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在室内水池中观察了黑鲷(Sparusmacrocephalus)和青石斑鱼(Epinephelusawoara)对孔径0.5mm、孔距5.0cm,空气压力0.25kg/cm2固定气泡幕的反应。结果表明,气泡幕对两种海水鱼都有显著的阻拦作用,平均阻拦率分别为黑鲷75.1%、青石斑鱼82.4%。分析显示,气泡幕对两种鱼的阻拦率间无显著差异。在本实验中,该两种鱼对气泡幕均无明显的适应现象 相似文献
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采用透射电镜技术,研究了3种鲈形目鱼类褐菖鲉Sebastiscus marmoratus、黑鲷Sparus macrocephalus及平鲷Rhabdosargus sarba(Forskal)精子发生早期精原细胞、初级精母细胞及次级精母细胞的超显微结构变化。结果表明,3种鱼生精细胞形态结构及代谢活动变化主要体现在核的变化、线粒体数目与结构的变化及高尔基体和溶酶体的行为变化。3种鱼核的变化基本一致:细胞核由近圆形或椭圆形转变为多角形;核质逐渐浓缩;核仁从明显结构至完全消失。褐菖鲉精原细胞时期线粒体分布较多,并出现拟染色质与线粒体相粘附;而平鲷与黑鲷精原细胞时期的线粒体分布较少,无拟染色质。3种鱼高尔基体与溶酶体的变化也有相似性。黑鲷的初级精母细胞中还观察到典型的环层状的髓样小体的结构。 相似文献
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The relation between otolith weight (OW) and the age of marine fish is studied. A total of 222 individuals of bighead white
croaker, Pennahia macrocephalus were sampled seasonally in the mouth of the Beibu Gulf, the South China Sea, in 2007. Since there are no significant differences
in sagittal OW between otolith in pairs (P≥0.05), the undamaged left sagittal otolith is used for age determination. The highest correlations among standard length,
OW and fish ages are confirmed by linear, exponential and multinomial regression. Results show that sagittal OW overlaps only
occasionally among age groups, and to individuals with similar standard length, the older and slower-growing fish has a heavier
otolith because of the continued otolith material deposition. There are differences in sagittal OW among different age groups
and significant positive linear relationship with age (P<0.05). The age readings can be verified by plotting the sagittal OW versus the standard length for age groups, and the individuals
with similar standard length but in different ages can be separated by sagittal OW frequency analysis. Mostly, the predicted
ages using the regression between sagittal OW and ages are closed to the observed ages by counting annulus on scale. It indicates
that the sagittal OW analysis is a useful technique for validating the accuracy of age determination by annuli counts, especially
for individuals of similar size. Furthermore, the technique is applied for Pennahia macrocephalus with discussion in this paper.
Supported by the National Natural Science Foundation of China (No. 30771653) and Bureau of Fisheries, Ministry of Agriculture 相似文献
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ChntnbutionNo.3127fromtheInstituteofOceanology,ChinereAcademyofSciences.Project39370542supportedbyNSFCandstudyalsosupportedbyNationalKeyLaboratoryintheInstituteofHydrobiology.ChineseAcademyofSciences.lNTRODUCTIONltisknownthatgroWthrateoffishcanvary'inresponsetotemperatureandfoodavailability-andperhapslessobviously,tolight,oxygenandothervariables.ThispropertyofvariablegroWthinfishcanbereferredtoasplasticity(Weatheriey,l990).TheeffeCtSofenvironmenta1thCtorsongroWthcanbepredictalfor… 相似文献
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将海水鱼类黑鲷Sparusmacrocephalus从盐度为26.6的海水直接转入淡水,考察渗透压的急剧降低对黑鲷的生长激素(growthhormone,GH)及其受体(growthhormonereceptor,GHR)等生理指标的影响。研究发现:(1)黑鲷从海水直接转入淡水后48h有33%的鱼死亡,对照组无死亡现象;(2)黑鲷在转入淡水48h内其血清生长激素(GH)含量、肝脏及鳃中GHR及GHRmRNA含量与对照组均无显著差异;(3)黑鲷在转入淡水48h后其肾脏中GHR含量较对照组显著升高(p<0.05),肾脏中GHRmRNA含量在24h及48h显著高于对照组(p<0.05)。结果表明,从GH含量看,黑鲷从海水环境到淡水低渗环境与鲑鳟鱼类从淡水到海水环境的适应性调节机制有差异,而黑鲷肾脏中GHR的含量变化可能参与黑鲷对外界环境渗透压的这种急剧降低的适应性调节。 相似文献
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Using otolith weight to predict the age of Pennahia macrocephalus in the mouth of the Beibu Gulf 总被引:1,自引:0,他引:1
The relation between otolith weight (OW) and the age of marine fish is studied. A total of 222 individuals of bighead white croaker, Pennahia macrocephalus were sampled seasonally in the mouth of the Beibu Gulf, the South China Sea, in 2007. Since there are no significant differences in sagittal OW between otolith in pairs (P≧>0.05), the undamaged left sagittal otolith is used for age determination. The highest correlations among standard length, OW and fish ages are confirmned by linear, exponential and multinomial regression. Results show that sagittal OW overlaps only occasionally among age groups, and to individuals with similar standard length, the older and slower-growing fish has a heavier otolith because of the continued otolith material deposition. There are differences in sagittal OW among different age groups and significant positive linear relationship with age (P<0.05). The age readings can be verified by plotting the sagittal OW versus the standard length for age groups, and the individuals with similar standard length but in different ages can be separated by sagittal OW frequency analysis. Mostly, the predicted ages using the regression between sagittai OW and ages are closed to the observed ages by counting annulus on scale. It indicates that the sagittal OW analysis is a useful technique for validating the accuracy of age determination by annuli counts, especially for individuals of similar size. Furthermore,the technique is applied for Pennahia macrocephalus with discussion in this paper. 相似文献