花生

There is increasing effect of hundred-pod weight employed only in legumen forming stage and with the level of 30kg/hm2, and the level of 30kg/hm2 also have increasing effect for hundred-seed weight in acicula forming and legumen forming stage. Foundation fertilizer with 30kg/hm2 level increasing the quantity of per plant; employing silicon has no significant effect on fat concentration, so silicon is applicable to edible species. Employing silicon make significant descend of plant nitrogen, significant increasing of plant phosphorus only with level of 90kg/hm2 applying before planting, decreasing of that only with level of 150kg/hm2 employing in legumen forming period, and no distinct effect with others levels. Comprehensive effect of plant potassium, and that should do better in future.

仅在结荚期施用30kg/hm2硅提高花生的百仁重；在下针期和结荚期施用30kg/hm2可提高百果重；基施（30kg/hm2）提高产量的主要原因是增加了单株结荚数；花生施用硅肥后对花生仁的脂肪含量没有明显的影响，花生施硅适宜于食用型品种；花生施用硅肥能明显降低花生成熟期植株的全氮含量；对磷的影响则表现为，基施硅肥90kg/hm2可提高植株中磷的含量，而结荚期追施150kg/hm2的处理降低植株中磷的含量；对钾的影响则表现为复杂的规律，其机理需进一步研究。

Aim: To study the amino acid-composition of purified 3 major components(arachin, conarachin I and conarachin II) and the five purified polypeptides. To separate the methionine-rich proteins and analyze their changes of synthesis and degradation during development and germination in peanut seeds.

目的：分析花生球蛋白、伴花生球蛋白Ⅰ和伴花生球蛋白Ⅱ及其组成多肽的氨基酸组成，筛选高甲硫氨酸多肽并研究其在花生种子发育和萌发过程中的合成降解规律。

There was also considerable polymorphism among the different genotypes of one same species.The genetic distance between cultivated peanut and several species including A.duranensis,A.villosa and A.batizocoi belonging to section Arachis was relatively more close in the comparison with some other species which was in accordance with peanut classification system.

栽培种花生与花生区组材料的亲缘关系相对较近，与花生属的植物学分类一致，其中A基因组的A.duranensis和A.villosa及B基因组的A.bati-zocoi与栽培种花生的亲缘关系更近一些。

We also draw the conclusions from the review as follows:①RAPD, SSR and AFLP can be used to analysis the variation of peanut;②The deep generations of hybridized peanut can be identified by RAPD ;③Use RFLP and RAPD to draw the fingerprinting of peanut;④The research on Bradyrhizobiumsp Arachis;⑤The progress in the technique of RFLP and RAPD based on peanut research.

主要介绍了RFLP、RAPD、SSR、AFLP等四种分子标记技术的原理、方法、特点及其在花生上的应用现状：①RAPD、SSR、AFLP都可以分析花生品种的多样性；②RAPD技术可以对杂交后代进行鉴定；③利用RFLP、RAPD技术绘制花生指纹图谱；④利用分子标记技术研究花生根瘤菌；⑤基于花生的RFLP、RAPD技术的改进。

Effects of peanut protein isolate concentration, glycerin concentration and gluten fortifier concentration on the peanut protein isolate-based edible film properties were studied.

以花生分离蛋白为原料，研究了花生分离蛋白质量分数、甘油加入量和增筋剂加入量对花生分离蛋白可食性膜膜性能的影响，通过正交实验确定制取花生分离蛋白可食性膜的最佳配方。

Peanut the Papillon 花生的蝴蝶: Our papillon Peanut has fallen in love with Lola the Pomeranian Schoolgirl!

我们的蝴蝶花生已经爱上了萝拉的波美拉尼亚女生！

The main results were as follows:An appropriate concentration of ethephon sprayed on leaves of peanut made stems and branchs height shorter,but more branches;The fresh weight and dry weight per unit of leaf area and per plant increased;It optimized some physiological and biochemical characteristics in the leaves.It was showed that the ethephon increased obviously the contents of protein and chlorophyll and the activity of SOD and POD in the leaves,and improved the rates of photosynthesis and transpiration of the leaves,and increased the activity of the roots,but decreased the content of MDA in the leaves;It improved the quantity of pods,the percentage of plumy pods and the peanut yield.

结果表明：喷施适宜浓度的乙烯利可使植株相对矮化，抑制花生地上部分的生长，使主茎和分枝长比对照短，但分枝数较多；提高单位叶面积鲜重、干重以及植株鲜重、干重；优化花生植株的生理生化特性，表现为显著提高了花生叶片的蛋白质含量和叶绿素含量及SOD和POD活性，增强了花生叶片的光合速率和蒸腾速率，增强了主根活力，降低了花生叶片的丙二醛和可溶性糖含量；提高植株的单株结荚数、饱果率和产量。

Cv. Shanyou 21 in this report, method of transforming the CpTI and bar gene to peanut with pollen tube pathway technique was studied, the mechanism of the technique in the peanut was discussed; biochemic ingredient changing among the peanut cultivars was analyzed, and genetic distance was studied with RAPD analysis, we hope that these study will be useful to crop breeding.In the two analyses different 19 peanut cultivars were analyzed by RAPD technique respectively.

本论文研究了用花粉管通道法将CpTI和bar基因转入花生品种&汕油523&和&汕油21&的实验方法，初步探讨了花粉管通道法转化花生的机理，并分析了花生品种间生化成分的变化及和RAPD聚类的遗传距离的关系，以期为花生分子育种提供依据。

Five models such as pear ×Forsythia suspensa/peanut, pear/peanut, nectarine ×Forsythia suspense / peanut, nectarine/ peanut and rape/ peanut were set up in the catchment area of Honghua Reservoir in Shiwan small watershed of Kaixian county, the observed and counted items include: Investment cost, economic income, pear and nectarine crown size, soil bulk density , porosity of soil , fibrous roots size and soil nutrients.

在开县石碗小流域红华水库的集水区域，设置了梨×连翘／花生、梨／花生、桃×连翘／花生、桃／花生与对照的油菜／花生等五种模式，观测统计的项目包括投入成本、经济收益、果树冠幅、土壤容重、土壤孔隙度、须根量和土壤养分。

Shading experiments were designed according to low light intensity problem caused by intercropping system of peanut with maize or wheat et al. Fenghua1 and Fenghua2 were adopted in the experiment of four light intensity levels (CK in which the plants were grown under natural light, 27% shading, 43% shading and 77% shading), which carried out at three growth stage using black sunshade net. And the three stages were seedling phase, pod-setting phase and pod-maturing phase. The aim of this study was to investigate the effects of low light on the photosynthetic characteristics, luminous energy distribute of PSⅡ, RuBPCase activitiy, plant morphogenesis, dry matter production, pod yield and quality of peanut at different stages, defined the relationship between dry matter accumulation and PAR, relationship of efficiency for solar energy utilization and PAR, and then set up the ...dry matter production and yield formation model on the basis of the experimental data.

针对花生与玉米、小麦等作物间作、套种造成遮光问题，选用大花生品种丰花1号和小花生品种丰花2号做为供试材料，在花生苗期、结荚期和饱果期分别用不同透光率的遮阳网进行遮光处理模拟弱光条件，设置自然光、遮光27%、遮光43%和遮光77%四种光强水平，研究了光强处理对花生光合特性、光系统Ⅱ光能分配、RuBPCase活性、植株形态建成、物质生产和产量以及品质的影响，明确了不同时期干物质积累及光能利用率与光合有效辐射的关系，以此为基础采用2种方法建立了花生干物质生产动态模型和花生产量形成模拟模型，并对各模型的模拟精度进行了比较。

arachin fibre：花生朊纤维

arachidonic acid 花生四稀酸 | arachin fibre 花生朊纤维 | arachin 花生球蛋白

Arachis hypogaea：花生 花生

白桦 华皮 Betula platyphylla | 花生 花生 Arachis hypogaea | 茴香 小茴香 Foeniculum vulgare

baked peanuts：烤花生

炸花生 fried peanuts | 烤花生 baked peanuts | 咸花生 salted peanuts

Peanut Diplodia Collar Rot：第九节 花生茎腐病

第八节 花生青枯病 Peanut Bacterial Wilt | 第九节 花生茎腐病Peanut Diplodia Collar Rot | 第十节 花生病毒病 Peanut Virus Diseases

groundnut：花生

从中国进口的去皮花生(groundnut)仁滋生大批小昆虫从中国进口的去皮花生(peanut)仁滋生大批小昆虫从中国进口的去皮花生(peanut)仁滋生大批的昆虫幼虫从中国进口的去皮花生(peanut)仁滋生大批小昆虫从中国进口的冷冻阿拉斯加鳕鱼

groundnut sheller：花生脱壳机 花生豆去皮机

frequency indicator 示频器, 频率计 | groundnut sheller 花生脱壳机 花生豆去皮机 | Game Controls 游戏控制

groundnut sheller：花生脱壳器

groundnut protein fibre 花生蛋白质纤维 | groundnut sheller 花生脱壳器 | groundnut stem meal 花生秧粉

peanut：花生

"肉类"(meat)指拟供人食用的─"花生"(peanut)指地豆或豆科植物落花生的种子;"花生产品"(peanutproducts)包括花生油或任何含有花生作为其配料的产品;"油或脂肪"(oilorfat)指取自任何动物、禽鸟、鱼或植物的油或脂肪,但不包括任何香精油;

:Fried Peanuts：油氽花生

油炸花生 fried peanuts | 油氽花生 fried peanuts | 炸花生 fried peanuts

:Fried Peanuts：炸花生

油氽花生 fried peanuts | 炸花生 fried peanuts | 烤花生 baked peanuts