大仓鼠消化系统的形态学研究

为了解大仓鼠(Cricetulus triton)消化系统形态结构及其与食性的关系,对大仓鼠的消化系统进行测量和分析。结果表明,大仓鼠的消化管总长度(899.04±91.30)mm,体长总长度(148.96±15.89)mm,其中雌、雄鼠的小肠分别占消化管总长的55.0%±10.0%、54.0%±2.0%;分别是体长的3.54±0.22、3.17±0.59倍。雌、雄大仓鼠的消化道重量、长度差异明显,小肠最为发达,并与其食性相适应。     

甘肃莲花山斑尾榛鸡的春季领域行为

斑尾榛鸡(Tetrastes sewerzowi)为我国特有松鸡科鸟类,仅分布于我国中西部地区的高山针叶林中,为国家Ⅰ级重点保护野生动物。斑尾榛鸡雄鸟在春季繁殖季节占据并保卫领域。2012年4~5月,在甘肃省莲花山自然保护区,利用录音回放和放置标本模型模仿入侵者的方法,研究斑尾榛鸡的领域行为,重点关注斑尾榛鸡雄鸟领域行为的个体差异,以及与配对时间和领域质量的关系。研究发现,斑尾榛鸡的领域行为依据对入侵者驱赶程度不同分为观察确认、警告、追逐、对峙、跳起打斗5个阶段。斑尾榛鸡领域行为中会发出警告鸣叫,分析表明可分为4种类型。通过对6只无线电遥测斑尾榛鸡个体的实验研究,发现其个体间领域行为的强弱存在显著差异;配对前后领域行为的强弱也存在显著差异;而这种竞争力与雄鸟领域内柳树盖度显著相关。     

四眼斑龟消化、呼吸系统的解剖

解剖测量了 8只成年四眼斑龟的消化系统和呼吸系统 ,结果表明 :消化管总长 ( 6 0 4 3± 99.2 )mm ,为背甲长的 3 75～ 5 77倍。舌不能伸缩 ;食管扩展性强 ;胃呈囊状 ,被肝叶覆盖 ;小肠较长 ,为消化的主要场所 ,约占消化道总长的 4 8% ;盲肠不发达。肝较大 ,重约 ( 14 12± 8 2 4 )g ,分左、中、右三叶 ,占体重的 6 %左右 ,绿色胆囊位于右叶小肝内 ;胰腺长条形 ,分布于十二指肠肠系膜内。肺长囊形 ,内壁有复杂的间隔 ,把内腔分隔成蜂窝状小室 ,紧贴在背甲的内表面 ,位于肩带和腰带之间 ;气管较长 ,由 6 5～ 85个软骨环连接而成 ;支气管较短 ,由 30～ 4 0个软骨环连接而成     

莲花山斑尾榛鸡春季栖息地选择

20 0 3年 3～ 4月 ,在甘肃省莲花山自然保护区 ,利用无线电遥测和直接观察 ,分析了斑尾榛鸡(Bonasasewerzowi)的栖息地选择特征。结果表明 ,斑尾榛鸡春季栖息地一般在东北坡向 ,并具有高大乔木、下层植被盖度较高、灌丛较丰富的特点 ,这与食物丰富度较高及环境隐蔽性较强有关。栖息地质量对于配对活动的成功与否有一定影响。分析表明 ,栖息地内 0 5～ 2 5m植被水平遮挡度、柳树数量、箭竹数量是影响斑尾榛鸡春季栖息地选择的关键因子。建议在对斑尾榛鸡栖息地采取保护措施时 ,不仅要保护原生乔木 ,还要加强对灌丛生境的保护。     

斑尾榛鸡的生态研究

1983—1985年在甘肃祁连山东段西营河林区对斑尾榛鸡指名亚种Tetrastes s.sewerzowi的生态和生物学进行了系统观察。本文报道斑尾榛鸡的栖息环境、活动规律、食性,繁殖习性及天敌等。     

莲花山的斑尾榛鸡

<正>和莲花山结缘要从榛鸡说起,榛鸡是适宜在寒冷森林中生活的松鸡科鸟类。中国有两种榛鸡,花尾榛鸡和斑尾榛鸡,两者有着最为紧密的亲缘关系,在学术上称为姐妹种。花尾榛鸡俗称飞龙,遍布欧亚大陆北部,包括中国的东北和新疆;而斑尾榛鸡则是中国特有鸟类,属于和大熊猫同一级别的国家Ⅰ级重点保护动物,生活在我国青藏高原东缘海拔2 500米至4 000米的高山针叶林中。1992年至1994年,在国家自然科学基     

画眉消化系统形态的初步观察

对8只(4♀,4♂)画眉消化系统的形态学作了初步的观察与研究,画眉的舌成细长三角形,前端有刺毛状结构,雌鸟的刺毛数目多且较细,雄鸟的刺毛则数量少,但是相对较粗大.舌后端有1～2排尖端后指的栉状突.雌雄鸟在舌前端正中央还有一"V"形的凹缺,雌鸟深约1.22 mm,雄鸟深约1.87 mm.食管管径较细,整体宽窄不等,无明显可见的嗉囊.腺胃乳突短而小,分布均匀,肌胃发达,具角质膜.肠道长与体长基本相等,小肠较发达,雌鸟小肠长178.53 mm,占肠道总长87.43%;雄鸟小肠长186.62 mm,占肠道总长89.01%.具有不发达的双侧盲肠,盲肠有未倒置现象.肝为体内最大的消化腺,分左右两叶,右叶又分一小叶.胰位于十二指肠袢内,细长形,分两小叶.并与同科的蓝翅希鹛、灰胸薮鹛进行了比较.     

黄缘闭壳龟消化系统、呼吸系统的解剖

黄缘闭壳龟消化管总长度为背甲长的3.5～4.2倍.食管和胃壁厚,扩展性强,内壁有数条纵行皱襞.小肠较长,约占消化管总长度的60.9%,无盲肠,肠内壁有大小不一的纵行皱襞.肝较大,为体重的4.8%左右.胰脏长条形,沿十二指肠分布.气管和支气管均由呈"O" 形完全闭合的软骨环和环间韧带所构成.气管较长,有45～55个软骨环;支气管较短,有30～40个软骨环.肺长囊形,蜂窝状,紧贴在背甲的内表面,从肩带一直延展到腰带.     

蒙原羚亚成体外部形态及消化道若干指标的测量分析

对在内蒙古自治区新巴尔虎右旗猎捕到的蒙原羚(Procapragutturosa)亚成体的外部形态及消化道若干指标进行了测量及分析,结果表明,蒙原羚亚成体的体重平均为27.47kg,体长平均为105.37cm,尾长平均为10.94cm,肩高平均为56.55cm。蒙原羚亚成体胃(含胃容物)的总重为5.26kg,占体重的19.15%;瘤胃(含胃容物)重(平均3.81kg)占胃总重的72.43%;肠道总长为2708.86cm,是体长的25·71倍;小肠总长为1909.87cm,占肠道总长的70.50%;大肠总长为798.99cm,占肠道总长的29.50%。蒙原羚亚成体兼有精饲者和粗饲者的特征。     

狗獾消化系统的解剖学研究

探索狗獾的消化生理,为狗獾的人工饲养技术研究提供基础依据,对3只雌性狗獾的主要消化器官进行了解剖学研究.结果表明,狗獾为单式胃,呈“U”形囊状,小肠为消化管中最长的一段,全长3557 mm,约为体长的5～6倍,十二指肠形似“(U)”形,空肠、回肠无明显的界限,空肠形成半径约88 mm的扇形肠袢.大肠不发达,全长170 mm,只有结肠和直肠,无盲肠,结肠无肠袋与纵带.消化腺较发达,肝脏很大,占据腹腔最前部位置.胰脏分左右两臂,左臂长于右臂.     

Effects of temperature and infection with Eimeria ochrogasteri on digestive organs of the prairie vole, Microtus ochrogaster

Prairie voles, Microtus ochrogaster, were infected with Eimeria ochrogasteri and exposed to 2 environmental temperatures, 5 and 22 C. Dry weights of the small and large intestines increased by 33% and 19%, respectively, in infected animals. Infected animals also exhibited a 14% decrease in cecal length compared to uninfected animals. The interaction between temperature and infection affected the length of the small intestine. Infected animals maintained at 5 C had longer small intestines than both infected animals housed at 22 C, and uninfected animals at 22 or 5 C. Furthermore, the dry weight of the small intestine was affected by a 3-way interaction (infection, temperature, and sex). Temperature affected stomach and liver dry weights, as well as lengths of the small intestine and cecum. Stomach and liver dry weights, as well as small intestine lengths, were greater in those animals held at 5 C, whereas cecum lengths decreased. Prepatency, patency, and total oocyst production were not affected by temperature; however, infected animals held at 5 C exhibited diarrhea during the patent period.     

Spatial dynamics of the bacterial community structure in the gastrointestinal tract of red kangaroo (<Emphasis Type="Italic">Macropus rufus</Emphasis>)

The quantification and community of bacteria in the gastrointestinal (GI) tract (stomach, jejunum, ileum, cecum, colon and rectum) of red kangaroos (Macropus rufus) were examined by using real-time PCR and paired-end Illumina sequencing. The quantification of bacteria showed that the number of bacteria in jejunum and rectum was significantly lower than that in colon and cecum (P < 0.05). A total of 1,872,590 sequences was remained after quality-filtering and 50,948 OTUs were identified at the 97 % similarity level. The dominant phyla in the GI tract of red kangaroos were identified as Actinobacteria, Bacteroidetes and Firmicutes. At the level of genus, the samples from different parts of GI tract clustered into three groups: stomach, small intestine (jejunum and ileum) and large intestine (cecum and rectum). Prevotella (29.81 %) was the most dominant genus in the stomach and significantly (P < 0.05) higher than that in other parts of GI tract. In the small intestine, Bifidobacterium (33.04, 12.14 %) and Streptococcus (22.90, 19.16 %) were dominant genera. Unclassified Ruminococcaceae was the most dominant family in large intestine and the total relative abundance of unclassified bacteria was above 50 %. In identified genera, Dorea was the most important variable to discriminate large intestine and it was significantly higher in cecum than in stomach, small intestine and colon (P < 0.05). Bifidobacterium (21.89 %) was the only dominant genus in colon. Future work on culture in vitro and genome sequencing of those unidentified bacteria might give us insight into the function of these microorganisms in the GI tract. In addition, the comparison of the bacterial community in the foregut of kangaroos and other herbivores and the rumen might give us insight into the mechanism of fiber degradation and help us exploit approaches to improve the feed efficiency and subsequently, reduce the methane emission from herbivores.     

Movements of female Sage Grouse Centrocercus urophasianus during incubation recess

We combined GPS data‐loggers, VHF transmitters and DVR video‐monitoring to measure fine‐scale movement patterns during daily incubation recesses by female Sage Grouse Centrocercus urophasianus, a species with uniparental incubation that has experienced widespread population decline and distributional contraction. Most (69.6%) Sage Grouse recess activity was highly localized within a core recess area averaging 2.58 ± 0.64 ha, and females remained within 242.3 ± 30.0 m from the nest during recesses (total recess areas were 11.06 ± 2.27 ha). Visually conspicuous Sage Grouse movements near nests at the start and end of recesses and consistent occupation of core recess areas point to a mechanism for newly abundant predators such as the Northern Raven Corvus corax to detect and depredate Sage Grouse nests. Our methods apply to other avian species of scientific interest and conservation concern.     

虎斑颈槽蛇肠道微生物组成和分布特征

蛇类是一种研究能量平衡的模型动物,而肠道微生物则帮助宿主获取能量和营养。大多数肠道微生物的研究集中在圈养动物上,而对于野生蛇类的研究很少。本研究从3只野生虎斑颈槽蛇（Rhabdophis tigrinus）的大肠、小肠和泄殖腔内容物提取微生物总DNA,进行16S rRNA基因V4区域扩增子测序,分析虎斑颈槽蛇肠道核心微生物组成和分布特征。结果表明,阿尔法指数在不同肠道区域的多样性不存在显著性差异。大肠、小肠和泄殖腔3个肠道部位共享534个操作分类单元（OTUs）,大肠包含最多特有OTUs（388个）。门水平,梭杆菌门（Fusobacteria）在小肠（52.87% ± 14.49%）、大肠（41.12% ± 22.60%）和泄殖腔（65.70% ± 10.44%）均为优势菌。属水平,鲸杆菌属（Cetobacterium）在小肠（46.36% ± 13.86%）、大肠（21.95% ± 9.82%）和泄殖腔（58.18% ± 14.29%）为优势菌,柠檬酸杆菌属（Citrobacter）在小肠和泄殖腔中有显著性差异。此外,在其肠道检测到很多潜在的致病菌,例如,柠檬酸杆菌属、明串珠菌属（Trichococcus）和丹毒丝菌属（Erysipelothrix）,了解了潜在致病菌在虎斑颈槽蛇肠道中的分布情况。在聚类分析中发现泄殖腔的数据重复性较好,将本研究泄殖腔数据与前人研究过的食鱼蝮（Agkistrodon piscivorus）泄殖腔高通量测序数据进行联合分析,为更广泛开展不同蛇类肠道微生物组成的差异性分析提供理论借鉴依据。     

Intestinal metabolism of T-2 toxin in the pig cecum model

T-2 toxin, a toxic member of the group A trichothecenes, is produced by various Fusarium species that can potentially affect human health. As the intestine plays an important role in the metabolism of T-2 toxin for animals and humans, the degradation and metabolism of T-2 toxin was studied using the pig cecum in vitro model system developed in the author??s group. In order to study the intestinal degradation of T-2 toxin by pig microbiota, incubation was performed with the cecal chyme from four different pigs in repeat determinations. A large variation in the intestinal degradation of T-2 toxin was observed for individual pigs. T-2 toxin was degraded almost completely in one out of four pigs, in which only 3.0?±?0.1?% of T-2 toxin was left after 24?h incubation. However, in the other three incubations with pig cecal suspension, 54.1?±?11.7?C68.9?±?16.1?% of T-2 toxin were still detectable after 24?h incubation time. The amount of HT-2 toxin was increased along with the incubation time, and HT-2 toxin accounted for 85.2?±?0.7?% after 24?h in the most active cecum. HT-2 toxin was the only detectable metabolite formed by the intestinal bacteria. This study suggests that the toxicity of T-2 toxin for pigs is caused by the combination of T-2 and HT-2 toxins.     

Histological study on intestinal diverticulum of tree shrew (Tupaia javanica).

Tree shrews possess an intestinal diverticulum. We investigated this diverticulum with histological and immunohistochemical methods to determine whether this diverticulum was cecum or not. The ratio of the length of diverticulum/small intestine was apparently shorter than that of several primates. In the histological study, mucous membrane of the small intestine was shifted to that of the large intestine at the junction of the diverticulum. Histological features of the diverticulum were similar to those of the large intestine, but the shape of mucousal surface was rather simpler than that of the large intestine. Immunohistochemical study revealed 5-HT positive cells in the bottom of crypts and CD3- and CD 8-positive lymphocytes in lymphoid nodules. These findings suggest that the tree shrew has a cecum with primitive characteristics.     

ANALYSIS OF INTESTINAL CELL PROLIFERATION AFTER GUANETHIDINE-INDUCED SYMPATHECTOMY

Rats were treated with guanethidine-sulphate every 48 hr from birth until 15 days and then maintained until young adulthood. Sympathectomy was verified by dissection and light microscopic preparation of the superior cervical and coeliac ganglia which showed at least a 78% reduction in the number of perikarya. The effect of the chemical sympathectomy was a decrease in the amplitude of the circadian mitotic rhythm from 44·7 to 27·1%, 67·0 to 25·3% and 54·9 to 24·7%, in the duodenum, jejunum, and ileum, respectively. The shape of the mitotic index curve was altered and the mean mitotic index was significantly decreased (P < 0·01) in all three segments of the small intestine. The mean mitotic index of control intestinal epithelium was 3·2 ± 0·1%, 3·6 ± 0·1% and 4·0 ± 0·1% in the duodenum, jejunum, and ileum, respectively, and 2·3 ± 0·1%, 2·4 ± 0·1%, and 2·5 ± 0·1% in guanethidine-treated rats. Stathmokinetic estimates of cycle time were obtained by use of the metaphase arrest agent, colchicine. The longest cell generation cycle time (T_c) and lowest mitotic index occurred between 12.00 and 16.00 hours and the shortest T_c and highest mitotic index occurred between 00.00 and 04.00 hours, in all three segments of the small intestine. Guanethidine-treatment lengthens T_c throughout the small intestinal epithelium and reduces the range of variation in T_c over a 24-hr period. It is suggested that norepinephrine depletion induced by guanethidine may be the cause of the inhibition in circadian periodicity and that norepinephrine and the sympathetic nervous system may be essential for the maintenance of circadian rhythms in mitotic activity.     

Changes in bacterial glycolipids as an index of intestinal lactobacilli and epithelial glycolipids in the digestive tracts of mice after administration of penicillin and streptomycin

The major lipid constituent of symbiotic gram-positive bacteria in animals are phosphatidylglycerol, cardiolipin and dihexaosyl diglycerides (DH-DG), whose hydrophobic structures are characteristic of the environments, and the carbohydrate structures of DH-DGs are bacterial species-characteristic. Immunization of rabbits with intestinal lactobacilli generated antibodies against DH-DGs and their modified structures, among which Galα1-6-substituted DH-DG, i.e., Lactobacillus tetrahexaosyl diglyceride (LacTetH-DG), reacted with antibodies more intensely than DH-DG. Whereas, from the 16S-rRNA sequence, the intestinal lactobacilli in murine digestive tracts were revealed to be L. johnsonii, in which LacTetH-DG is present at the concentration of 2.2 ng per 1?×?10⁶ cells. To obtain more accurate estimates of intestinal lactobacilli in several regions of the digestive tract of mice, LacTetH-DG was detected by TLC-immunostaining with anti-Lactobacillus antisera, being found in the stomach, cecum and colon of normal breeding mice, 1.0?×?10⁹, 3.5?×?10⁹ and 7.4?×?10⁹ cells, respectively. Administration of penicillin and streptomycin for 6 days resulted in a reduction in the number of intestinal lactobacilli, the levels being 0 %, 30 % and 4 % of the control ones in the stomach, cecum and colon, respectively, which was associated with the accumulation of the contents in the tracts from the stomach to the cecum and with diarrhea. In addition, a reduced amount of fucosyl GA1 (FGA1) and a compensatory increase in GA1 due to the reduced activity of α1,2-fucosyltransferase in the small intestine and the enhanced discharge of FGA1 into the contents occurred in mice, probably due to the altered population of bacteria caused by administration of penicillin and streptomycin.     

Energie-, Kohlenstoff-, Stickstoff- und Aminosäurenbilanzversuch mit wachsenden Cornish- Hähnen

The time course of AA digestion, AA balance (sV AS), and AA absorption (wV AS) was estimated on growing rats (Wistar rats, LW= 124 g) in different sections of the intestinal tract using the combination of ¹⁵N tracer and TiO₂ marker techniques. The animals received once a diet of ¹⁵N labelled wheat and yeast as protein sources supplemented by TiO₂ as a marker. Up to 6 h after feeding the amino acid composition the ¹⁵N excess and the TiO₂ content in the digesta of stomach, small and large intestine were determinated in the relation of amino acids resp. of ¹⁵N labelled amino acids to the marker. In addition the content of amino acids and the ¹⁵N excess of these amino acids were estimated in plasma. From these data the disappearance rates and the relation of exogenous to endogenous amino acids as well as the sV and the wV values of the different amino acids were calculated for the different gut sections.

The following results were obtained:

- The relative disappearance rate for N and TiO₂ marker out of the stomach went approximately parallel but with a delay for TiO₂ of about 30 minutes.

- The AA composition of the stomach content, the small and the large intestine content did not vary in dependence of the time.

- The AA composition of the stomach digesta was nearly identical to that of the diet, while that of the small intestine was between exogenous AA composition (feed) and endogenous AA composition (digesta on protein free feeding). AA composition of the large intestine digesta showed quite big differences (bacterial AA break down and AA synthesis).

- Considering a delay time (small intestine: 1 h, large intestine: 4 h) the exogenous portion of the different AA remained constant in both of these intestinal sections during the whole experimental time.

- The exogenous AA part varied for small intestine digesta between 31 and 69% (mean value: 41%), and for large intestine digesta between 13 and 39% (mean value: 22%).

- The sV AS values in the small intestine (AA balance resp. precaecal digestibility) differed from 61% (threonine) to 86% (proline) with an average of 73.4 ± 7.4%, those for wV AS (AA absorption) from 81% (lysine) to 94% (proline) with an average of 88.1±4.1%. There were significant differences between AA, but they are negligible for practical purposes.

- In the small intestine the estimated values for postprandial absorption of the exogenous AA accounted after 1 h, 2 h, 4 h and 6 h for 21%, 33.7%, 46.5%, and 70.7% of the AA intake respectively, mean absorption rate = 9.1 ± 0.5%/h.

- The AA balance in the whole tract (sV AS) was 75 to 94% (on average 82 ± 5.3%) and the wV AS (balance corrected by the ¹⁵N method) ranged from 92 to 99% (on average 96±1.8%). These values correspond to the faecal AA digestibility in conventional experiments.

- In the large intestine the postileal disappearance of the AA (sV) was on average 9.7% with a maximum value of 26% for glycine, and with a minimum for methionine of ‐2.1% caused by bacterial synthesis of methionine. Te postileal wV in the large intestine amounted to 7.5%.

- The time course of the disappearance rate of the ¹⁵N labelled AA in the small intestine and the appearance rate of these AA in the plasma showed an analogous behavior. Both of them characterize the postprandial absorption.

The following conclusion can be drawn:

The method used (combination of ¹⁵N tracer and TiO₂ marker techniques) enables determining the time course of transit and the variation of exogenous AA: endogenous AA proportion in the different intestinal sections and estimating the faecal and precaecal digestibility of the different AA.

The course of secretion and absorption of the different AA should be specified in further experiments using the more precise analysis of ¹⁵N by GC‐MS resp. GC‐C‐IRMS technique. An apply of this method to farm animals (pigs) seems to be possible.     

Regional mutagenicity of heterocyclic amines in the intestine: mutation analysis of the cII gene in lambda/lacZ transgenic mice

Transgenic mouse assays have revealed that the mouse intestine, despite its resistance to carcinogenesis, is sensitive to the mutagenicity of some heterocyclic amines (HCAs). Little is known, however, about the level and localization of that sensitivity. We assessed the mutagenicity of four orally administered (20 mg/kg per day for 5 days) HCAs-2-amino-1-methyl-6-phenylimidazo[4,5-b]pyridine (PhIP) hydrochloride, 2-amino-3-methylimidazo[4,5-f]quinoline (IQ), 2-amino-3,4-dimethylimidazo[4,5-f]quinoline (MeIQ), and 3-amino-1-methyl-5H-pyrido[4,3-b]indole (Trp-P-2) acetate-in the intestine of male MutaMice. Two weeks after the last administration, we isolated epithelium from the small intestine, cecum, and colon and analyzed lacZ and cII transgene mutations. PhIP increased the lacZ mutant frequency (MF) in all the samples, and in the small intestine, cII and lacZ MFs were comparable. In the cII gene, G:C to T:A and G:C to C:G transversions were characteristic PhIP-induced mutations (which has also been reported for the rat colon, where PhIP is carcinogenic). In the small intestine, PhIP increased the cII MF to four-fold that of the control, but IQ, MeIQ, and Trp-P-2 did not have a significant mutagenic effect. In the cecum, cII MFs induced by IQ and MeIQ were 1.9 and 2.7 times those in the control, respectively. The MF induced by MeIQ in the colon was 3.1 times the control value. Mutagenic potency was in the order PhIP>MeIQ>IQ; Trp-P-2 did not significantly increase the MF in any tissue. The cecum was the most susceptible organ to HCA mutagenicity.