYB28-3 表达量在接菌后7 d和28 d显著上调，在关键皮层 侵染期（接菌后14 d）表达量与对照组相比没有变化，但在施加水杨酸处理后表达量显著上调。综上，外源水杨酸能 正向调控BnaMYB28-1 和BnaMYB28-3 表达，BnaMYB28-3 可能通过水杨酸信号路径参与油菜与根肿菌的互作。