红鳞蒲桃苗木生长和生理生化特征对不同盐分和干旱胁迫的响应

以1年生红鳞蒲桃盆栽苗木为研究对象,设置不同盐胁迫浓度及干旱程度,研究盐旱交互作用对红鳞蒲桃苗木的高、地径生长和各项生理指标的影响。结果表明：干旱和盐胁迫都抑制了红鳞蒲桃的生长,盐胁迫的影响要大于干旱胁迫,高生长受到的限制大于地径生长,2 g/kg盐分浓度在水分充足条件下促进了地径生长。相对电导率和丙二醛含量均随着干旱和盐胁迫的增强而增大。不同盐分浓度下,干旱胁迫对相对电导率的影响趋势一致,不同盐分胁迫的影响差异不显著。高盐浓度下丙二醛含量的增加显著大于低盐浓度,表明盐胁迫对红鳞蒲桃的伤害更大;红鳞蒲桃的渗透调节物质在干旱和盐交互胁迫下有一定程度的提高。水分充足时,盐分浓度的变化没有对红鳞蒲桃的游离脯氨酸含量产生影响。随着胁迫的增加,渗透调节能力显著提高。低盐浓度下,抗氧化酶活性在水分充足时没有受到显著影响,高盐浓度下,随着干旱胁迫的加剧则显著提高。     

具有风险相依结构的平衡信度估计

在保险实务中，风险之间具有一定的相依结构. 通过考虑保费的目标估计来对风险保费进行了研究，采用正交投影的方法求解了最优问题，在平衡损失函数下得到了风险等相关的齐次和非齐次信度估计. 结果表明得到的信度估计具有经典信度模型的加权形式.     

Atmospheric humidity and genotype are key determinants of the diurnal stomatal conductance pattern

Great understanding of the genotypic difference in diurnal stomatal conductance (g_s) pattern and the key determinants of the pattern is important for saving water by adopting cultivars appropriately. Fifteen wheat genotypes were studied under different soil conditions and various meteorological conditions with pot cultivation in rain shelter for two years. Genotype and air humidity were found to be key determinants of diurnal g_s pattern. All genotypes under low relative humidity (LRH) and most genotypes under high relative humidity (HRH) displayed a gradual decline pattern from morning through the afternoon. Under moderate relative humidity (MRH), all genotypes present a single-peak curve pattern, but they differed in peak time, which may lead to unreliable g_s comparison between genotypes and get ostensible contrasting materials. The stomatal conductance was significantly different among genotypes under LRH and the increased g_s magnitude is also significantly different when it was compared between LRH and HRH. The present results provide new thinking for selecting and adopting appropriate cultivars with specific stomata traits for the area with various meteorological conditions.     

云南芥菜型油菜资源品质及苗期耐旱性评价

为研究芥菜型油菜的耐旱性，对150份云南芥菜型油菜地方品种的品质及苗期不同干旱程度下植株地上 及地下部进行研究。结果表明，参试芥菜型油菜耐旱性总体表现较好，品质变异丰富，其中油酸、芥酸变异系数大 于1，依据品质性状参试品种大致聚为三类；中度及重度干旱均能显著影响油菜地上部及根系的生长，其中对根系 影响更大；各品质性状与耐旱性相关分析表明，中度干旱条件下，耐旱性与含油量及芥酸、花生烯酸2种极长链脂肪 酸呈显著正相关，与5种长链脂肪酸硬脂酸、棕榈酸、油酸、亚油酸、亚麻酸为显著负相关，而重度干旱条件下均不相 关，同一品种在不同程度干旱下其耐旱性有差别；含油量与极长链脂肪酸呈显著正相关，与长链脂肪酸及蛋白含量 呈显著负相关，极长链脂肪酸与长链脂肪酸间呈极显著负相关。共筛出8个综合耐旱性强的材料。     

How does water and salt stress affect the germination and initial growth of Brazilian soya bean cultivars?

The effects of water and salt stress on rate of germination and seedling growth were investigated under laboratory conditions in 46 soya bean genotypes from Central-West region of Brazil to verify how these stresses may limit crop establishment during the initial growth stage and also to identify the most tolerant genotypes to drought and salinity. Mild water and salt stresses were imposed by seed exposure to –0.20 MPa iso-osmotic solutions with polyethylene glycol—PEG 6000 (119.57 g/L) or NaCl (2.357 g/L) for 12 days at 25°C. The germination percentage, seedling length and seedling dry matter were measured, and then, salt or drought tolerance indexes were calculated. The “NS 5909 RG,” “NS 7000 IPRO,” “NS 7338IPRO,” “FPS Solimões RR,” “NS 5151 IPRO,” “SYN 13610 IPRO,” “LG 60177 IPRO,” “NS 6909 IPRO” and “BMX Desafio RR” were identified as the most drought-tolerant genotypes, whereas under salinity conditions, the genotypes “5D 615 RR,” “BMX Desafio RR,” “5D 6215 IPRO” and “BMX Ponta IPRO” were identified as tolerant. The “BMX Desafio RR” is the genotype most adapted to both stress conditions and, therefore, should be used under conditions of water shortage and excess salt in the soil at sowing time.     

日本百脉根LjbHLH34基因克隆及耐旱功能鉴定

干旱是影响植物生长发育的重要环境因素。本研究分析了日本百脉根抗旱相关基因LjbHLH34的耐旱功能，初步解析其响应干旱胁迫的分子机制，以期为百脉根抗旱分子育种提供理论基础。本研究克隆得到的LjbHLH34基因大小为711 bp、编码236个氨基酸，属bHLH转录因子家族成员。系统进化树分析显示，LjbHLH34蛋白与拟南芥bHLHⅣ亚家族中AtbHLH34和AtbHLH104亲缘关系较近。实时荧光定量分析表明LjbHLH34在日本百脉根的根中表达量最高，叶中次之，茎中最少，暗示其在日本百脉根多个组织中发挥作用；同时LjbHLH34基因也受聚乙二醇(PEG)和脱落酸(ABA)诱导表达。在酵母中检测发现LjbHLH34具有转录激活活性；亚细胞定位试验表明LjbHLH34蛋白定位于细胞核中。将LjbHLH34基因转入拟南芥获得过表达株系。在200 mmol·L^-1甘露醇胁迫下，LjbHLH34转基因拟南芥的根长明显长于野生型。干旱处理后，野生型拟南芥比转基因拟南芥萎蔫程度更加明显，而转基因株系的相对含水量和超氧化物歧化酶(SOD)活性显著高于野生型，丙二醛(MDA)积累...     

红曲发酵力测定方法的可行性研究

红曲米是福建红曲黄酒酿制过程中重要的糖化发酵剂。发酵力是衡量酿造用红曲品质的一个重要指标。研究通过酒精测定法和二氧化碳失重法测定酿造用红曲的发酵力,以评价2种发酵力测定方法的可行性。结果表明,二氧化碳失重法更适合于红曲米发酵力的测定。研究还对福建省20个红曲米的发酵力进行了测定,结果表明用二氧化碳生成量能够很好地表征红曲米发酵力的强弱。红曲米发酵力测定方法可行性分析对红曲米相关标准的制定具有重要意义。     

基于SPEI_PM指数的渭河流域气象干旱时空演变特征

利用渭河流域25个气象站点1980−2018年月值气象数据集，基于Penman-Monteith蒸散模型计算多个时间尺度的标准化降水蒸散发指数（SPEI），分析渭河流域气象干旱的演变、趋势、影响范围、发生频率和持续时间等时空变化特征，以期为渭河流域防灾减灾管理提供科学依据。结果表明：（1）近39a来渭河流域有明显的干湿周期变化，但整体上呈变干的趋势，干旱时段主要集中在1995−2009年，其中以2000−2009年的干旱站次比最大，平均达到36%，且干旱持续时间最长，约3.6个月，1980−1989年干旱持续时间最短，约1.6个月；（2）渭河流域秋季总体呈湿润变化趋势，而春季和夏季干旱在不断加剧，是区域年际干旱的主要驱动力；（3）渭河流域干旱以危害性较小的轻中旱为主，但2000年前后出现严重及极端干旱的站次相对较多，其中1997年研究区内发生的干旱程度较高，影响范围较广；（4）不同时间尺度各等级干旱发生频率的变化规律表现一致，均呈现出干旱等级越高发生频率越低的态势，且极端干旱在年际尺度内发生次数较为频繁，从空间上看渭河流域东北部是干旱多发区。总之，近39a来渭河流域总体干旱较为严重的时段为2000−2009年，且研究区内干旱呈北重南轻特征，因此北部地区仍需加强防灾管理。     

Effect of water deficiency on relationships between metabolism,physiology,biomass,and yield of upland cotton(Gossypium hirsutum L.)

Drought is a common abiotic stress that considerably limits crop production. The objective of this study is to explore the influence of water deficiency on the yield, physiologic and metabolomic attributes in upland cotton cultivars(Gossypium hirsutum L). Cotton cultivars, 'Ishonch' and 'Tashkent-6' were selected to study the relationships among their physiologic, metabolomic and yield attributes during water deficiency. Deficit irrigation was designed by modifying the traditional watering protocol to reduce water use. Results indicate that cotton cultivars respond differently to water deficit stress. Water deficit significantly influenced plant height, the number of internodes, and sympodial branches in both cultivars. However, yield components such as the number of bolls, boll seed, lint mass, and individual plant yield were significantly reduced only in 'Tashkent-6'. The leaf area decreased and the specific leaf weight increased in 'Ishonch' under deficit irrigation conditions. However, 'Tashkent-6' demonstrated significant water loss compared to 'Ishonch', and both cultivars showed reduced transpiration rates. Untargeted metabolite profiles of leaves showed clear separation in 'Ishonch', but not in 'Tashkent-6' under deficit irrigation compared to full irrigation. The individual metabolites such as proline and galactinol showed strong association with yield under water deficit stress. Moreover, this study indicates that leaf area and transpiration intensity influence yield during water deficiency. In summary, the correlation among morpho-physiologic, metabolic, and yield components significantly varied between the two cultivars under water deficiency. The flowering stage was sensitive to water stress for both cultivars. The direct relationship between physiology, metabolism, and yield may be a useful selection criterion for determining candidate parents for cotton drought tolerance breeding.     

不同水分环境下玉米叶面积QTL定位及候选基因分析

玉米叶面积的大小及分布特征不仅影响其光合效率、蒸腾速率,而且与其耐旱性、耐密性、抗倒伏性及产量形成紧密相关。深入剖析不同水旱环境下玉米不同生育时期不同叶位叶面积的分子遗传机理对玉米耐旱高产新品种的选育具有重要意义。本研究以构建的2套F_2∶3群体为试材,在8种水分环境下,采用复合区间作图法（CIM）和基于混合线性模型的复合区间作图法（MCIM）对玉米相应叶（V₁₈时期第10片叶、R₁时期穗三叶）叶面积进行单环境和多环境联合QTL分析;参考玉米基因组B73 RefGen_v3挖掘稳定表达的QTLs （sQTLs）区间内的候选基因,并对其进行功能分析。结果表明,采用CIM法,单环境下2个生育时期2套F_2∶3群体间总共定位到了7个玉米相应叶叶面积QTLs,主要受显性（81.0%）、部分显性（14.3%）和超显性（4.7%）等遗传效应的调控,其中在干旱环境下定位到了5个QTLs。采用MCIM法,在2套F_2∶3群体间总共检测到6个相应叶叶面积的联合QTLs,其中1个表现为显著的QTL与环境的互作（QTL×E, Bin 2.08~2.09）,1对QTLs （Bin 1.08~1.10与 Bin 2.08~2.09）参与了显著的加性与加性（AA）上位性互作。结合CIM和MCIM法进一步分析在2套F_2∶3群体间检测到了6个sQTLs,其分别位于Bin 1.08~1.10、Bin 2.08~2.09、Bin 4.08~4.09、Bin 6.05、Bin 8.03和Bin 10.03处,并在这些sQTLs区间内确定了12个玉米叶发育相关候选基因。采用生物信息学,总共收集了75个玉米叶发育相关候选基因,通过系统进化树分析表明,这些候选基因划分为3大进化分支,且上述检测到的12个候选基因分布于这3大进化分支上。这些结果为系统地解析玉米不同生育时期不同水旱环境下相应叶叶面积的分子遗传机理提供理论依据,检测到的sQTLs可作为叶面积改良的重要染色体区段,检测到的候选基因为其进一步克隆、功能分析及育种应用提供了信息参考。