早熟、优质、耐贮运西瓜新品种‘爱耶一号’

 ‘爱耶一号’是采用自交分离、杂种优势利用, 并结合化学诱变而育成的早熟西瓜新品种, 具有成熟早、丰产、抗病、品质佳、果肉红、抗裂果、耐贮运、适应性广等优良特性。     

晚实核桃优良新品种‘冀丰’

 ‘冀丰’为晚实核桃新品种, 光滑, 仁饱满, 单果质量11. 19 g, 种壳厚1. 14 cm, 出仁率58. 5 %, 粗脂肪含量68. 53%; 丰产优质, 抗逆性强, 适宜华北核桃产区及与之土壤气候条件相近地区栽培。     

细胞因子对小尾寒羊胎盘成熟的影响

为了研究细胞因子对小尾寒羊胎盘成熟的影响 ,本实验采用液相竞争法和平衡法 ,对小尾寒羊空怀期 (n=5 )和妊娠期 (n=13)第 85天、10 5天、12 5天、14 0天和 15 0天 (足月 )时的血清白细胞介素 - 1β(IL - 1β)、白细胞介素 - 6 (IL - 6 )和肿瘤坏死因子(TNF)的含量分别进行检测。结果表明 ,IL - 1β和 IL - 6含量在 12 5天时与对照组间差异极显著 (P<0 .0 1) ,TNF含量在各时期与对照组差异均显著 (P<0 .0 1或 P<0 .0 5 )。随着妊娠过程的进展 ,三种细胞因子含量逐渐增加 ,12 5天时达到最高值 ,分别为 0 .390± 0 .196 ng/ ml,5 79.8± 15 2 .8pg/ ml和 2 .348± 0 .396 ng/ ml。而后逐渐下降 ,到足月前略有回升 ,但仍低于 12 5天时的最高值。由此看出小尾寒羊在妊娠期间 ,细胞因子与妊娠之间有着密切的关系 ,前者对于维持妊娠起到重要作用。由于 14 0天至足月3种细胞因子基本稳定 ,这表明胎盘于 14 0天左右达到成熟 ,IL- 1β和 IL- 6与启动分娩有关 ,而 TNF可能参与小尾寒羊分娩的启动。     

转MsLEA4-4基因拟南芥株系的耐盐性分析

为了深入研究紫花苜蓿（Medicago sativa）MsLEA4-4基因的抗逆性，本试验对前期获得的转MsLEA4-4基因的拟南芥（Arabidopsis thaliana）株系进行不同浓度盐胁迫处理，以验证MsLEA4-4基因在拟南芥植株体内的耐盐性。试验结果表明：盐胁迫后转基因株系的发芽率达到55%，比对照植株（Control plant，CK）高81%；转基因株系的鲜重、叶绿素含量均高于CK（P<0.05）；盐胁迫后转基因株系的存活率比CK提高75.0%~81.3%；盐胁迫明显抑制根系生长，但转基因植株的侧根数量比CK多4~5根（P<0.05）；盐胁迫后转基因株系体内的可溶性糖含量（P<0.05）和超氧化物歧化酶（P<0.01），过氧化氢酶（P<0.01），过氧化物酶（P<0.05）活性均高于CK，脯氨酸（P<0.01）和丙二醛（P<0.05）含量均低于CK。综上可得，MsLEA4-4基因参与了拟南芥体内的耐盐性调控，提高了转基因拟南芥对盐胁迫的耐受性。本研究为进一步探索MsLEA4-4在转基因紫花苜蓿盐胁迫中的功能及培育耐盐性紫花苜蓿品种提供依据。     

引自国际马铃薯中心的品种资源在青海对晚疫病的田间抗性鉴定

在青海省海拔2000～2500m和2500～3000m两个不同生态区域设置抗性观测圃,调查评价从国际马铃薯中心(CIP)引进的60份资源田间晚疫病抗性,资源D9在整个生育期表现出免疫症状,15个资源表现为高抗,18个资源表现抗病,同时还对晚疫病菌流行生理小种的毒性基因进行动态监测。     

Effect of nitrogen application during ripening period on photosynthesis and dry matter production and its impact on yield and yield components of semidwarf iniica rice varieties under water culture conditions

Abstract

A water culture pot experiment was conducted to analyze the effects of N application during the ripening period (RP) on photosynthesis, dry matter production, and its impact on grain ripening and yield in two semidwarf indica type varieties viz. Gui Zhao 2 (GZ) and BR3 (BR) compared with a japonica type variety Koganemasari (KO) under four N rates viz. 0 (N₀), 10 (N₁₀), 20 (N₂₀), and 40 (N₄₀) mg L^?1. Results showed that N application enabled to maintain a higher leaf area and delay leaf senescence in both indica and japonica type varieties but the decrease in the rate, of leaf area was higher in the former than in the latter and the rate was reduced with increasing N rates. Flag leaf photosynthesis and SPAD values of N treated plants were higher throughout the RP, showing the presence of a significant correlation either for each variety or all the varieties together. Higher photosynthetic rate was supported by higher leaf chlorophyll (SPAD value basis) content, stomatai conductance, and N concentration in leaf blades. Top dry matter content increased with increasing N rates mainly due to mean leaf area rather than NAR except for BR during RP but it was higher in KO than in GZ and BR. Reduction of shoot weight due to translocation of dry matter to panicles during RP was suppressed by N rates both in GZ and BR while shoot weight increased in the N-treated plants in KO. The dependency of KO on current photosynthates for panicle weight was found to be almost hundred percent while the contribution of stored carbohydrates in shoot before heading to panicle weight in GZ and BR was in the range of 4-27 and 33-54%, respectively and the rest was contributed by current photosynthates. The percentage increased with increasing N rates. Percentage of ripened grains (PRG) increased with increasing N rates in GZ and BR due to the increase in dry matter production and in the photosynthetic rates of apex leaves, despite the larger spikelet number and larger hull size. However, KO showed almost no variation although it had the highest PRG among the varieties. Brown rice yield followed the same pattern as that of PRG in GZ and BR and the highest yield was produced by BR followed by GZ and KO. These results suggest that N application during RP was more effective in increasing yield in the semidwarf indica type varieties than in the japonica type variety.     

葡萄果实转色过程中线粒体呼吸代谢变化

为明确线粒体呼吸代谢与果实成熟期间颜色形成的关系,本试验探究了3种葡萄果实(夏黑、巨峰和金手指)成熟期间颜色、总花色苷含量、呼吸强度、内源乙烯产生和线粒体呼吸代谢的变化规律。结果表明,夏黑和巨峰葡萄果实的果皮颜色指数(CIRG)值和总花色苷含量随着果实成熟呈上升趋势,而金手指葡萄果实CIRG值在整个成熟期间变化不显著;葡萄果实成熟期间呼吸强度和内源乙烯均呈先上升后下降趋势,在花后63d达到峰值。同时,葡萄果实成熟期间,线粒体膜通透性转换孔(MPTP)逐渐增加,线粒体膜流动性(MMF)持续下降;线粒体琥珀酸脱氢酶(SDH)活性随着成熟进程逐渐下降,而细胞色素氧化酶(CCO)活性在花后63d开始上升。表明盛花63d之后是果实色泽快速形成阶段,可能为葡萄果实色泽形成的关键时期。线粒体呼吸代谢增强促进了果实成熟期间呼吸强度增加和内源乙烯释放,从而使夏黑和巨峰果实中花色苷大量积累,加快了金手指葡萄果实叶绿素的降解和类胡萝素的合成。本研究结果为调控南方葡萄果实着色提供了理论依据。     

水稻生育后期根系氮代谢生理活性变化的研究

以"两优培九"及其父本"9311"和"汕优63"为材料,测定不同水稻品种花后根系氮代谢相关酶[谷氨酰胺合成酶(GS)、谷-丙转氨酶(GPT)、谷草转氨酶(GOT)和谷氨酸脱氢酶(GDH)]及蛋白水解酶活性、蛋白质和游离氨基酸含量、根系伤流液量以及伤流液游离氨基酸及糖含量.结果表明,"9311"的GPT和GDH活性高峰出现在开花前,GS和GOT峰值分别出现在花后第1、2周;"两优培九"除GS高峰在开花前,其余3种酶活性高峰均出现在花后1周;"汕优63"的4种酶活性高峰均出现在花后第2周."9311"和"两优培九"根系可溶性蛋白、游离氨基酸含量高峰出现在花后1周左右,"汕优63"的两峰值滞后于前两品种,分别推至花后第2周和第3周,这与3品种根系酶活性的变化趋势基本一致."两优培九"根系伤流液量的最大值出现在花后两周,早于"9311"和"汕优63"1周.伤流液的高峰和根系中游离氨基酸峰值相差1周,且滞后时间在品种间有所差别,"两优培九"相差1周,"9311"相差两周,而"汕优63"二者基本一致.3品种伤流液中"汕优63"糖含量显著高于其他两品种(P<0.01),而"9311"的氨基酸含量显著高于其他两品种(P<0.05).本试验结果表明,"两优培九"根系的氮代谢高峰早于其他两个品种,而峰值低于其他两品种,说明生育后期"两优培九"根系生理活性衰退早于其他两个品种;品种间根系的代谢高峰具有明显的强度和时间性差异;根系组织代谢高峰和伤流液峰值具有时间差,其差值因品种而异.     

冬种黑麦草对6种水稻土重金属含量及晚稻不同器官重金属累积与分配的影响

研究双季稻区6种不同土壤类型冬季种植黑麦草对土壤重金属含量及其对晚稻不同器官重金属积累与分配的影响, 可为水稻质量安全生产和产地安全适宜性评价提供重要参考。本文以7年定位试验为基础, 研究了南方双季稻区冬季种植黑麦草对6种不同水稻土耕层土壤重金属Cd、Pd、Hg和As含量的变化及其对晚稻不同器官重金属积累与分配的影响。结果表明, 在6种不同土壤类型中, 灰泥田土壤Cd含量极显著高于其他土壤类型; 黄泥田土壤Pd含量极显著高于其他土壤类型; 土壤Hg含量以红黄泥田最高, 达0.029 mg kg^-1, 与其他土壤类型差异达极显著水平; 土壤As的含量以黄泥田最高, 为29.5 mg kg^-1, 极显著高于其他土壤类型。6种不同土壤类型晚稻植株Cd、Pb、As含量均为根>茎叶>糙米。在晚稻植株根系、茎叶和糙米的Cd含量以红黄泥田最高, 均极显著高于其他土壤类型; 植株根系Pb、As含量以黄泥田最高, 分别为33.0 mg kg^-1和119.5 mg kg^-1, 均极显著高于其他土壤类型; 河沙泥水稻植株茎叶的Hg、As含量均极显著高于其他土壤类型。说明黄泥田种植水稻有利于降低稻米中重金属含量, 改善稻米品质。     

壮芽灵对烤烟种子的处理效应

对云烟85、K326和红花大金元3个品种进行不同成熟期种子活力测定及壮芽灵浸种处理。结果表明：完熟期的种子活力高于褐熟期和枯熟期；壮芽灵处理种子中，以稀释1000倍，浸种24小时的效果较好，可提高中、低等活力水平的烤烟种子的活力，而对高活力烤烟种子则有轻微的抑制作用。本法对提高中、低等活力水平的烤烟具有明显作用。