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1.
美洲鲥胚胎及仔稚鱼的发育   总被引:5,自引:0,他引:5  
对美洲鲥(Alosa sapidissima)早期生活史阶段的生长发育特征进行了观察和测量,描述了胚胎和仔、稚鱼的生长发育特征。美洲鲥受精卵球形、无油球,为沉性卵,卵径2.85—3.28 mm。在水温20.3℃—21.9℃孵化条件下,经过82h孵化出膜,根据其胚胎发育过程的形态特征,胚胎发育分为受精卵、卵裂期、囊胚期、原肠胚期、神经胚期、器官形成期和出膜期7个发育阶段。美洲鲥初孵仔鱼全长为(8.56±0.36)mm,其卵黄囊体积为(4.57±0.77)mm3。1日龄仔鱼脑部发育明显,口张开,肛门开通,胸鳍形成。2日龄仔鱼卵黄囊体积(0.71±0.23)mm3,只有刚孵化的15.54%。3日龄仔鱼经过1d的混合营养期,卵黄被完全吸收,4日龄仔鱼完全营外源性营养,卵黄囊的体积(V)随孵化时间(h)的变化方程为V=4.1583e-0.0356h(R2=0.9901)。此后,背鳍鳍条、尾鳍鳍条、臀鳍鳍条和腹鳍鳍条相继在晚期仔鱼出现,9日龄仔鱼尾椎开始弯曲,21日龄仔鱼尾椎弯曲完成。27日龄鱼鳞开始形成,到33日龄稚鱼全身披鳞,个体发育进入幼鱼期,仔稚鱼期间的生长模型方程为:TL=0.0049D2+0.5091D+9.2578(R2=0.9885,TL为全长,D为日龄)。  相似文献   

2.
大菱鲆仔稚幼鱼消化系统发育的组织学研究   总被引:9,自引:0,他引:9  
大菱鲆(Scophthalmus maximus)是目前欧洲重要的海水养殖良种之一,在中国北方沿海大菱鲆的养殖规模也在不断扩大。有关大菱鲆消化系统个体发育方面的研究国外已有一些报道,如Sadiq等从形态学角度对大菱鲆变态发育进行了定义[1],Cousin等对大菱鲆变态前的消化系统进行了组织学研究[2],Segner等观察了大菱鲆仔稚鱼消化器官的超微结构[3]。但关于仔鱼、稚鱼和幼鱼消化系统的发育及其组织学结构的系统比较研究尚未见报道。本文对大菱鲆仔稚鱼消化系统的发育进行了组织学研究,同时选用了60日龄的幼鱼为代表,对不同发育时期大菱鲆消化系统的显微…  相似文献   

3.
利用采自赤水河下游的银鮈(Squalidus argentatus)鱼卵对其早期发育进行了观察和描述,并对仔鱼的耐饥饿能力进行了研究。银卵属中等大小的漂流性卵,具双层卵膜,外膜径(3.35±0.41)mm。胚胎发育分32个发育期,在水温24.6~25.5℃时历时40h。初孵仔鱼全长(3.84±0.36)mm,眼下有一个黑点,胸鳍原基已形成,经85d左右发育成幼鱼。仔鱼孵出后2~3d开口摄食,5日龄时初次摄食率即达100%。持续饥饿对银鮈仔鱼生长、发育、存活均有很大影响,饥饿仔鱼11~12d达不可逆点(PNR),饥饿至13日龄时,绝大部分仔鱼死亡。  相似文献   

4.
通过观察、拍照和测量的方法对鸭绿江唇(Hemibarbus labeo)仔、稚鱼的形态发育和早期生长进行了研究。结果表明:在19.6—25.8℃的试验条件下,唇初孵化仔鱼全长为(7.92±0.29)mm,2日龄头部两侧出现感觉芽;3日龄鳔一室原基形成,5日龄红色的脾出现,且仔鱼开口;7日龄卵黄囊吸收完毕,9日龄脊索末端开始向上弯曲;10日龄鳔二室形成,14日龄脊索弯曲完成,尾鳍边缘开始内凹;32日龄鳞片开始出现在鳃盖后缘的体表,同时各鳍发育完全,个体发育进入稚鱼期,43日龄全身被鳞,个体发育进入幼鱼期。根据卵黄囊、脊索和鳞片的变化,唇胚后发育可细分为卵黄囊期(0—6日龄)、弯曲前期(7—9日龄)、弯曲期(10—14日龄)、弯曲后期(15—32日龄)和稚鱼期(33—43日龄)。试验期间,全长和体质量的特定生长率分别为3.32%和12.16%;卵黄囊体积(V)与日龄(d)的关系为V=0.0048d3–0.0309d2–0.1240d+0.8453(R2=0.8933);全长(LT)、体质量(W)与日龄均为指数函数关系,相关方程分别为:LT=8.3821e0.0329d(R2=0.9586),W=0.0048e0.0969d(R2=0.9463);头长(LH)、体高(HB)的生长方程分别为:LH=–6E–05d3+0.002d2+0.1733d+0.7862(R2=0.9577),HB=–5E–05d3+0.0039d2+0.017d+0.9389(R2=0.9621)。  相似文献   

5.
为阐明拟赤梢鱼(Pseudaspius leptocephalus)胚胎发育和仔稚鱼发育特点, 采用人工催产的方式获得受精卵, 观察分析了拟赤梢鱼胚胎发育和仔稚发育的时序特征。结果表明: 拟赤梢鱼成熟卵粒为黄色圆球形, 平均卵径为(1.77±0.20) mm, 遇水具微黏性; 在水温23℃条件下, 胚胎发育经历合子期、卵裂期、囊胚期、原肠胚期、神经胚期、器官形成期和孵化出膜期7个阶段26个时期, 共历时47h 55min完成孵化过程。初孵仔鱼在(23±1)℃水温条件下, 经历卵黄囊期仔鱼(0—7d)、晚期仔鱼(8—26d)和稚鱼期(27—31d), 进入幼鱼期; 卵黄囊期仔鱼游泳能力差, 随着卵黄囊逐渐消耗, 体表色素斑、胸鳍和尾鳍等逐渐形成, 消化道贯通, 鳔充气; 晚期仔鱼卵黄囊完全消失, 仔鱼游泳能力增强, 开口摄食, 腹鳍形成, 皮肤透明; 稚鱼期鳞片形成并覆盖全身, 鱼体形态已逐渐与成鱼无异。拟赤梢鱼仔稚鱼阶段全长生长特性公式为TL=0.0125x2+0.3579x+6.2058 (R2=0.9953), 出膜15d内, 仔鱼生长速度缓慢, 全长日生长率仅为(0.38±0.02) mm/d, 15d后, 仔鱼生长速度变快, 全长日生长率可达(1.24±0.09) mm/d。研究初步阐明了拟赤梢鱼的胚胎发育和仔稚鱼发育的时序特征, 为拟赤梢鱼的苗种规模化繁育提供了理论基础。  相似文献   

6.
条石鲷的早期生长发育特征   总被引:10,自引:0,他引:10  
对条石鲷(Oplegnathus fasciatus)早期生活史阶段生长发育特征进行了观察和测量,描述了胚胎和胚后各发育阶段的生长发育特征。条石鲷成熟卵子为浮性、端黄卵,卵径0.86mm±0.012mm(n=30),单油球,油球径0.18mm-0.22mm。在水温23.5℃±0.5℃、盐度30.5、pH8.0-8.3条件下,受精卵经27.5h孵化出膜。初孵仔鱼消化道细而直,随着仔鱼发育,消化道变得粗大、弯曲,肠道内褶回增多,消化能力增强。3日龄(仔鱼孵化出膜后第一天称为0日龄,以此类推)仔鱼卵黄囊消耗殆尽,开口,肛门与外界相通,油球在6日龄消耗完毕,进入外源性营养阶段。仔稚鱼培育在室内水泥池进行。在水温21℃-24℃、盐度27-33、pH8.0-8.3条件下,仔鱼开口饵料为S型褶皱臂尾轮虫,4日龄仔鱼开始摄食轮虫或轮虫卵,13日龄开始摄食卤虫无节幼体,25日龄开始进行配合饲料转化,30日龄后苗种摄食配合饲料良好。4日龄仔鱼鳔原基形成,7日龄时鳔开始充气变为亮泡状,生活史终生有鳔。色素细胞首先出现在12h50min的胚体上,至18h已在胚体全身分布,随着胚体发育,色素细胞增多。脊椎骨末端弯曲在15日龄开始,至24日龄弯曲过程完成,除腹鳍外其它鳍的鳍条数与成鱼一致,牙齿(硬齿和绒毛齿)生成,可咬食饵料。体表七条横向黑色素带是条石鲷的一个显著体态特征。21日龄鱼体表形成第一条横向黑色素带,23日龄时体表形成第二条色素带,25日龄时形成第三条色素带,29日龄时仔鱼体表第五条色素带形成,至40日龄时第七条色素带形成,此时稚鱼体态除背鳍、尾鳍、腹鳍上色素外与成体相似。60日龄幼鱼鳞片形成,在体态上与成体无明显区别。  相似文献   

7.
采集池塘育苗的39日龄之前的梭鱼(Liza haematocheila)仔、稚、幼鱼,对其早期发育阶段体色的变化以及鳍的发生、发育进行了连续观察。初孵仔鱼体表不具黑色素,仅卵黄囊具黑色素,孵化后2日龄体表黑色素增加,鳍膜无色透明。8日龄仔鱼开始变得不透明,腹侧有黑色线状斑点。在18~19日龄仔鱼转化为稚鱼时,鱼体背部具大量雪花状黑色素颗粒,在透色光下可观察到淡黄色斑点(黄色素)。30日龄幼鱼与成鱼相似,体表具淡白色,背褐腹白。梭鱼仔鱼在早期发育阶段各鳍的发育顺序是:胸鳍→尾鳍→腹鳍→背鳍→臀鳍→第二鳍棘。初孵仔鱼,鳍褶从头部后缘向后绕过尾部,终止于卵黄囊后缘油球外侧。2日龄仔鱼具胸鳍芽,全身由鳍膜包裹,5日龄仔鱼胸鳍和尾鳍鳍膜已具有相当的运动能力,能够起到推动和维持身体平衡的作用。梭鱼鳍在早期发育过程中最明显的变化是尾鳍的生长和鳍节的发育。梭鱼仔鱼在12日龄时出现腹鳍棘芽基,15日龄时第二背鳍棘出现。17日龄,尾椎骨向上弯曲,尾鳍基本发育完成,长鳍条16根,具10节,中间几根棘条末三节二向分叉,短鳍条上下各6~8根;背鳍有鳍条11根,具5节,最外侧鳍棘具刺,基部有支鳍骨。至30日龄,梭鱼幼鱼各鳍发育完全,与成鱼相似。  相似文献   

8.
半滑舌鳎仔鱼的摄食与生长   总被引:14,自引:0,他引:14  
在水温23.4-24.0℃、盐度33.00、pH7.78-8.02的培养条件下,半滑舌鳎初孵仔鱼全长为3.55±0.161mm(n=60),依照公式4/3π.R/2.(r/2)2计算其卵黄囊体积为0.606±0.106mm3(n=60)。1日龄仔鱼,全长为4.99±0.211mm(n=10),卵黄囊体积较初孵仔鱼缩小近10倍,约为0.066±0.008mm3(n=10);2日龄,仔鱼的巡游模式建立,仔鱼全长为5.61±0.069mm,卵黄囊体积为0.030±0.002mm3(n=10),口初开;2.5日龄,口完全裂开,口裂0.24±0.024mm(n=10),仔鱼进入摄食期;3日龄,仔鱼的外源性摄食关系初步建立;4日龄,仔鱼的摄食率达100%,完成了内源性营养向外源性营养的转换;5日龄,仔鱼的卵黄完全被吸收,仅剩聚成一团的小油球,仔鱼的混合营养期持续2.5天时间;21日龄,稚鱼全长为12.96±0.611mm(n=11),仍有40%的个体残余的油球还没有完全被吸收,其体积仅为0.0000005±0.000003mm3(n=11)。仔鱼发育过程中,其长度的生长存在内源性营养阶段的快速生长、混合营养阶段的慢速生长以及饥饿期间的负生长三个生长期相,平均增长率为0.45mm/d,依照TL=aD3 bD2 cD d方程式对仔鱼的全长与日龄进行回归,其生长模型为TL(mm)=0.0026D3-0.0704D2 0.7993D 3.55(R2=0.9811,n=324)。仔鱼耐受饥饿的时间临界点发生在孵化后第10天(即9日龄)。仔鱼具有摄食能力的时间约6天,不可逆转饥饿期的时间约3天。残余的油球较长时间的存在,相对地延长了仔鱼混合营养期的时间,对仔鱼的发育、生长和存活有着至关重要的作用。5-20日龄的个体都具有胸角这个明显的形态学特征,只是饥饿个体和不可逆转饥饿期个体的胸角比摄食个体更为明显和尖锐,胸角不能作为区分健康仔鱼和饥饿仔鱼的形态学依据之一[动物学报51(6)1023-1033,2005]。  相似文献   

9.
对人工培育的似刺鳊鮈(Paracanthobrama guichenoti)仔鱼、稚鱼和幼鱼的生长与摄食节律进行了研究。结果显示,在1~70日龄间,似刺鳊鮈全长平均日增长率为3.55%,体重平均日增长率为11.26%,头长/全长值随着日龄的增长而变小。全长(L,mm)与体重(M,mg)的关系式为M=O.0012L^2-0.0564L+0.6504;体重(M,mg)与日龄(D,d)的关系式为M=O.0043e^0.0936D;全长(L,mm)和日龄(D,d)的关系式为L=0.0154D^2-0.0128D+8.1965。在饵料充足的条件下,20日龄晚期仔鱼全天均有很高的摄食发生率,小高峰出现在8:00时;40日龄稚鱼则表现出明显的昼夜摄食节律,属于典型的白天摄食类型,日摄食率2.3376%。20日龄仔鱼和4013龄稚鱼饱食后分别经6h、5h整个消化道排空。在水温25℃及饥饿空胃状态下,10日龄仔鱼只经3d即开始出现死亡个体,经5d全部死亡;20日龄仔鱼经6d开始出现死亡个体,经9d全部死亡;40日龄稚鱼经7d才开始出现死亡个体,10d后全部个体均死亡。  相似文献   

10.
瓦氏黄颡鱼的胚后发育观察   总被引:2,自引:0,他引:2       下载免费PDF全文
2002年5~6月,在四川省泸州市、合江县分数批收集到长江野生瓦氏黄颡鱼(Pelteobagrusvachelli)亲本,通过人工催产、人工授精获得受精卵,对其胚后发育过程进行了观察。瓦氏黄颡鱼的胚后发育过程可以分为卵黄囊仔鱼、晚期仔鱼和幼鱼3个阶段。初孵仔鱼淡黄色,肌节40对,平均全长5.2mm。水温20~22℃时,孵出后第3d口张开;第7d开始摄食;第9d卵黄吸尽,此时鱼苗平均全长12mm,卵黄囊仔鱼阶段结束。晚期仔鱼阶段的仔鱼,胸鳍、尾鳍、臀鳍、背鳍、腹鳍先后发育,至鳍褶消失时晚期仔鱼阶段结束。经过30d的生长和发育,进入幼鱼阶段;此时平均全长达37mm,其形态特征和生态习性均与成鱼相似。  相似文献   

11.
12.
Ectogenesis, or the use of an artificial womb to allow a foetus to develop, will likely become a reality within a few decades, and could significantly affect the abortion debate. We first examine the implications for Judith Jarvis Thomson’s violinist analogy, which argues for a woman’s right to withdraw life support from the foetus and so terminate her pregnancy, even if the foetus is granted full moral status. We show that on Thomson’s reasoning, there is no right to the death of the foetus, and abortion is not permissible if ectogenesis is available, provided it is safe and inexpensive. This raises the question of whether there are persuasive reasons for the right to the death of the foetus that could be exercised in the context of ectogenesis. Eric Mathison and Jeremy Davis have examined several arguments for this right, doubting that it exists, while Joona Räsänen has recently criticized their reasoning. We respond to Räsänen’s analysis, concluding that his arguments are unsuccessful, and that there is no right to the death of the foetus in these circumstances.  相似文献   

13.
On the diversity of the Cladocera in the tropics   总被引:20,自引:13,他引:7  
The mythical concept of an impoverished tropical cladoceran fauna is refuted. On a planetary scale, around half of the cladoceran species presently known occur exclusively in the tropics-subtropics, often with considerable restriction to particular geographical subzones. On a regional (political) scale, the situation is often unclear because of the continued fragmentary nature of studies, and because political units are not a good basis for biogeographical comparisons. At the finest level of resolution (lake-perlake comparisons), there appears to be an upper limit of c. 50 cladoceran species per individual lake. No significant difference between lakes in the temperate zone and in the tropics could be established here. Daphnia is largely absent from the tropics, but is replaced by more Sidids, Moinids, and Bosminids, such that the average cladoceran community in the limnetic zone of a tropical lake is not characterized by less species but rather by lower population densities. This, in turn, is considered a consequence of higher prevalent predation levels in the tropics.  相似文献   

14.
We discuss the possible links between the fossil record of marine biodiversity, nutrient availability and primary productivity. The parallelism of the fossil records of marine phytoplankton and faunal biodiversity implicates the quantity (primary productivity) and quality (stoichiometry) of phytoplankton as being critical to the diversification of the marine biosphere through the Phanerozoic. The relatively subdued marine biodiversity of the Palaeozoic corresponds to a time of relatively low macronutrient availability and poor food quality of the phytoplankton as opposed to the diversification of the Modern Fauna through the Mesozoic–Cenozoic. Increasing nutrient runoff to the oceans through the Phanerozoic resulted from orogeny, the emplacement of Large Igneous Provinces (LIPs), the evolution of deep-rooting forests and the appearance of more easily decomposable terrestrial organic matter that enhanced weathering. Positive feedback by bioturbation of an expanding benthos played a critical role in evolving biogeochemical cycles by linking the oxidation of dead organic matter and the recycling of nutrients back to the water column where they could be re-utilized. We assess our conclusions against a recently published biogeochemical model for geological time-scales. Major peaks of marine diversity often occur near rising or peak fluxes of silica, phosphorus and dissolved reactive oceanic phosphorus; either major or minor 87Sr/86Sr peaks; and frequently in the vicinity of major (Circum-Atlantic Magmatic Province) and minor volcanic events, some of which are associated with Oceanic Anoxic Events. These processes appear to be scale-dependent in that they lie on a continuum between biodiversification on macroevolutionary scales of geological time and mass extinction.  相似文献   

15.
Summary A tubular network was found in the terminal endings of the visual receptor cells in the human, the monkey (Macaca mulatta), the cat and the dog. These tubules are arranged in close groups in the vicinity of the synaptic lamellae and the invaginated dendrites. According to the form, diameter, density of the tubules and to the consistence of the network formed by them one can distinguish at these places an initial type (type I), a transitory (type II) and a vesicular one (type III). In the the type III branching, bizarre forms are frequent. The diameter of all the tubules reaches 500–600 Å, their density and walls being the same as in the synaptic vesicles.Similar networks also occur in the axons of the visual receptor cells of the monkey.
Zusammenfassung In den Endigungen der Photorezeptorzellen von Mensch, Affe (Macaca mulatta), Katze und Hund kommen aus Tubuli bestehende Komplexe vor. Organellenartig in geschlossenen Gruppen angeordnet, liegen sie in Nähe der synaptischen Lamellen und der invaginierten Dendriten. An diesen Stellen kann man nach Form, Durchmesser, Dichte und Konsistenz der von den Tubuli gebildeten Komplexe drei Typen unterscheiden: 1. einen initialen (Typus I), 2. einen Übergangstypus (Typus II) und 3. einen vesiculären Typus (Typus III). In letzterem kommen häufig verzweigte, bizarre Formen vor. Der Durchmesser sämtlicher Tubuli erreicht 500–600 Å. Ihre Dichte und ihre Wand gleicht denen der synaptischen Vesikel.Ähnliche Komplexe fanden wir auch in den Axonen der Photorezeptorzellen vom Affen.
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16.
17.
Methods of amperometry and potentiometric titration were used to follow dark respiration (DR) and apparent photosynthesis (AP) in the fucoids Ascophyllum nodosum (L.) Le Jol, Fucus vesiculosus L., and F. serratus L. from the Barents Sea littoral by the end of the 40-day-long polar night. The macroalgae were shown to manifest species-specific low rates of photosynthesis and respiration. However, in spite of their low photosynthetic status due to the effects of subzero temperature and prolonged low or zero illumination, the macroalgae have been able to restore DR and AP to the initial level already by the day 9; the ability to restore AP depended on the level of illumination. The study of the changes in the carbonate–bicarbonate system in the light and darkness demonstrated that the macroalgae grown in darkness, in contrast to those grown in twilight, could absorb bicarbonate in darkness; however, they lost this capacity after two-day-long illumination at an irradiance of 7 mol/(m2 s). Bicarbonate uptake in darkness and the capacity to restore the systems of photosynthesis and respiration in fucoid cells are discussed in the context of algal energy metabolism under the polar night conditions.  相似文献   

18.
The voltage-gated potassium channel is currently one of the few membrane proteins where functional roles have been mapped onto specific segments of sequence. Although high-resolution structures of the transmembrane portions of three bacterial potassium channels, the tetramerization domain and the cytoplasmic ball are available, their relative spatial arrangement in mammalian channels remains a matter of ongoing debate. Cryo-electron microscopic images of the six transmembrane voltage-gated Kv channel have been reconstructed at up to 18 Å resolution, revealing that the T1 domain tetramerizes and is suspended below the transmembrane segments. However, the resolution of these images is insufficient to reveal the location of the third piece of the puzzle, the inactivating ball domain. We have used the aberrant interactions observed in a series of chimæric channels to establish that an assembled T1 domain restricts access to the cytoplasmic face of the channel, suggesting that the N-terminal ball and chain may be confined in the space between the T1 domain and the transmembrane portion of the channel.  相似文献   

19.
Summary The choriocapillaris is a fenestrated capillary bed located posterior to the retinal pigment epithelium. It serves as the main source of supply to the photoreceptors, retinal pigment epithelium, and other cells of the outer retina. The permeability of these capillaries to intravenously injected ferritin (MW — approx. 480,000; mol. diam. 11 nm) was examined in the mouse, rabbit, and guinea pig, each of which is characterized by a different type of retinal vascularization. In all three species, the bulk of the ferritin remained in the capillary lumina, where it appeared to be blocked at the level of the diaphragmed fenestrae. Some ferritin was present in endothelial cell vacuoles. The results confirm previous work on the rat choriocapillaris and indicate that the barrier function of the choriocapillary endothelium is present even among species in which the retinal circulation differs significantly.Supported by NIH grant EY03418  相似文献   

20.
Summary According to light- and electron-microscopic observations the pineal organ of the 3-day-old chicken consists of a prominent end vesicle and a tapering parenchymal stalk. During this stage the pineal lumen is in open communication with the third ventricle. However, in the 40-day-old chicken, which still possesses a well-developed end vesicle, the proximal portion of the pineal stalk displays regressive changes leading to local fragmentation. At this stage the pineal stalk is reduced, and the pineal lumen is missing. In 1-year-old chickens the parenchyma of the proximal portion of the stalk is further diminished, and in 3-year-old domestic fowl is completely displaced by bundles of collagenous fibers, only some nerve fibers being present. This post-hatching pineal development may reflect the sequence of changes leading from pineal sense organs to pineal glands.This work was supported by a grant-in-aid for Scientific Research from the Ministry of Education, Science and Culture of Japan  相似文献   

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