红嘴相思鸟鸣声的初步探讨

2005年4～10月,在四川省屏山县老君山自然保护区通过计算机声谱分析技术对红嘴相思鸟的鸣声进行了初步研究。结果表明：红嘴相思鸟具有报警、联络、警戒和惊叫4种鸣声;其中最常见的鸣声为联络鸣声,报警、警戒和惊叫3种鸣声是一个先后连续的鸣叫过程。通过红嘴相思鸟鸣声特点探讨了与其相应行为的关系。     

红嘴相思鸟雏鸟间脑动眼神经核团的组织结构

本研究旨在探讨红嘴相思鸟（Leiothrix lutea）雏鸟间脑动眼神经核团的发育动态变化。采用甲苯胺蓝法染色,光镜下观察1、5和9日龄红嘴相思鸟雏鸟间脑动眼神经核的组织学结构。结果显示,红嘴相思鸟雏鸟间脑从浅层至深层依次排列有背外侧部、背内侧部、腹侧部3个亚核以及动眼神经副核。各核团亚区均主要由小型和大型细胞构成,但是不同亚区大型和小型细胞数量、比例以及分布存在差异。随日龄增长,神经细胞内尼氏体逐渐增多。从1日龄到9日龄,各核团之间相对位置不变,但间距增大,且各核团横切面面积显著增大（P < 0.05或P < 0.01）。结果表明,随着红嘴相思鸟雏鸟日龄增长,间脑动眼神经核结构逐渐发育成熟,与其眼部肌肉运动的调控能力渐趋完善相适应。     

红嘴相思鸟的消化系统形态学研究

对10只(6♀4♂)红嘴相思鸟消化系统的形态结构进行了较为系统的解剖与观察,并对各器官进行了测量.结果表明,红嘴相思鸟舌前端有刺毛状结构,后端有一排尖端后指的栉状突;咽有不规则乳突,食管较细,无明显可见的嗉囊;腺胃内壁粘膜上均匀分布小而多的圆形乳突,肌胃发达,内有黄色革质层;肠道总长约为体长的0.94倍.     

四川老君山自然保护区红嘴相思鸟繁殖生态初报

2011年7～8月在宜宾市屏山县老君山自然保护区对红嘴相思鸟Lei(ò)thrix lutea的繁殖生态进行了初步研究.研究结果显示,红嘴相思鸟巢主要营造于方竹Chimonobambusa quadrangularis(Fenzi)Makino、柃木属Eurya树枝和藤蔓上,藤蔓有悬钩子属Rubus、猕猴桃Actinidia chinensis、木通属Akebia等.巢址环境温度(22.01±0.35)℃,湿度(88.30±0.81)％;巢材主要有树叶、树皮、细藤、细树根、细树枝、方竹叶、草叶、细草茎、苔藓、人造纤维、棉类、塑料、过滤嘴纤维等;巢外径(85.31±1.09)mm×(94.00±1.37)mm、内径(55.77±0.69)mm×(62.48±0.70)mm、巢深(54.78±1.14)mm、巢高(80.43±2.39)mm;窝卵数3.125枚/窝,孵化期12 d,孵化工作主要由雌鸟担任;巢内育雏期10～12 d,雌雄共同育雏,雄鸟占主要.繁殖成功率75.00％.     

幼龄红嘴相思鸟小脑皮质组织学结构

为了探讨不同日龄幼龄红嘴相思鸟(Leiothrix lutea)小脑皮质的组织学结构变化,分别以1、5、9日龄红嘴相思鸟为研究对象,通过H.E和甲苯胺蓝法进行染色,光镜下观察红嘴相思鸟小脑冠状切面的显微结构。结果显示,1日龄时,小脑皮层由外颗粒层(EGL)、浦肯野细胞层(PCL)和内颗粒层(IGL)3层构成,外颗粒层较厚且清晰,而浦肯野细胞层和内颗粒层界限不清楚;5日龄和9日龄时,小脑皮质均可见外颗粒层、分子层(ML)、浦肯野细胞层和内颗粒层4层结构。对3个日龄红嘴相思鸟小脑皮质各层厚度进行单因素方差分析,随日龄增长,小脑皮质、分子层和内颗粒层厚度极显著增厚(P0.01),浦肯野细胞体积也极显著增加(P0.01);外颗粒层厚度变化不明显(P0.05),呈现先增厚后变薄的趋势,与皮质厚度的比例逐渐减小。研究表明,幼龄红嘴相思鸟在出生后,随日龄增长,小脑皮质层逐渐发育成熟。内颗粒层与外颗粒层的相对变化规律表明,内颗粒层细胞是由外颗粒层迁移而来的。     

切断鸣管神经支对红嘴相思鸟鸣声的影响

该研究以红嘴相思鸟(Leiothrix lutea)为材料,分析对其鸣管神经支(NXIIts)进行断单侧和断双侧处理后的鸣声声学变化,探讨鸣管神经支配特性。结果表明,断单侧NXIIts后红嘴相思鸟均可发出常见叫声,但鸣声音节间隔拉长,音节时程缩短,调频指数下降,且断左侧NXIIts的作用效果明显大于断右侧NXIIts。即NXIIts支配具单侧性,且呈左侧优势,此外,左侧NXIIts还具有产生音节高频成分和谐波的作用。断双侧NXIIts后,红嘴相思鸟鸣声音调唯一,响度大幅下降,音节脉冲数增加。     

湖北兴山红嘴相思鸟繁殖生态初报

2005年4月～2007年8月,在湖北省兴山县龙门河地区,对红嘴相思鸟(Leiothrix lutea)的繁殖生态进行了初步研究。研究结果显示,红嘴相思鸟在此地区的繁殖时间为4月中旬至7月下旬。巢多营于山坡上、山谷中的乔木林、灌木林遮蔽下的箬竹(Indocalamus wilsoni)和小灌木上,也营巢于农田边、山间小路旁、林间空地的箬竹丛或灌丛中。巢材主要有细树枝、细树根、细藤、箬竹叶、茅草叶、细草茎、青苔等。雌雄鸟共同筑巢,筑巢过程较为迅速,一般5～7d即可完成。雌鸟每天产一枚卵,产卵时间一般在清晨。窝卵数3.41±0.80(n=61)。孵卵期11～13d(n=6)。雏鸟晚成性,雌雄共同育雏,育雏期9～10d。雏鸟发育十分迅速,但离巢时身体发育尚未完善。红嘴相思鸟在此地区的繁殖成功率约为22.95%(n=61)。     

变温条件下红嘴相思鸟黄体生成素分泌节律的可塑性及个体间变异

鸟类的生殖内分泌主要受光周期调控,在全球气候变化的背景下,鸟类生殖内分泌轴(HPG)分泌节律适应温度变化的可塑性及个体间变异则决定了种群适应气候变化的微进化潜能。以黄体生成素(LH)为指标研究了红嘴相思鸟HPG轴分泌节律的温度可塑性及个体间变异。研究结果表明:(1)温度升高可引起红嘴相思鸟LH分泌活动。(2)高温组和低温组红嘴相思鸟血浆LH水平均存在个体差异,高温组的个体间变异总体上大于低温组。一些个体具有较大的HPG轴可塑性,能够提前分泌LH。研究结果表明温度升高条件下,红嘴相思鸟HPG轴活动具有提前的可能性,且种群内存在个体间差异,一些个体可提前启动生殖,进而适应可能出现的环境变化。为探讨鸟类适应气候变化的微进化潜能提供了参考信息。     

小熊猫小脑皮层的组织结构及RT-97、KGF和Bax蛋白在小脑皮层的表达

为了解小熊猫(Ailurus fulgens)小脑皮层的结构特征,观察神经丝蛋白抗体RT-97、角质细胞生长因子(KGF)及Bax蛋白在小脑皮层中的表达,利用组织学方法和免疫组织化学方法观察了小熊猫小脑皮层的显微结构,检测了RT-97、KGF和Bax蛋白的表达.结果表明,小脑皮层从外向内依次可分为分子层、Purkinje细胞层、颗粒层3层.RT-97在小熊猫小脑皮层Purkinje细胞层、颗粒层中神经细胞的轴突、分子层中颗粒细胞的轴突及小脑髓质中有阳性表达;KGF在小脑皮层分子层、Purkinje细胞层和颗粒细胞层及髓质中均有阳性表达;Bax蛋白在小脑皮层分子层、Purkinje细胞层和颗粒细胞层中有阳性表达.RT-97、KGF和Bax蛋白在小脑皮层神经结构的构筑中可能发挥着不同的功能.     

小脑皮层在兔瞬膜条件反射过程中的调制作用

以音调结合气流刺激兔角膜的训练建立瞬膜条件反射,在条件反射率刚达90%,连续出现三组的学习初始阶段,电解损毁小脑半球第六小叶皮层使 D-I 核的学习相关性电活动和瞬膜条件反射消除,但不影响“非条件”反射,而在经一周巩固训练的动物,损毁小脑皮层上述区域不发生影响。D-I 核的细胞自发电活动在学习初期和记忆巩固时期也有所不同。在学习后期,D-I 核的细胞自发电活动频率减低,和在学习初期与损毁小脑皮层后的频率变化相似。实验结果表明:在瞬膜条件反射过程中,以小脑皮层为主导,对瞬膜条件反射的产生和D-I 核的学习相关性电活动具有调制作用。随着记忆巩固过程,D-I 核脱离皮层的控制而发展成为这一学习模式的记忆痕迹基础部位。     

Morpho‐histological and ultra architectural changes during early development of endangered golden mahseer Tor putitora

Ultrastructural and histological changes in the embryonic and larval surface during ontogenesis of the endangered golden mahseer Tor putitora is studied here for the first time. Embryonic development was completed 91–92 h after fertilization at an ambient temperature of 23° ± 1° C (mean ± s.d. ). The gastrula stage was characterized by presence of the Kupffer's vesicle, notochord, ectoderm and endoderm cells. Primordial germ cells were clearly identifiable from c. 55 h post‐fertilization at the organogenesis stage. Mean total length of newly hatched larvae was 7·0 ± 0·5 mm. Scanning electron microscopy of newly hatched larvae demonstrated vitelline arteries, microridged epithelial cells and mucous gland openings over much of the body surface. Eye, oral cavity, pharyngeal arches, heart, intestinal loop, prosencephalon, cephalic vesicle and nasal epithelium were clearly distinguished in 3 day old hatched individuals. In 6 day old individuals, caudal‐fin rays and internal organs were evident. The dorsal fin became prominent at this stage and larvae began swimming at the surface. The reserved yolk material was totally absorbed 8–11 days after hatching and larvae began feeding exogenously. Tor putitora exhibited a longer early developmental period than other cyprinids reared at similar temperatures.     

A histological study on the development of the digestive system of Pseudosciaena crocea larvae and juveniles

The ontogenetic development of the gut and accessory organs in large yellow croaker Pseudosciaena crocea was investigated using light microscopy from hatching up to the juvenile stage (40 days post hatch, dph). At 3 dph (mean ±  s . d ., 4·1 ± 0·1 mm total length, L _T), coinciding with the buccopharynx opening, larvae started to feed exogenously, and the gut consisted of a well‐developed buccopharynx, a partially‐differentiated oesophagus and an intestine divided in three regions (anterior intestine, intermediate intestine and rectum). Yolk reserves were not completely depleted at the onset of exogenous feeding, and a period of mixed nutrition was observed up to 6 dph (4·3 ± 0·1 mm L _T), when yolk was definitively exhausted. Important morphological changes occurred at the end of the larval period, coinciding with metamorphosis. At 17 dph (6·8 ± 0·6 mm L _T), pyloric caeca differentiated at the junction of the pyloric stomach and the anterior intestine. Gastric glands were first observed at 21 dph (9·2 ± 1·2 mm L _T), coinciding with the morphological development of the stomach in three different regions (cardiac, fundic and pyloric) according to the histological characteristics of their mucosa. At this age, large longitudinal folds appeared in the median and posterior oesophageal mucosa. These morphological and histological features suggested the achievement of a digestive system characteristic of large yellow croaker juveniles and adults.     

Species variation in the localisation of esterases in the cerebellar cortex of mouse and bat

A comparative study of the distribution of a simple esterase and acetylcholinesterase in the cerebellar cortex of mouse and bat has been made. The Purkinje layer is intensely positive for simple esterase in both species. The granular and molecular layers showed mild to moderate activity in mouse and intense activity in bat. Acetylcholinesterase in cerebellar layers of bat is more intense than in mouse. In bat cerebellum, acetylcholinesterase is observed in the dendrites of Purkinje cells, but not in their cell bodies. Acetylcholinesterase was not found in Purkinje cells of mouse.     

Histological changes during development of the cerebellum in the chick embryo exposed to a static magnetic field

Few studies have been performed to evaluate the ultrastructural changes that exposure to static magnetic fields (SMF) can cause to the processes of cell migration and differentiation in the cerebellum during development. Thus, we have studied the development of the cerebellum in the chick embryo (n = 144) under a uniform SMF (20 mT). All of our observations were done on folium VIc of Larsell's classification. The cerebella of chick embryos, which were exposed solely on day 6 of incubation and sacrificed at day 13 of incubation [short exposure (S)1; n = 24], showed an external granular layer (EGL) that was less dense than the EGL in the control group (n = 24). The molecular layer (ML) exhibited a low number of migratory neuroblastic elements. Moreover, the internal granular layer (IGL) was immature, with the cellular elements less abundant and more dispersed than in controls. In chick embryos exposed on day 6 of incubation and sacrificed at day 17 (S2; n = 24), the outstanding feature was the regeneration of the different layers of the cerebellar cortex. The cerebellar cortex of chick embryos exposed continuously to an identical field from the beginning of the incubation up to day 13 [long exposure (L)1; n = 24] or day 17 (L2; n = 24) of incubation showed a higher number of alterations than that of group S1. Electron microscopy confirmed the findings from light microscopy and, at the same time, showed clear signs of cell degeneration and delay in the process of neuronal differentiation. This was more apparent in groups L1 (100%) and L2 (100%) than in groups S1 (95.4%) and S2 (65.2%). In conclusion, the present study showed that SMF can induce irreversible developmental effects on the processes of cell migration and differentiation of the chick cerebellar cortex. Bioelectromagnetics 18:36–46, 1997. © 1997 Wiley-Liss, Inc.     

Biochemical, histological and behavioural aspects of visual function during early development of rainbow trout

Retinal structure and concentration of retinoids involved in phototransduction changed during early development of rainbow trout Oncorhynchus mykiss , correlating with improvements in visual function. A test chamber was used to evaluate the presence of optokinetic or optomotor responses and to assess the functionality of the integrated cellular, physiological and biochemical components of the visual system. The results indicated that in rainbow trout optomotor responses start at 10 days post‐hatch, and demonstrated for the first time that increases in acuity, sensitivity to low light as well as in motion detection abilities occur from this stage until exogenous feeding starts. The structure of retinal cells such as cone ellipsoids increased in length as photopic visual acuity improved, and rod densities increased concurrently with improvements in scotopic thresholds (2·2 log₁₀ units). An increase in the concentrations of the chromophore all‐trans‐retinal correlated with improvements of all behavioural measures of visual function during the same developmental phase.     

文蛤受精及早期胚胎发育过程的细胞学观察

用普通光镜、荧光显微镜技术和石蜡切片技术三种方法,对文蛤卵在受精及早期胚胎发育过程中的外形和核相变化进行了详细观察。结果表明:文蛤成熟未受精卵呈圆球形,直径90.06μm±5.59μm,核相处于第一次成熟分裂中期;精子为鞭毛型,全长48.05μm±1.60μm,头部呈狭茧形,长度为3.06μm±0.17μm;精卵混合后,精子迅速附着于卵子表面,受精后5min-10min,精子进入卵内并明显膨胀,激活卵子启动两次成熟分裂;分别在受精后20min、30min,受精卵完成第一次和第二次成熟分裂,先后排出第一、第二极体;成熟分裂完成之后,精、卵核体积迅速膨胀到最大,核膜重新出现,形成弥散状的雌、雄原核;受精后35min左右,雌、雄原核在卵子中央发生染色体联合,共同排列在纺锤体的赤道板上,形成第一次有丝分裂的中期分裂相;受精后40min-45min,在纺锤丝的牵引下染色体被拉向两极,结果形成2个大小不等的卵裂球;受精后55min-60min,第二次卵裂结束,形成1大3小4个卵裂球,卵裂过程中的核相变化与第一次卵裂基本相同,只是卵裂方向是与第一次卵裂的卵裂沟呈基本垂直的纵裂;受精后80min-90min,第三次卵裂完成,仍为不等全裂,但自此次起开始进行螺旋分裂。此外,实验中也发现了少量的多精入卵、多极分离和天然三倍体等异常现象。     

The chromatin modifying complex CoREST/LSD1 negatively regulates notch pathway during cerebral cortex development

The development of the cerebral cortex is a dynamic and coordinated process in which cell division, cell death, migration, and differentiation must be highly regulated to acquire the final architecture and functional competence of the mature organ. Notch pathway is an important regulator of differentiation and it is essential to maintain neural stem cell (NSC) pool. Here, we studied the role of epigenetic modulators such as lysine‐specific demethylase 1 (LSD1) and its interactor CoREST in the regulation of the Notch pathway activity during the development of the cerebral cortex. We found that CoREST and LSD1 interact in vitro with RBPJ‐κ in the repressor complex and these proteins are released upon overexpression of Notch intracellular domain (NICD). We corroborated LSD1 and RBPJ‐κ interaction in developing cerebral cortex and also found that LSD1 binds to the hes1 promoter. Knock‐down of CoREST and LSD1 by in utero electroporation increases Hes1 expression in vivo and decreases Ngn2. Interestingly, we found a functional interaction between CoREST and LSD1 with Notch pathway. This conclusion is based on the observation that both the defects in neuronal migration and the increase in the number of cells expressing Sox2 and Tbr2 were associated to the knock‐down of either CoREST or LSD1 and were reversed by the loss of Notch. These results demonstrate that CoREST and LSD1 downregulate the Notch pathway in the developing cerebral cortex, thus suggesting a role of epigenetic regulation in the fine tuning of cell differentiation. © 2016 Wiley Periodicals, Inc. Develop Neurobiol 76: 1360–1373, 2016     

Elevated glutamate and NMDA disrupt production of the second messenger cyclic GMP in the early postnatal mouse cortex

The second messenger cyclic guanosine monophosphate (cGMP) plays many roles during nervous system development. Consequently, cGMP production shows complex patterns of regulation throughout early development. Elevated glutamate levels are known to increase cGMP levels in the mature nervous system. A number of clinical conditions including ischemia and perinatal asphyxia can result in elevated glutamate levels in the developing brain. To investigate the effects of elevated glutamate levels on cGMP in the developing cortex we exposed mouse brain slices to glutamate or N‐methyl D ‐aspartate (NMDA). We find that at early postnatal stages when the endogenous production of cGMP is high, glutamate or NMDA exposure results in a significant lowering of the overall production of cGMP in the cortex, unlike the situation in the mature brain. However, this response pattern is complex with regional and cell‐type specific exceptions to the overall lowered cGMP production. These data emphasize that the response of the developing brain to physiological disturbances can be different from that of the mature brain, and must be considered in the context of the developmental events occurring at the time of disturbance. © 2009 Wiley Periodicals, Inc. Develop Neurobiol, 2009