红鳞蒲桃开花物候特性研究

对红鳞蒲桃种群的花期物候，单株、单个花序、单花的开花动态进行系统的观测研究，详细测量并记录花部构件，同时调查红鳞蒲桃种群的同花期植物。结果表明：红鳞蒲桃种群的花期物候为8月1日～9月15日（2008年），持续时间46d；单株花期从23d到33d不等；单花序的花期情况较为复杂，总体表现为花朵数越多，该花序持续时间越长，但也有个别情况出现，在开花中期花序持续时间长，开花后期花序持续时间最短，开花前期花序持续时间介于两者之间；在整个种群花期内单花平均开花时间约5．2d，种群开花前期单花的持续时间约为6．7d，开花中期约为4．7d，末花期约为4．3d，种群开花前期单花的持续时间显著大于种群中后期的持续时间。红鳞蒲桃种群的同花期植物隶属于16科21属22种。     

雏鸭铜中毒的实验观察

1日龄天府肉鸭健雏210只随机分为三组,分别喂给铜12.16mg/kg(对照或1组)、850mg/kg(2组)和1050mg/kg(3组)日粮7周。结果表明,后两组雏鸭分别于3周龄和2周龄开始出现临床症状,生长发育迟缓,并出现死亡;血红蛋白含量和红细胞数量显著低于对照组(p<0.05),红细胞变形、变性,大小不等;血清铜含量和肝铜含量极显著高于对照组(p<0.01)。     

舍饲安哥拉周岁公羊行为习性观察

对 6只舍饲安哥拉周岁公羊进行连续三天昼夜行为习性观察 ,结果表明 :周岁安哥拉山羊在舍饲情况下每昼夜反刍时间 (min)为 45 7 2 5± 2 4 39,睡眠时间为 2 96 5 0± 41 5 0 ,采食时间为 2 65 0 0± 2 2 31,其他时间为 15 4 2 5± 72 76。反刍与采食的时间比为 1 7∶1,明显大于正常的反刍与采食比 (0 5～ 1)的上限。反刍、睡眠和采食也与其它山羊相差较大。周岁安哥拉山羊的反刍、睡眠多发生在夜间 ,采食活动及其它一些动作如打架、自淫多发生在白天。安哥拉山羊白天排粪、排尿次数多于黑夜 ,昼夜排粪次数差异极显著。安哥拉山羊对牧草及灌木有较强的选择性 ,对饮水的卫生要求极为严格 ,拒饮不干净的水     

奥芬达唑和阿苯达唑对猪囊尾蚴作用形态学比较观察

观察了奥芬达唑和阿苯达唑对猪体内及体外培养的不同发育阶段囊尾蚴作用的形态学效果.结果表明奥芬达唑具有显著的疗效,优于阿苯达唑,且对未成熟期猪囊尾蚴的杀灭作用优于成熟期.提示奥芬达唑可能成为抗未成熟期猪囊尾蚴及治疗脑囊虫病的有效药物.     

Germination ecology of seeds of the annual weeds Capsella bursa-pastoris and Descurainia sophia originating from high northern latitudes

Low temperatures may inhibit dormancy break in seeds of winter annuals, therefore it was hypothesized that seeds of Capsella bursa‐pastoris and Descurainia sophia that mature at high latitudes in late summer–early autumn would not germinate until they had been exposed to high summer temperatures. Consequently, germination would be delayed until the second autumn. Most freshly matured seeds of both species collected in August and September in southern Sweden were dormant. After 3 weeks of burial at simulated August (20/10°C) and September (15/6°C) temperatures, 28 and 27%, respectively, of the C. bursa‐pastoris and 56 and 59%, respectively, of the D. sophia seeds germinated in light at 15/6°C. In contrast, in germination phenology studies conducted in Sweden, only a few seeds of either species germinated during the first autumn following dispersal. However, there was a peak of germination of both species the following spring, demonstrating that dormancy was lost during exposure to the low habitat temperatures between late summer and early autumn and spring. Nearly 100% of the seeds of both species subjected to simulated annual seasonal temperature changes were viable after 30.5 months of burial. In the burial study, exhumed seeds of C. bursa‐pastoris were capable of germinating to 98–100% in light at the simulated spring–autumn temperature regime (15/6°C) in both spring and autumn, while those of D. sophia did so only in autumn. In early spring, however, seeds of D. sophia germinated to 17–50% at 15/6°C. Thus, most seeds of these two annual weeds that mature in late summer do not germinate in the first autumn, but they may do so the following spring or in some subsequent autumn or spring.     

Phenotypic Changes in Grain Sorghum Over the Last Five Decades

Sorghum [Sorghum bicolor (L.) Moench] is a drought‐tolerant crop, and its productivity in rain fed environments has increased since the 1950s. This increase is due to changes in agronomic practices and hybrid improvement. The objective of this study was to determine what aspects of grain sorghum morphology, physiology and water use have changed with hybrid improvement and might have contributed to this yield increase. A 2‐year greenhouse experiment was conducted with one hybrid from each of the past five decades. The hybrids were studied in well‐watered and pre‐ and post‐flowering water deficit conditions. Total water use, transpiration, stomatal conductance and photosynthesis were measured during the growing period. Biomass and biomass components were measured at harvest. There was no consistent change in the leaf physiological parameters resulting from hybrid advancement. In contrast, total water use increased in rate of 8.5 cm³ kg soil^?1 year^?1 from old to new hybrids in the well‐watered treatments. Root biomass also increased in rate of 0.2 g plant^?1 year^?1. Leaf biomass and panicle length also was greater for the newest compared with the older hybrids. Hybrid advancement was related to increase in panicle length but decrease in peduncle length. Results indicated that hybrid development programmes created hybrids with improved drought avoidance, due to better root density of newly released hybrids, or hybrids with better resource use which ultimately increased yield under rain fed conditions.     

选举观察的制度引入与基层选举监督的创新路径——基于村委会选举观察员制度运行的分析

国内村委会选举观察员制度运行的成效和问题为选举观察制度的普遍引入提供了发展方向和问题警示。总结国内村委会选举观察员制度运行的得失,认为当今我国基层民主监督在理论与实践上的双重弱化状态和地方政治发展的实际需要是选举观察制度引入的基本条件,公众和媒体的参与、专家学者的推动等多重社会力量是促使选举观察制度运行的动力。选举观察制度的法制建设、政府部门的相对淡出、民间观察的介入与激励是选举观察制度完善与基层选举监督创新的基本路径。     

基于B/S的农业气象自动化观测系统国家级平台设计与应用

农业气象自动化观测系统国家级平台是依托中国气象局组织的农业气象自动化观测试点工作而设计开发,平台的搭建采用B/S架构实现多级用户、跨平台登录,采用XML及JSON等数据传输格式实现国家级、省级、台站级用户信息交互,实现农业气象观测XML数据传输状态的监控、台站端设备状态的评估以及数据内容的实时查询。     

中华蜜蜂囊状幼虫病毒检测方法研究进展

中蜂囊状幼虫病是一种由中蜂囊状幼虫病毒引起的严重威胁中蜂健康的传染性疾病。目前由于该病尚无有效的药物治疗方式,因此,预防与及时检测对于遏制该病传播显得尤为重要。本文主要从临床诊断、分子生物学和免疫学方面总结中蜂囊状幼虫病检测与鉴定的方法,包括形态诊断、RT-PCR技术、实时荧光定量PCR、巢式PCR、胶体金免疫快速诊断技术、ELISA、血清学技术和基因芯片等,为中蜂囊状幼虫病毒检测方法的改进和优化提供参考。     

Optimising cutting method and timing for the control of Abutilon theophrasti seed production

Abutilon theophrasti (velvetleaf) is a widespread and problematic annual weed. Greenhouse and field experiments were conducted to investigate the effects of different cutting methods on the viability of A. theophrasti seeds. Three cutting methods were assessed: (1) Entire plant cut and dried (EPD)—plants were cut at soil level and dried with capsules attached on the greenhouse bench or soil surface for 4 weeks; (2) capsules detached and dried (CD)—capsules were removed from plants and dried for 4 weeks; and (3) capsules detached and tested while fresh (CF)—a control treatment. Before drying, the developmental stage (stage one, dark green; stage two, light green; stage three, yellowish-green; or stage four, black with the slightly open capsule) and age (days after flowering, DAF) of each capsule was recorded. Seed viability was measured immediately in the CF treatment and after the 4-week drying period in the EPD and CD treatments. No seeds in the EPD and CD treatments were viable when harvested at the first developmental stage (1–8 DAF) in either experiment, but 100% of seeds in the CF treatment in the field were viable when harvested at 8 DAF. In both greenhouse and field experiments, seeds attained full viability at earlier harvest ages in CF than in EPD or CD treatments, suggesting that seeds might become viable relatively early in development but lose viability if allowed to dry. These findings could be applied to optimise late-season mechanical control of A. theophrasti.