1)ultradried seed storage超干种子贮藏
英文短句/例句
1.Studies on the Mechanism of Ultra-drying Tolerance of Rice Seed and Storage Stability of Ultra-dried Seed;水稻种子耐干性机理和超干种子贮藏稳定性的研究
2.Studies on Ultradry Storage and Mechanisms of Desiccation Tolerance of Rice Seeds;水稻种子超干贮藏及耐干性机理研究
3.Physiological Studies on Ultradrying Storage of Sunflower、Collard and Pansy Seeds;向日葵等草花种子超干贮藏生理研究
4.Studies on the Physiological and Biochemical Characteristics on Utradrying Storage of Celery (Apium Graveolens L.) Seeds;芹菜(Apium graveolens L.)种子超干贮藏的生理生化特性研究
5.Studies on Ultra-dry Storage and PEG Priming Methods of Turfgrass Seeds;草坪草种子超干贮藏及PEG引发方法的研究
6.Studies on the Seed Ultradry-tolerance and the Prolongation of Storage Longevity;种子超干耐性及其延长贮藏寿命的研究
7.Physiological Effect of Ultra Dried Seed during Storage on Ceratoides Arborescens;华北驼绒藜种子超干贮藏效应及其生理基础
8.Studies on the Physiological and Biochemical Characteristics of Ultradried Onion (Allium Fistulosum L.) Seeds during Storage大葱(Allium fistulosum L.)种子超干贮藏的生理生化特性研究
9.Effects of ultradrying storage on vigor and antioxidase activity of Cichoriun intybus seeds超干贮藏对菊苣种子活力与抗氧化性的影响
10.The Optimum Moisture Content Range of Ultra-dry Storage for Different Type of Seeds不同类型种子超干贮藏的最佳含水量范围
11.Effects of Ultra-dry Treatment on Vigor and Physiological Characteristics of Pinus tabulaeformis Seeds油松种子超干贮藏生理生化特征的研究
12.SEED VIGOUR OF BRASSICA ALBOGLABRA BAILEY UNDER DIFFERENT STORAGE CONDITION AND ULTRA-DRY TREATMENT不同贮藏条件和超干处理对芥兰种子活力的影响(简报)
13.The Physiological and Biochemical Study of Psathrostachys Perinnis and Hedysarum Laeve Maxim Seeds during Ultra-dried Storage新麦草、塔落岩黄芪种子超干燥贮藏生理生化研究
14.Effects of Ultra-dry Storage on Germination and Physiological and Biochemical Characteristics of Eucalyptus globulus Seeds超干燥贮藏对蓝桉种子发芽及生理生化特性的影响
15.Studies on Effect of Storage after Lettuce Seed Priming and Dehydration莴苣种子引发回干后贮藏效果的研究
16.Effect of Storage Temperature,Water Content and Drying Method on the Storage Capacity of Sect.Aigeiros Poplar Seeds贮藏温度、含水量及干燥方法对黑杨派杨树种子耐贮性的影响
17.Tree seed storageGB/T10016-1988林木种子贮藏
18.Studies on the Physiological and Biochemical Mechanism and Differential Expression of Genes of Ultradried Seeds;种质超干燥贮藏的生理生化特性及差异基因表达的研究
相关短句/例句
ultra-dry storage超干贮藏
1.Studies on spinach seeds physiological characteristics of aging-resistance after ultra-dry storage;菠菜种子超干贮藏后抗老化作用的生理特性
2.This investigation was to determine whether cotton seed vigour can be kept at a higher level and whether storage characteristics can be improved by ultra-dry storage, and to explore the physiology mechanism of ultra-dry storage.超干贮藏后,由于硬实率明显提高,直接发芽测定结果表明,超干种子的发芽力、活力低于常规贮藏种子;而破除种皮限制后,超干种子发芽力、活力高于常规贮藏种子。
3.They were tested by ways of ultra-dry storage and seed priming.本试验选用高羊茅(美洲虎 3 号(1)、美洲虎 3 号(2)、全体、爱瑞 3 号)、多年生黑麦草(爱神特)、草地早熟禾(公园)、普通狗牙根(脱壳和未脱壳两种)等 8种草坪草种子为材料,进行超干贮藏和种子引发研究,通过分析贮藏前后草坪草种子各种活力指标的变化,探讨不同类型及品种草坪草种子常温贮藏和低温贮藏适宜的低水分值或超低水分值;研究 PEG 引发对草坪草种子萌发及活力的影响,探讨草坪草种子 PEG 引发的适宜方法。
3)Ultradry seed storage超干贮藏
4)Ultradry storage超干贮藏
5)ultra dry storage超干贮藏
1.Conception of ultra dry storage was introduced in this paper.对种子超干贮藏研究的概念进行了介绍 ,并就种子超干贮藏中的主要问题 ,包括研究材料、检测方法和膜的损伤及修复等进行了综述 ,提出了今后研究方
6)seed storage种子贮藏
1.The technology of seed storage and seed treatment is one of the key technologies in forest tree introduction.种子贮藏技术和种子处理技术是林木引种工作中最为关键的技术之一。
2.In this paper,the seed storage and germination capacity of Emmenopterys henryi are studied in the following way:set normal temperature,5℃and -5℃for its storage,and then the germination tests are taken at different time and under different conditions.对黄山地区香果树种子贮藏及发芽能力等进行了研究,设置常温、5℃、-5℃三种温度进行贮藏,在不同时期、不同条件下,分别对其进行发芽试验,结果表明5℃是香果树种子贮藏的最佳温度。
3.A three year s trial was conducted on its seed storage under dry condition,in package sealed or not and under a serial temperature treatment respectively.本研究设置干燥、布袋与保鲜袋包装以及系列温度处理 ,开展了 3 a西南桦种子贮藏试验。
延伸阅读
干茧贮藏(cocoon storage) 干茧贮藏(cocoon storage) 将干茧进行合理贮藏,防止受潮、发霉、变质和虫伤鼠害,以保全茧质,为常年缫丝生产提供所需优质原料茧的一项技术措施。 茧库应具备地势高燥并有能防潮、密闭和换气等条件。干茧进仓时,适士茧包可堆成纵横交错式的紧密大堆,以增加库内容量。底层地面上,应放置木制茧架,四周距墙50cm左右,以增进隔热、保温和防潮效果,并应适当留有运茧通道(宽约120cm)。堆包高度一般以10层为宜。 干茧极易吸湿受潮,滋生霉菌,为害茧质。吸湿特性是相对湿度在65%以下时,茧层吸湿大于干蛹;超过65%,则蛹体吸湿逐渐大于茧层。干茧的合理回潮率为11%左右,茧库的合理相对湿度为60-70%,控制此标准可以制止霉菌繁殖蔓延。在库内外温度相同,而库内相对湿度高于库外,或库内外相对湿度相同,而库内温度高于库外时可开启门窗,进行通风排湿。要经常保持库内温、湿度的相对稳定,防止激变多变,以免茧层因反复吸湿、放湿而逐渐加深其丝胶蛋白质变性程度,损害茧质。 为害干茧的霉菌主要有曲霉菌、青霉菌和白霉菌等。曲霉菌寄生茧,在茧层表面呈现淡灰绿色斑点或淡黄色的污斑,久则变暗褐或黄褐乃至黑褐;青霉菌寄生茧呈黄褐色;白霉菌寄生时蔓延极快,菌丝包蔽如绵,都严重损害茧质。 为害干茧的虫类,主要有属于鞘翅目的大谷盗,双带皮蠹及属于鳞翅目的棉红铃虫等。防治方法在干茧入库前采用化学杀虫剂杀除。
