1)allometry[英][?'l?m?tri][美][?'lɑm?tr?]异速生长
1.Effects of enhanced ultraviolet-B irradiance on size hierarchy and allometry of wheat and millet in greenhouse;温室条件下增强UV-B辐射对小麦、谷子大小等级性和异速生长的影响
2.Phenotypic plasticity,allometry and invasiveness of plants;植物的表型可塑性、异速生长及其入侵能力
3.Effects of enhanced UV-B radiation on morphology, physiology and allometry of Amaranthus retroflexus;增强紫外-B对反枝苋的形态、生理及异速生长的影响
英文短句/例句
1.An Allometric Analysis of the Shandong Urban System Using Ideas from Fractals;山东省城市人口-城区面积的异速生长特征探讨
2.AN ALLOMETRIC ANALYSIS OF THE CHANGCHUN SYSTEM OF TOWNS:1949-1988长春地区城镇体系时空关联的异速生长分析:1949~1988
3.Allometric Analysis on the Weight of Metacarpals and Metatarsals of Macaca mulatta in Taihang Mountains太行山猕猴掌骨和跖骨重量与颅长的异速生长分析
4.The Regulatory Research of Allomertric Exponent and Plant Interaction in Arabidopsis Thaliana Population;拟南芥异速生长指数和个体相互作用的调控规律研究
5.The spatial complexity of the law of allometric growth and urban population density;城市密度分布与异速生长定律的空间复杂性探讨
6.AN ALLOMETRIC ANALYSIS OF THE HOHEHOT URBAN SYSTEM: USING THE INDUSTRIAL AND AGRICULTURAL OUTPUT DATA;呼和浩特地区城镇体系工农业发展能力的异速生长分析
7.Derivations of Beckmann s Allometric Growth Equation from Beckmann′s Class-Size Model of City Hierarchies;Beckmann城市体系异速生长模型的理论基础与实证分析
8.Effects of Enhanced Ultraviolet-B Irradiance on Physiology、Compositions、Resource Allocation、Construction Cost and Allometry of Amaranthus Retroflexus增强UV-B辐射对反枝苋资源分配与异速生长关系的影响
9.The study of the change in proportion of various parts of an organism as a consequence of growth.关于异速生长的研究对有机物生长结果不同组成部分比例变化的研究
10.The allometric models on the relationships between area and population of urban systems: underlying rationale, generalized equation, and empirical analyses;城市人口-城区面积异速生长模型的理论基础、推广形式及其实证分析
11.Yet only discernible variation is in growth rate.但仅在生长速度上能分辨的差异。
12.The differences in growth rate and phenology are large.在生长速度和物候学上的差异是大的。
13.Young Growth Variation and Selection of Fast-growing Taxus chinensis var. mairei Provenances南方红豆杉幼林生长种源变异和速生种源初选
14.Studies on the difference between the lines of high yield environmental petrol plant Euphorbia tirucalli Ⅰ.The difference of growth ratebetween the lines高产能源植物绿玉树品系间差异研究Ⅰ品系间生长速度差异
15.The phenotype environmental interaction was not found in the variations of growing rate of different strains of the Nile tilapia.未发现尼罗罗非鱼品系间生长速度差异有何表型—环境互作效应。
16.Enhancement of Nerve Regeneration Speed and Peripheral Nerve Defect Length Repaired with Chemically Extracted Acellular Nerve Allograft提高化学去细胞异体神经再生速度和修复长度的实验研究
17.A Fast Simplified Fluorescence-Based Method to Screen Specific RNAi Sequence of Connective Tissue Growth Factor快速直视筛选结缔组织生长因子特异RNA干扰序列
18.puberty growth spurt青春期快速生长 青春期快速生长
相关短句/例句
allometric growth异速生长
1.Development and allometric growth patterns of larval Acipenser schrenckii.;施氏鲟仔鱼发育及异速生长模型
2.The spatial complexity of the law of allometric growth and urban population density;城市密度分布与异速生长定律的空间复杂性探讨
3.The law of allometric growth and theoretical foundation of several suburbanization models;异速生长定律与城市郊区化的分维刻画
3)allometric[,?l?'metrik]异速生长的
4)allometric relationships异速生长方程
5)allometric model异速生长模型
1.The researches on self thinning pure stands for 40 years in the world were summarized and evaluated including self thinning rule, allometric model, mean individual weight density trajectory during the course of self thinning, species self thinning line and dynamic thinning line, the relationship between the slope of self thinning line and biomass, the relationship between the self thinning and co.评述 4 0 a来世界上有关纯林自然稀疏的研究内容 ,包括了自然稀疏法则 ,异速生长模型、平均个体重与密度的时间轨线 ,种的自然稀疏线和自然稀疏动力线的关系 ,自然稀疏线的斜率与生物量的关系 ,自然稀疏与竞争密度效果的关系 ,自然稀疏的机
6)allometric scaling异速生长权度
延伸阅读
速生豆芽制作方法1.选择豆种:培育豆芽菜应尽量选用当年生或隔年生、完全成熟的新鲜豆种,同时力求颗粒饱满、色泽鲜艳、不受机械损伤及病虫危害等,并且要贮藏在低温、干燥的环境中,常用的选种方法有筛选、风选、水选和人工选等。2.育前处理:促进种子发芽,通常采用“启动处理”和“浸种处理”。启动处理的方法是:经过预选后的豆粒,在送进育芽容器之前,一般先倒入60℃的热水中,浸泡1~2分钟,随后用冷水淘洗1~2次,目的是为了调整与豆粒种子发芽时有关的氧化酶系的活性,给休眠状态的种子以温度刺激,有助于豆粒发芽整齐一致。浸种处理的方法是:1千克绿豆或黄豆约需1千克水,豆粒浸种的最适合水温为20~23℃。冬天浸种时,一般用温水浸泡,夏天可以用冷水直接浸种,豆粒浸种时间一般约需8~12小时。3.育芽温度:黄豆和绿豆的种子都属于喜温、耐热的蔬菜作物种子,其豆种发芽时的最低温度为10℃,最适宜温度为21~27℃,最高温度为28~30℃,不宜超过32℃,育芽中调节温度是采用浇水的办法,比如夏季气温过高,应用冷水普遍浇淋豆芽,但要注意浇透培育容器中心部分的芽菜,使它降低温度,冬天气温低,应用温水浇淋,以提高培育中的豆芽温度,同时要尽量减少冷空气的流通。家庭少量培育豆芽菜,冬天可将培育容器放在炉旁、灶头保温。4.淋水催芽:育芽时的淋水方法一般有两种:一种淋洒法,要求每次淋水时水量要多,同时应该将整个容器内的豆芽菜普遍淋透,务必使整个容器中各部分芽菜的热度调节均匀,直至流出来的水温与淋入时的水温一致为止。另一种是采用灌水法,将水灌满整个容器,并使水面高出豆芽表面2厘米左右,让容器内的豆芽普遍浸在水中,然后再把水全部放走或倒净。这样重复浇灌1~2次,直至容器中各部分的芽菜温度调节一致为止。5.适时采收:采收最适合在豆芽菜生长发育至胚茎充分伸长,而真叶将露或始露时为最佳,此时胚茎长约5~6厘米,根长约0.5~1.5厘米,豆瓣呈蛋黄色,胚茎显得乳白晶亮,始露的真叶呈乳黄色,不生侧根。此时,每千克绿豆可产7~8千克绿豆芽,每千克黄豆可产4~5千克黄豆芽。
