1) Fenshuling
鼢鼠灵
1.
Contrast Experiment on control Chinese Zokor with Fenshuling and the Other Medicines
鼢鼠灵与其它药物防治中华鼢鼠对比试验
2) zokor
鼢鼠
1.
Sequences analysis of mtDNA D-loop region in four zokors species;
4种鼢鼠线粒体DNA D-loop区全序列分析
2.
Dynamics of age structure and breeding characteristics of zokor population in the improved secondary forests;
次改林地鼢鼠种群年龄结构和繁殖特性动态研究
3.
An experiment with several rodenticides on zokor control;
化学药剂根际浇灌和蘸根造林防治鼢鼠的试验研究
3) zoker
鼢鼠
1.
Analysis on structure of tunnel of zoker with principle of architectural engineering;
鼢鼠洞道结构的建筑工程学分析
2.
Chemical control was used at the begining to reduced the density of zoker,mechanical control,then,would follow to kill the remains.
以化学防治为开端,迅速压低鼢鼠口密度,以人工机械捕杀残留鼠,生物措施巩固防治效果,使害鼠种群数量始终维持在经济阈值以下。
3.
On the basis of population ecology of zoker, the tactics and the scheme about integrated pest management of forest zoker were proposed.
以林区鼢鼠种群生态学为基础 ,提出了林区鼢鼠的综合管理策略和方案。
4) plateau zokor(Myospalax baileyi)
高原鼢鼠
1.
Research on anti-oxidative effects of fat soluble component in muscle of Plateau Zokor(Myospalax baileyi);
高原鼢鼠肌肉超临界萃取物抗氧化效果研究
2.
Seasonal changes of myoglobin in cardiac and skeleton muscle of Plateau Zokor(Myospalax baileyi);
高原鼢鼠心肌和骨骼肌肌红蛋白含量的季节变化
3.
Quantitative analysis of linoleic acid in lipid of Plateau Zokor(Myospalax baileyi);
高原鼢鼠油脂中亚油酸含量定量分析
5) Myospalax baileyi
高原鼢鼠
1.
Study on the nutritive components and value of Myospalax baileyi;
高原鼢鼠营养成分及价值研究
2.
Nuclear Ribosomal RNA Small Subunit (18S rRNA) Nucleotide Sequencing and Characterization of Sailonggu(Whole Bone of Myospalax baileyi Thomas);
塞隆骨原动物高原鼢鼠核基因18S rRNA序列测定与分析
3.
Nuclear Ribosomal RNA Small Subunit (18S rRNA) Nucleotide Sequencing and Characterization of Sailonggu(Whole Bone of Myospalax baileyi Thomas);
塞隆骨原动物高原鼢鼠核基因18SrRNA序列测定与分析
6) Myospalax cansus
甘肃鼢鼠
1.
Test on the Control of Myospalax cansus Harm to Forest in Yuanzhou Area of Guyuan City;
固原市原州区甘肃鼢鼠对森林的危害调查与综合防治试验
2.
In order to study the adaptive evolution of the fossorial life of rodent, three different phenotypic rodents including typical subterranean rodent Myospalax cansus, semi-subterranean rodent Lasiopodomys mandarinus and surface-dwelling rodent Mus musculus were selected to analysis their digging efficiency in this study.
以甘肃鼢鼠(Myospalax cansus)、棕色田鼠(Lasiopodomys mandarinus)和小鼠(Mus musculus)为对象,对其尺骨、桡骨和肱三头肌结构进行了比较,并通过力学模型,对这三种生活类型鼠类前肢的挖掘效率进行分析。
补充资料:鼢鼠
鼢鼠 Myospalacinae;mole-rats 啮齿目仓鼠科鼢鼠亚科的通称。体型粗壮,体长15~27厘米;吻钝,门齿粗大;四肢短粗有力,前足爪特别发达,大于相应的指长,尤以第三趾最长,是挖掘洞道的有力工具;眼小,几乎隐于毛内,视觉差,故有瞎老鼠之称;耳壳仅是围绕耳孔的很小皮褶;尾短,略长于后足,被稀疏毛或裸露;毛色因地区而异,从灰色、灰褐色到红色。共1属6种,分布于中国中部和北部,以及西伯利亚和蒙古国。 鼢鼠为地下生活的鼠类。栖息于森林边缘、草原和农田,在中国青海地区还可栖于海拔3900米的高山草甸。昼夜均活动,但白天只限于地下,夜间偶尔到地面寻食。吃植物的根、茎和种子。有贮存食物的习性。不冬眠。挖掘洞道速度惊人,洞穴构造复杂,长而多分支,总长度可达100余米。洞口外有许多排列不规则的土堆,是由洞道内挖出的松土。平时地面无明显的洞口,如洞道遭到破坏,立即用土堵塞,这是它们防御敌害的一种本能。鼢鼠挖洞活动受气候影响显著。3~9月繁殖,年产2胎,每胎产仔1~8个。中国北部常见的为中华鼢鼠。鼢鼠因贮食和挖掘复杂的洞系,是农牧业害兽之一。 |
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
参考词条