高寒地区蛹虫草大米培养基的优化

以引进西藏的6株蛹虫草为试材,对比研究了其菌丝生长速率、出草产出及长势,筛选优良的蛹虫草菌株,并通过正交实验筛选对蛹虫草大米培养基营养成分的最优水平组合。结果表明:蛹虫草"TAAAS1"的菌丝生长速率虽不是最快的,但出草整齐均匀,出草产出高于其它菌株,表明"TAAAS1"菌株是适宜在高寒地区栽培生产的好品种;蛹虫草大米培养基的最优水平组合为蛹粉4g/L,葡萄糖20g/L,硫酸镁2g/L,磷酸二氢钾1.5g/L。     

三种地被菊种子萌发及幼苗生长的化感效应比较

以天人菊、金鸡菊和蛇鞭菊为试材,比较两两混种与单种在种子萌发和幼苗生长阶段相互间的化感效应强度。结果表明:两两混种下,金鸡菊、蛇鞭菊对天人菊生长起促进作用,化感效应强度为金鸡菊蛇鞭菊;天人菊、蛇鞭菊对金鸡菊生长起抑制作用,化感效应强度为天人菊蛇鞭菊;金鸡菊、天人菊对蛇鞭菊生长起抑制作用,化感效应强度为金鸡菊天人菊。     

兰州引黄灌区玉米田杂草群落及生态位研究

对兰州引黄灌区玉米田杂草进行了研究,初步了解了其杂草种类和杂草种群的消长动态。主要杂草有打碗花、田旋花、藜、刺儿菜、荠菜、稗草、马齿苋、反枝苋、狗尾草。主要杂草的干重为藜、反枝苋、稗草分别列第1、第2和第3位。生态位的研究结果表明,藜的时间、水平、垂直生态位宽度值最高,分别为0.952 6,0.971 8,0.937 9,其危害最大;其次为反枝苋和稗草。藜、反枝苋和稗草为优势种群,与玉米存在时间、水平、垂直空间的竞争激烈,并且这3种杂草的生态位重叠值也最大,因此在使用一种除草剂时,可能会导致另两种杂草的发生与蔓延。马齿苋尽管数量最多,但其在垂直方位的生态位宽度值最小,对玉米影响小,处于劣势。除草处理各经济性状指标值均较不除草对照高,其折合产量为10 111.11 kg/hm2,较不除草处理增产36.19%。     

22~42日龄黄羽肉鸡饲粮苏氨酸需要量研究

【目的】通过研究饲粮苏氨酸水平对22~42日龄黄羽肉鸡生长性能、胴体品质和免疫功能的影响,确定其苏氨酸需要量。【方法】试验选用22日龄快大型岭南黄羽肉鸡1 600只,根据体重相同的原则分为5个组,每组8个重复,每个重复40只肉鸡（公母各半）。采用玉米-花生粕型基础饲粮,5个处理组试验鸡分别饲喂含0.60%（基础饲粮）、0.67%、0.74%、0.81%和0.88%苏氨酸饲粮,试验期为21 d。试验结束后,每个重复选取2只鸡屠宰采样,测定屠宰性能、免疫器官指数和血清生化指标。【结果】饲粮苏氨酸水平显著影响黄羽肉公鸡、母鸡的体重、平均日增重和料重比（P<0.05）。对于母鸡,0.88%苏氨酸水平组平均日增重最高;0.81%苏氨酸水平组平均日采食量最高。对于公鸡,0.81%苏氨酸水平组平均日增重最高;0.81%苏氨酸水平组平均日采食量最高。饲粮苏氨酸水平与黄羽肉公鸡平均日增重、平均日采食量以及公、母鸡料重比呈显著的二次线性相关（P<0.05）;根据平均日增重和平均日采食量回归方程得出黄羽肉公鸡饲粮苏氨酸最适水平分别为0.81%和0.83%;根据料重比回归方程得出黄羽肉母鸡和公鸡饲粮苏氨酸最适水平分别为0.83%和0.86%。饲粮苏氨酸水平对黄羽肉公鸡、母鸡的全净膛率、半净膛率、腿肌率、胸肌率均无显著影响（P>0.05）;对黄羽肉公鸡全净膛率和腹脂率均有显著影响,其中0.81%苏氨酸组全净膛率显著高于0.60%和0.74%苏氨酸组,0.88%苏氨酸组腹脂率显著低于0.60%和0.67%苏氨酸组（P<0.05）。饲粮苏氨酸水平显著影响黄羽肉母鸡法氏囊指数和胸腺指数,其中0.60%苏氨酸组法氏囊指数显著低于0.81%苏氨酸组,0.81%和0.88%苏氨酸组胸腺指数显著高于0.60%苏氨酸组（P<0.05）;对肝脏指数、脾脏指数无显著影响（P>0.05）。饲粮苏氨酸水平对黄羽肉母鸡血清中甘油三酯、胰岛素含量有显著影响,其中0.60%苏氨酸水平组血清中胰岛素含量最低,0.88%苏氨酸水平组血清中甘油三酯含量最低,显著低于0.60%苏氨酸组（P<0.05）;苏氨酸水平对黄羽肉公鸡甘油三酯含量有显著影响,其中0.88%苏氨酸水平组血清中甘油三酯含量最低,显著低于0.60%和0.67%苏氨酸组（P<0.05）。【结论】饲粮中添加适量苏氨酸可以提高黄羽肉鸡生长性能、胴体品质,促进免疫器官发育。以生长性能为主要判定指标,确定22~42日龄黄羽肉母鸡饲粮最适苏氨酸水平为0.83%,黄羽肉公鸡最适苏氨酸水平为0.81%。     

Discussion of the Application and Foreground of Falling Water Aeration with the Process of Sewage Treatment

The engineering design of sewage treatment plant for the Chongqing city, P. R. China is analyzed in this paper. Considering the situation of China and other projects, the characteristics of falling water reactor for the environment protection project and economy of investment is introduced ; the application and foreground of falling water aeration in the process of sewage treatment is discussed, such as Oxidation - ditch, SBR, and so on. The conclusion indicated that the falling water aeration can be designed and used as an independent aeration, and, it is an upgraded technology of sewage treatment which is adaptive for city water environment control in middle and small towns in China. The falling water aeration may reduce running cost of the sewage treatment plant, is adaptive for foothill and the mountainous areas, and reduces project investment and environments damage.     

Vehicle Monitoring Control and Scheduling Management System in a Scenic Area

In order to help tourists choose satisfying scenic spots, content hotels, convenient lines and convenient vehicles, vehicle monitoring control and scheduling management system in a scenic area is presented, which dispatches vehicle by appointments and the statistic of tourists at a sight spot and recommends the tour line by broadcasting in vehicle. Vehicle monitoring control and scheduling management system in a scenic area, a integrative vehicle management system, is an integration of GPS, GIS, trunked radio system, a management system of booking room and a tourist statistic system at a sight spot.     

Research on a Novel Inverter of VSC

In order to improve waveform performance of light HVDC system, a lot of switches which operate in high frequency are used, which causes large switching losses and results high cost. A new Buck type voltage source converter(BVSC) is proposed. The new BVSC comprises a dual-buck converter and a three-phase inverter operating in grid frequency. Only two high frequency switches are used, which results good output waveform performance. In order to reduce the high frequency switching losses, a novel improved double-frequency Buck type voltage source converter(DBVSC) is also proposed. An additional dual-Buck converter is added to the BVSC, the added dual-Buck converter deals with the fundamental power that operates in low frequency, and BVSC only deals with harmonic power that operates in high frequency. The output waveform is enhanced and the switching losses are reduced in DBVSC, and the power rating is also increased. The DBVSC is very suitable for large power rating application. The one cycle control theory is adopted to control the proposed DBVSC with analog circuit, which is very simple. The proposed DBVSC and control method are verified by simulation.     

Tentative Research About the Macroscopic Regulating to Blast

The paper analyzes the difference of the pathogenic varieties and the relationship of the variety composition,allording to the historic material to the varieties of the main hybid fece varieties in Southeast Sichuan during 1992 to 1998.It's the first time to advance to use the camparison on rate of pathogenic isolates between norm and refrieving to define the susceptible extent of the varity.It's an scientific base to adjust the structures of the vartieties,to reach the objective of the macroscopic regulating to rice blast.