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依赖粪便材料的大熊猫肠道耶尔森氏菌的检测 总被引:2,自引:0,他引:2
It is inevitable to develop noninvasive sampling methods to do studies on giant panda even diagnose the diseases since which is so endangered that it's impossible to carry out invasive sampling. A non-invasive sampling method to detect the intestinal pathogen, Yersirda enterocolitica in feces of pandas based designing PCR primers was established in this study. The main procedures are based on bacteria enrichment and cell lysis before binding the pathogen DNA to silica powder at high concentration of Kalium iodide and neutral pH conditions. Before PCR cycles, the binded DNA is washed with 80% ethanol and eluted with diluted EDTA buffer. Restdts showed that the silica-based feces DNA-purification method could remove the inhibitors of PCR so applicable to detect the target pathogen. 相似文献
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笼养朱鹮繁殖期的鸣声特征 总被引:2,自引:0,他引:2
于2005年4月采集到笼养朱鹮(Nipponia nippon)4种行为状态的鸣叫声,对其繁殖期求偶鸣叫、交尾鸣叫、假交尾鸣叫和惊叫的鸣声特征进行了分析,探讨了不同行为状态的鸣声差异。求偶鸣叫振幅小,主要频率范围在156±13.2 Hz-1 568±120.3 Hz之间(n=30),声谱谐波丰富,频带呈直线型和拱型。交尾鸣叫由7-21声连续、急促的鸣叫和一声长鸣组成,声音宏亮有力,频域特征表现为主频呈现双峰,主要频率范围在346±16.7 Hz-2 396±138.2 Hz之间(n=14),音节高度重复并多有谐波。假交尾叫声有三种声模式,模式1包含2-10声短促鸣叫声和一声长鸣;模式2仅发出多声短促鸣叫声;模式3仅一声长鸣,频域特征在三种声模式下表现不同,模式1主频呈现双峰,模式2和模式3仅有一个峰值,主要频率范围在328±18.2 Hz-2 067±189.1 Hz之间(n=38),声谱多谐波,频带形状呈下滑状或直线状。遇险惊叫声信号振幅最大,每一声信号中包含多个脉冲组,惊叫声主频较高,主要频率范围在375-2 300 Hz之间,声谱多谐波,低频频带呈直线型,高频频带呈半拱形,声音末尾有明显的降调。 相似文献
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