1.The Function Property and digestibility of acetylated ae maize starches (Hi - Maize, 66% amylose and GELOSE 50, 47% amylose), wx maize starch(MAZACA 3401X, 3. 3% amylose), normal maize starch (22. 4% amylose)provided by Starch Australasia Limited were studied. Acetylation decreased temperature at peak viscosity, while increasing peak viscosity compared to native starches.
对StarchAustralasia公司提供的直链扩增玉米淀粉(Hi-Maize,直链淀粉含量66%,GELOSE50,直链淀粉含量47%),蜡性玉米淀粉(MAZACA3401X,直链淀粉含量3.3%),和正常玉米淀粉(直链淀粉含量22.4%)进行乙酰化反应,并对其功能性质和酶解率进行研究,乙酰化反应降低所有淀粉的糊化温度,同时增加淀粉的粘度。
2.The CERES-MAIZE simulation model in DSSAT35 system was calibrated and validated with the localization, and the summer maize water-manure optimum management technology system in Huang-Huai-Hai plain was set up based on CERES-MAIZE simulation model, Uniform Design method and theory of optimization. Then the corresponding soft was developed with DSSAT35, Uniform Design analyse software, Excel solving software for foundation by using data sets of 3 years obtained in Quzhou experiment state.
本文利用曲周实验站3年的田间试验实测资料,对DSSAT35中CERES-MAIZE模拟模型进行了修正和本地化检验,建立了以CERES-MAIZE模拟模型、均匀设计方法、优化理论为基础黄淮海夏玉米水肥优化管理技术体系,并以DSSAT35、均匀设计分析软件、Excel的规划求解软件为基础建立相应的管理系统软件。
3.The results showed that, the CERES-Maize model is applicable to evaluate the climate change affecting the maize production in China, and PRECIS could offer meteorology data for CERES-Maize model.
结果表明:CERES-Maize模型适用于中国; PRECIS可以为CERES-Maize模型提供气候情景数据;
4.The rats were then assigned to consume N, HF, high Hi-maize 1043, middle Hi-maize 1043, low Hi-maize 1043 and low fat Hi-maize 1043 diet (group N1, HF, HS, MS, LS and LFHS respectively , the initial N diet group was group N).
将6组胰岛素抵抗大鼠随机安排进食N、HF、Hi-maize1043高(HS)、中(MS)、低(LS)和低脂(LFHS)饲料,分别为N1、HF、HS、MS、LS和LFHS组;
5.In this paper, the CERES-Maize (Crop-Environmment Resourse Syntheses system ) was calibrated and validated firstly, afterwards the climate scenarios made by PRECIS(Providing Regional Climate for Impacts Studies) were input into the CERES-Maize model to validation the simulating ability of PRECIS.
本文首先对作物模型(CERES-Maize)进行了标定和验证,然后将区域气候模式(RCM)PRECIS系统模拟的历史气候数据输入CERES-Maize模型,验证直接应用PRECIS结果进行玉米生产模拟的可行性。
6.Study on Water-fertilizer Optimization and Management Technology Method of Summer Maize Production Aided by CERES-MAIZE Model
基于CERES-MAIZE模型的夏玉米生产水肥优化管理技术方法与应用研究
7.Based on uniform design, the method of optimizing maize variety parameters was set up in the CERES maize simulation model.
本文以均匀设计方法为基础 ,建立了CERES maize模拟模型品种参数的优化方法。
8.Method of optimizing maize variety parameters in the CERES-maize simulation model
CERES-maize模拟模型中品种参数优化方法研究
9.The method of water manure optimum management decision of Uniform Design combined with CERES-MAIZE simulation model was set up for the first time whether at home or abroad at the same time.
并在国内外首次建立了均匀设计和CERES-MAIZE模拟模型相结合的水肥优化管理决策方法。
10.The experiments that 6 inoculated treatments of 4 maize cultivars with different level of resistance to maize head smut ( Sphacelothea reiliana (Kuhn) Clint. Var. Zeae ), testing of field natural disease incidence for 7 different seedtimes, crop rotation experiment by serving the 4 crops as the former stubble and with the maize cultivars each other were cinducted. The field natural incidence of the disease in 4 major maize planting regions in Jilin province and spring maize in China was investigated.
本文针对玉米丝黑穗病抗感性不同的4个对照品系进行了6个菌量的人工接菌试验研究,并设置了7个播期的田间自然发病试验,同时进行了以4种作物为前茬的轮作以及供试对照品系之间相互轮作试验,对吉林省4个主要玉米种植区进行田间自然发病率调查,并对我国春玉米区田间自然发病率进行了调查与分析。
