1)qSMBC微生物熵
1.Changes of Soil Microbial Biomass C and qSMBC during Degraded Karst Forest Restoration in Guizhou Plateau贵州高原退化喀斯特森林恢复过程中土壤微生物生物量碳、微生物熵的变化
英文短句/例句
1.Short-term influences of winter crops on microbial biomass carbon,microbial biomass nitrogen and C_(mic)-to-C_(org) in a paddy soil冬季作物对稻田土壤微生物量碳、氮和微生物熵的短期影响
2.Changes of Soil Microbial Biomass C and qSMBC during Degraded Karst Forest Restoration in Guizhou Plateau贵州高原退化喀斯特森林恢复过程中土壤微生物生物量碳、微生物熵的变化
3.Responses of soil microbial biomass C and N and respiratory quotient(qCO_2) to revegetation on the Loess Hilly-Gully region黄土丘陵区草地土壤微生物C、N及呼吸熵对植被恢复的响应
4.plant microbial biochemistry植物微生物生物化学
5.Evaluation and Application of Production Logistics Based on Entropy Models in Discrete Manufacturing Enterprise;离散制造企业生产物流的熵模型评价及其应用
6.Technology Innovation Decision Model for Bio-pharmaceutical Enterprises Based on Entropy;基于熵的生物制药企业技术创新决策模型研究
7.microbial physiobiochemistry微生物生理生物化学
8.biochemistry of microbial toxin微生物毒素生物化学
9.skin microbiology皮微生物学 -动物皮微生物学
10.Biological mechanics mechanism of spondylodynia formation and the "entropy increase principle"脊椎病形成生物力学机制及其生命系统的“熵增原理”
11.Microbial Control of Meats肉类微生物学(九) 肉类微生物的控制
12.microbial quality of effluents流出物的微生物质量
13.Biological Cell Image Segmentation Based on the Simplified PCNN Model and Entropy Maximization基于简化PCNN模型及信息熵最大准则的生物细胞图像分割
14.Role of configurational entropy in molecular sieving through nanofilter arrays熵受限在纳流控生物分子分离系统中的应用(英文)
15.Evaluation of Grassland Ecological Security in Heihe River Basin Based on Entropy-weight and Matter-element Model基于熵权物元可拓模型的黑河流域草原生态安全评价
16.Ultrasound biomicroscopy for diagnosis of mini-foreign body around ciliary body超声生物显微镜诊断睫状体微小异物
17.Biopharmaceutical, Strains Filtration, Microorganism Fermentation and Downstream Biological Separation Techniques.生物制药、微生物菌种筛选、微生物发酵和生物下游分离技术。
18.Characteristics and Prospect of Microorganism in Coastline Halophytic Vegetation潮间带盐生植物生境微生物药用前景
相关短句/例句
biological entropy change生物熵变
3)biological entropy生物熵
1.Using the theory of dissipative structure to analyze changes of biological entropy in vital process,we build normal vital process\'s the mathematical model of biological entropy change,analyze change in value of the model,and discuss the trend and the reason of the change of negentropy and entropy production in vital process.利用耗散结构理论通过生物熵在生命过程的变化分析,建立了正常生命过程的生物熵变数学模型,并对模型的数值变化进行了分析,探讨了生命过程中负熵流与熵增的变化趋势以及原因。
4)biological information entropy生物信息熵
1.From the viewpoint of the interaction of material and the whole methodology in traditional Chinese medicine,presenting the concepts of biological information entropy and biological field,which may be used to interpreting the exterior circle factor of the exterior circle excitation hypothesis.概述了现代经络的研究现状与前瞻,从物质相互作用和中医学整体观方法论的角度出发,提出用生物信息熵及其场来分析外周动因激发假说中的外周动因问题。
5)biological resource system entropy生物资源系统熵
1.The concept of biological resource system entropy and its calculation method are proposed and discussed in this paper.将热力学熵概念和耗散结构理论应用于生物资源研究中,阐明生物资源系统熵的概念、计算方法和在生物资源研究中的意义。
6)biomass distribution entropy生物量分布熵值
1.The results indicate that:the biomass distribution entropy became.以森林生物量分布为基础,利用熵差原理计算了华北土石山区森林生物量分布熵值,并分析了其值随林分生长及选取尺度增大的变化规律。
延伸阅读
微生1.细小的生命;卑微的人生。 2.复姓。春秋时鲁有微生高(《汉书.古今人表》作尾生高)﹑微生亩。见《论语.公冶长》﹑《论语.宪问》。
