高度重视小型农机具利用率减少资源浪费

为解决随着大、中型联合作业机具和跨区作业的发展．农村中占机具总量大部分的小型机具出现闲置．造成了农机资源的浪费问题，提出了4条提高利用率的途径和农机主管部门应做好的5项工作。     

东北典型农区土地利用变化的生态效应研究——以公主岭市为例

在人为活动占优势的景观内,不同土地利用方式和强度产生的生态效应是不同的,并且可以直观地反映在生态系统的结构和组成上。因此,本文利用Landsat TM和MSS遥感数据,以具有相对完整的自然生态过程的小流域作为评价单元,借助GIS空间分析和地统计分析功能,从景观生态学角度提出了景观生态指数来反映LUCC变化所带来的生态效应。研究发现,公主岭市1975—1986年间由于土地利用/土地覆被变化造成的生态风险不断增加,随后逐渐减小,到2000年局部地区又有所回升,这种变化与该地区土地利用类型的变化,特别是耕地、林地和草地的变化趋势呈高度相关,说明该地区土地利用/土地覆被变化对生物多样性及生态安全具有重要影响。     

甜菜DAMD-PCR体系的建立及优化

为了建立甜菜DAMD扩增体系,以期利用DAMD引物应用于甜菜品种指纹图谱的构建及分子标记辅助育种。本实验利用单因素变量的方法对甜菜DAMD体系进行优化。同时选用12个甜菜品种,利用优化的体系对25条DAMD引物进行扩增。获得甜菜的最适DAMD体系:总体积为20μL,包含模板DNA 10~80 ng、0.75 U的DNA聚合酶、0.2μL的d NTPs(2.5 mmol/L each)以及2.0μL的引物(10μmol/L)。同时25条引物均扩增出了清晰条带,除了个别引物多态性较差外,其余引物多态性都非常的丰富,其中引物62H(-)就可以把实验中用到的12个甜菜品种全部区分开。由此可见,DAMD引物的扩增效率很高,并且扩增结果稳定,条带清晰,非常适合甜菜品种指纹图谱的构建及遗传多样性分析。     

减氮控水对日光温室番茄-小型西瓜产量、品质及氮素利用的影响

研究日光温室滴灌施肥条件下,不同水肥组合对作物产量、品质和氮素利用的影响,综合评价优化水肥和常规水肥管理的调控效应。田间试验设置4个水氮处理,包括不施氮+常规灌溉(N_0+FI)、常规施氮+常规灌溉(FT+FI)、优化施氮+常规灌溉(OPT+FI)、优化施氮+优化灌溉(OPT+OI)。测定不同处理下秋冬茬番茄-春茬小型西瓜的产量、品质以及根、茎、叶、果实氮素吸收量。结果表明:优化水氮处理(OPT+OI)番茄产量和果实可溶性糖、可滴定酸和Vc含量与农户常规水氮处理(FT+FI)无显著差异,但番茄果实的硝酸盐含量降低了66.3%(P0.05);灌溉量相同时,减氮40%处理(OPT+FI)的小型西瓜产量相比常规施氮处理(FT+FI)提高了13.1%;OPT+OI处理果实的可溶性糖、可滴定酸和Vc含量较对照处理(N_0+FI)均显著提高。不同水肥处理下,两季作物氮在各器官的累积量均表现为果实叶茎根。随着番茄的生长,果实和茎的氮素携出量占总携出量的比例分别由62.4%和5.9%增加至67.1%和6.3%,而根和叶中氮素携出量降低,OPT+OI处理果实氮素携出所占比例增量最大,促进了营养器官中的氮素向果实中转运。在当前日光温室栽培条件下,适当优化施氮量和灌溉量既可以保证作物产量和氮素吸收,同时提高果实的品质。     

小型西瓜不同生长发育期对氮、磷、钾的吸收及分配

选择2个小型西瓜品种红小玉和黄小玉,研究了植株的干物质积累和氮、磷、钾的吸收、分配规律。结果表明:营养体生长阶段,小型西瓜植株的干物质主要在叶中积累。抽蔓期、第一雌花期和500 g果实膨大期是植株干物质积累较大的时期,在这一时期应增施肥料来满足植株快速增长的需要。西瓜苗期对氮、磷、钾的吸收很少,随着植株的生长逐渐增多,氮的吸收高峰期出现在第一雌花期和500 g果实膨大期。坐果后对磷的吸收增多,开花结果后对钾的吸收较多。西瓜植株对氮、磷、钾的分配在结果前主要用于叶的发育,其次是茎的生长,坐果后,逐渐转向果实的发育。     

Pigeonpea improvement: An amalgam of breeding and genomic research

In the past five decades, constant research has been directed towards yield improvement in pigeonpea resulting in the deployment of several commercially acceptable cultivars in India. Though, the genesis of hybrid technology, the biggest breakthrough, enigma of stagnant productivity still remains unsolved. To sort this productivity disparity, genomic research along with conventional breeding was successfully initiated at ICRISAT. It endowed ample genomic resource providing insight in the pigeonpea genome combating production constraints in a precise and speedy manner. The availability of the draft genome sequence with a large‐scale marker resource, oriented the research towards trait mapping for flowering time, determinacy, fertility restoration, yield attributing traits and photo‐insensitivity. Defined core and mini‐core collection, still eased the pigeonpea breeding being accessible for existing genetic diversity and developing stress resistance. Modern genomic tools like next‐generation sequencing, genome‐wide selection helping in the appraisal of selection efficiency is leading towards next‐generation breeding, an awaited milestone in pigeonpea genetic enhancement. This paper emphasizes the ongoing genetic improvement in pigeonpea with an amalgam of conventional breeding as well as genomic research.     

小型西瓜生育特性与保护地栽培技术

小型西瓜生育特性、种植模式与普通西瓜不同,种植过程中容易出现问题.基于小西瓜的生育特性,综述北方地区保护地栽培的主要技术要点,为提高小型西瓜的产量和品质提供参考.     

Experimental study on how brain-dead state affects the heart structure and function of Ba-Ma mini pigs and the mechanism

AIM:To investigate how brain-dead state affects the heart structure and function and the effect of PKC-α in BA-Ma mini pigs.METHODS:Ten Ba-Ma mini pigs were randomized into 2 groups: brain-dead group (n=5),and control group (n=5). The brain-dead model was made by increasing intracranial pressure,while the control group was maintained anesthesia for 24 h. The concentrations of cTnT,TNF-α,IL-1β and IL-6 in serum were determined at 6,12 and 24 h after brain death. At 24 h,heart tissues were observed by HE staining and electron microscope. The expression of PKC-α was detected by immunohistochemistry and RT-PCR.RESULTS:(1) Histological changes of myocardium: flaky bleeding under endocardium and dissolution of myocardium were found in optical microscope. In electron microscope dropsical mitochondria and confluent muscle fiber were found. (2) Changes of serum cTnT: serum cTnT for brain-dead group began to increase gradually since 6 h,and were significantly higher at each time point than those in control group (P<0.05). (3) Changes of inflammatory factors: IL-1β,IL-6,and TNF-α in brain-dead group began to increase gradually since 6 h,and were significantly higher at each time point than those in control group (P<0.05). (4) Changes of PKC-α expression: PKC-α mRNA and protein expressions in brain-dead group increased significantly at 24 h (P<0.05).CONCLUSION:Brain death may evoke heart structure and functional injury,and increase the levels of inflammatory factors and PKC-α. The activation of PKC-α may participate in the process of heart injury.     

Load behaviors of a prefabricated wood framing house during lifting and transportation

Lifting for handling and flatbed truck transportation to the job site are important processes during manufacture of prefabri-cated wooden construction units like mini homes and building modules. Significant damage can occur to sections or components of units during these operations. Although damage usually will not impair its structural safety, it is costly to fix and causes the public to perceive prefabricated wooden buildings as low quality products. Field observations and preliminary numerical models for prefabri-cated units subject to lifting and transportation forces are summarized here. Once fully developed and verified, models will support the creation of damage mitigation strategies centered on structural details indicating how units are to be supported during lifting and transportation.     

Time dependence of hydraulic parameters estimation from transient analysis of mini disc infiltrometer measurements

The transient analysis of mini disc infiltrometer (MDI) measurements is an established method for characterising near-surface hydraulic characteristics of soils. The reliability of hydraulic characteristics obtained from transient analysis depends on the (1) adequacy of model, (2) adequacy of data, (3) measurement time and (4) measurement footprint. The measurement time dependence recommendations are reported only for a few soil textures, initially wet samples and tension infiltrometer (TI) with a higher measurement footprint than the MDI. This study investigated the adequacy of infiltration data (using cumulative linearization [CL] and differentiated linearization [DL]) and measurement time influence on the hydraulic parameters determined from the transient analysis of MDI measurements for six soil textures. The objective of the study is to identify suitable MDI measurement durations for different soil textures for the initially dry state, considering both adequacy of data and time fractionation (measurement time influence). The data adequacy time obtained from the DL (T_DL) was found to be 0.8 times less than the value obtained from CL (T_CL). The marginal difference in T_DL and T_CL had a significant influence on the determination of infiltration equation coefficient C₁ and negligible influence on coefficient C₂. The time fractionation procedure adopted for identifying adequate MDI measurement time (T_m) was found to be comparable based on sorptivity (S₀) and hydraulic conductivity (K₀). The average T_m was also comparable with T_DL and T_CL with a strong positive correlation. The C₂ values obtained based on T_m, T_DL, and T_CL were in better agreement than the corresponding C₁ values. The adequate MDI measurement times identified by considering T_m, T_DL, and T_CL were texture dependent, ranging from 45 min for silt to 120 min for silt loam and silty clay loam. For loamy sand, it was 50 min; for sand, it was 70 min, followed by 60 min for loam.