尖吻蝮人工养殖灌喂技术研究

目的探讨采用灌喂器人工灌喂尖吻蝮技术的可行性。方法采用湖南京湘源蛇类养殖有限公司自主研制的灌喂器人工灌喂尖吻蝮,观察记录随机抽取的30条尖吻蝮幼蛇及30条尖吻蝮成蛇在机器灌喂后每条幼蛇的体重数据,每3个月测量1次,观察12个月统计尖吻蝮的体重增长情况,并与常规灌喂方法饲养的尖吻蝮进行比较。结果灌喂器饲养的尖吻蝮幼蛇成活率为86.67%,平均体重达（482.39±40.19）g;灌喂器饲养的尖吻蝮成蛇成活率为96.67%,平均体重达（1346.13±117.51）g。而同期常规灌喂技术饲养的尖吻蝮幼蛇全部死亡,尖吻蝮成蛇成活率为76.67%,平均体重（878.56±82.39）g。结论人工灌喂器饲养的尖吻蝮幼蛇及成蛇的体重增长快速,成活率高,值得推广。     

尖吻蝮幼蛇就地和异地人工养殖研究

目的研究尖吻蝮（Deinagkistrodon acutbus）幼蛇在人工养殖过程中的技术难关,探讨尖吻蝮幼蛇生长缓慢的原因,以提高幼蛇的成活率和生长率。方法采用湖南省永州市野生尖吻蝮种蛇产卵孵化的幼蛇,在原产地永州与非原产地广西南宁进行幼蛇的人工饲养对比实验,观察在不同地域人工饲养的尖吻蝮幼蛇的生长速度。结果尖吻蝮幼蛇在本地及异地人工饲养均获得成功,尤其以南宁人工饲养的幼蛇最为明显,2010年9月饲养至2011年8月,幼蛇均重从（13．8±1．8）g增长至（198．8±80．6）g,最重的个体体重达350g。两地饲养的幼蛇均可自行捕食中华蟾蜍、老鼠及活小鸡、鸭苗,仅用1年时间将野生尖吻蝮子代幼蛇人工饲养成功。结论尖吻蝮幼蛇在本地及异地人工饲养是可行的。     

温度和卵大小对尖吻蝮幼蛇孵化及存活率影响的研究

目的研究尖吻蝮（Dienagkistrodon acutus）幼蛇成活率低的原因,观察不同温度条件和不同卵大小对尖吻蝮幼蛇的孵化、幼体特征、转化率、幼蛇存活率的影响。方法将不同窝尖吻蝮蛇卵按产卵日期相差不超过1天分为同一组,每组随机选择不同的温度进行孵化,采用隔水式恒温培养箱进行控温,以常温孵化作为对照试验,幼蛇出壳后采集相关试验数据并进行分析。在环境条件、养殖模式和养殖方法相同情况下对幼蛇饲养3个月,然后统计各组成活率。结果尖吻蝮幼体的孵化和幼体特征及存活率与孵化温度条件有明显相关性,孵化温度越高,孵化期越短,畸形率越高,蛇卵重量转化为幼体体重的转化率越低,3月龄幼蛇存活率越低。较大的尖吻蝮蛇卵孵出的幼蛇个体较大,生存力较强,存活率较高。结论尖吻蝮幼蛇的存活率与孵化温度条件及蛇卵重量大小有明显相关性,较适宜的孵化温度为24-26℃,蛇卵越大幼蛇存活率越高。     

圈养尖吻蝮雌体大小、窝卵数和卵大小之间的关系

尖吻蝮(Deinagkistrodon acutus)野生资源日益枯竭,食用和药用压力巨大,亟需开展人工养殖。目前尖吻蝮的人工养殖技术还不够成熟,大多数养殖场采用半地下室饲养尖吻蝮,有关该条件下尖吻蝮的繁殖特性报道较少。为促进尖吻蝮的人工养殖,2010年4—9月,在湖南永州市对半地下室圈养的尖吻蝮成体的体型指标、窝卵数、窝卵重、卵重等繁殖特征之间的关系进行了研究。结果表明:圈养尖吻蝮成年雌体产单窝柔性卵,平均窝卵数为23.0±7.8(13—37)枚(n=23);将产后雌体体重和窝卵重相加记为产前雌体体重,采用SPSS 13.0软件处理数据,设置α=0.05和α=0.01,发现产前雌体体重分别与窝卵数、窝卵重、卵重均呈显著相关性;产前雌体体长分别与窝卵数、窝卵重、卵重无显著相关性;窝卵数与卵重无显著相关性,卵重分别与卵短径、卵长径均呈显著相关性。产前体重在1000—1200 g之间的雌蛇所产窝卵数和单枚卵重的数值均较大且最集中,这保证了雌体繁殖输出后代的生存优势,对尖吻蝮人工养殖挑选雌性种蛇有一定的指导意义。     

尖吻蝮(Deinagkistron acutus)生长过程不同时期排毒量及蛇毒组分的变化

对人工培育的4个年龄段尖吻蝮蛇毒和野生成体尖吻蝮蛇毒进行了聚丙烯酰胺凝胶电泳分析.结果显示3龄以前尖吻蝮蛇毒蛋白电泳图谱,无论是在分带、泳动率及相应组分的量等方面,均呈现一定的差异,但随着尖吻蝮蛇龄的增长,蛇毒蛋白电泳图谱与野生成蛇蛇毒蛋白电泳图谱越来越接近.3龄尖吻蝮生长发育达到性成熟,其蛇毒蛋白电泳图谱与野生成蛇趋于一致.蛇毒组分的变化,提示了尖吻蝮的生长发育进程.     

尖吻蝮幼蛇饲养技术

尖吻蝮又名蕲蛇、祁蛇、五步蛇、棋盘蛇,喜生活在１００～１３５０ｍ高山区,唯我国特有品种。近年来,因大肆捕捉,野生资源大为减少,难以满足社会需求。因此,发展人工养蛇,特别养幼蛇,具有广阔发展前景。现介绍尖吻蝮孵化和幼蛇人工饲养技术：１孵化尖吻蝮为卵生蛇...     

尖吻蝮（Deinagkistrodon acutus）生长过程不同时期排毒量及蛇毒组分的变化

对人工培育的4个年龄段尖吻蝮蛇毒和野生成体尖吻蝮蛇毒进行了聚丙烯酰胺凝胶电泳分析。结果显示：3龄以前尖吻蝮蛇毒蛋白电泳图谱,无论是在分带、泳动率及相应组分的量等方面,均呈现一定的差异,但随着尖吻蝮蛇龄的增长,蛇毒蛋白电泳图谱与野生成蛇蛇毒蛋白电泳图谱越来越接近。3龄尖吻蝮生长发育达到性成熟,其蛇毒蛋白电泳图谱与野生成蛇趋于一致。蛇毒组分的变化,提示了尖吻蝮的生长发育进程。     

尖吻蝮幼蛇开口率的影响因素研究

目的了解人工养殖的不同体重尖吻蝮初生幼蛇对不同种类、重量食物的选择性,分析影响尖吻蝮幼蛇开口率的因素。方法将刚孵化出的尖吻蝮幼蛇按体重抽样分组,分别投入棘胸蛙幼蛙、多疣壁虎和小白鼠进行饲喂,统计不同体重的幼蛇对不同食物的偏好性、幼蛇对不同特征食物的选择性以及不同食物的损耗率。结果尖吻蝮幼蛇总开口率达98.33%,不同食物的开口率有显著性差异;在不同食物的分组开口实验中,投喂幼蛙的幼蛇开口率达95.0%,投喂壁虎的幼蛇开口率达60.0%,投喂乳鼠的幼蛇开口率仅15.0%。不同初生体重的幼蛇投喂壁虎、乳鼠的开口率差异显著,而投喂幼蛙的开口率差异无显著性。结论初生体重对幼蛇的进食能力有显著影响,尖吻蝮幼蛇开口食物应以幼蛙为主,壁虎为辅。     

尖吻蝮自然越冬洞穴的结构观察

为了解决尖吻蝮在人工饲养条件下难以安全越冬的问题 ,在黄山地区对尖吻蝮的自然越冬进行了数年的调查 ,陆续观察了 2 3个越冬洞穴的结构。初步总结了尖吻蝮自然越冬的生态 ,并用数据和图示方式较详细地报道了尖吻蝮自然越冬洞穴的构造 ,介绍了人工饲养过程中保证尖吻蝮安全越冬的管理方法。     

蛇油化学成分的研究

蛇油的应用在我国有悠久的历史,李时珍在《本草纲目》中记载了蛇油的功效:蛇脂“绵裹塞耳聋,亦傅肿痛”,又“摩着物皆透也”。民间常用蛇油治疗冻疮、皲裂、湿疹及水火烫伤。蛇油的现代研究,已见文献及产品。作者以尖吻蝮蛇油为原料制成了“黄山蛇油膏”,用于临床治疗冻疮显效率753%,总有效率94%,治疗手足皲裂显效率90%,总有效率98%。为深入研究蛇油成分,更好地开发蛇油制品,作者对尖吻蝮蛇油及以混合蛇油为原料制成的“黄山蛇油膏”的主要脂肪酸进行了定性、定量分析。1　实验材料尖吻蝮蛇油　取成体尖吻蝮10条,放血致死,取蝮腔内脂肪,洗净…     

Characteristics of the membranes of the pellicle of the ciliatePseudomicrothorax dubius

Summary The membranes of the pellicle of the ciliatePseudomicrothorax dubius are investigated using thin section electron microscopy and freeze-fracture replicas. The plasma membrane is covered by a surface coat and is connected to the outer alveolar membrane by short, sometimes branched, bridges. The inner alveolar membrane is coated on both sides. The epiplasm lies in intimate contact with the cytoplasmic surface of this membrane, and there is a corresponding deposit on the other surface. This deposit is regularly striated.The epiplasmic layer and the alveoli are interrupted at sites of cytotic activity,e.g., the attachment sites of trichocysts, the cytoproct, and the parasomal sacs. The striated deposit ends where the epiplasm ends, indicating a direct relationship between these two epimembranous layers.There is a deposit along the sides of the first part of the tip of the trichocysts, and in this region the trichocyst membrane is free of intramembranous particles.The membrane of the parasomal sacs has a coat on both surfaces. That on the extraplasmic surface is similar to the surface coat of the plasma membrane. The origin of the cytoplasmic coat is unknown. The cytotic activity of these sacs is indicated by their highly irregular profiles.     

The early development of the tail and the transformation of the shape of the nucleus of the spermatid of the domestic fowl,Gallus gallus

Summary The differentiation of the spermatid, especially in reference to the formation of the flagellum, and transformation of the shape of the nucleus was investigated in the domestic fowl.In the early stage of the spermatid, a prominent Golgi apparatus appears around the centrioles. The Golgi vesicles then surround the axial-filament complex which develops from the distal centriole. These vesicles fuse to form continuous membrane at the earliest stage of flagellar formation, and in the succeeding stage Golgi lamellae are attached to the plasma membrane of the developing flagellum. From these observations, it is assumed that Golgi apparatus may be a source of the membrane system of the flagellum.The microtubules distributed around the nucleus form the circular manchette. The anterior region of the nucleus with the manchette is cylindrical in shape and the posterior region without it remains irregular in shape. When the circular manchette has been completed, the whole nucleus acquires a slender cylindrical shape. The circular manchette then changes into the longitudinal manchette. The nuclei of spermatids without a longitudinal manchette are abnormal in shape. In view of these observations it is assumed that the nuclear shaping of the spermatid may be accomplished by circular manchette and the maintenance of shape of the elongated nucleus by longitudinal manchette.The authors wish to thank Mr. Takayuki Mori for his helpful suggestions and technical advices     

Characterization of the composition of the aqueous humor and the vitreous body of the eye of the frog Rana temporaria L

This study aimed to analyze the aqueous humor (AH) and the vitreous body (VB) of the eye of the adult frog Rana temporaria L. as a representative species of amphibians, which lead a semi-terrestrial life. The presence of collagen, albumin, uric acid and electron donors was shown in both media; however, there are slight differences in their concentrations. To determine collagen, a spectral-fluorescent probe, cyanine dye, was used. The presence of collagen in AH of the frog was found at the first time. The total content of electron donors (ascorbic and uric acids, tryptophan, and tyrosine) in VB and HA was roughly estimated at ~ 1.5 × 10^− 4 mol/L. Both VB and AH absorb light in similar UV regions. The total protein and albumin contents in AH were found to be somewhat higher than those in VB. The uric acid content was at an equally low level in both intraocular media. It is supposed that the similarity of VB and AH compositions shown in this work is due to some exchange between VB and AH contents in the course of accommodation. The role of intraocular fluids in physiological functions of the eye and in protecting the retina against UV light is discussed.