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为研究不同盐度对文蛤呼吸代谢的影响,本实验设置5个盐度(‰)梯度(11、18、25、32、39),检测不同盐度对文蛤(Meretrixmeretrix)耗氧和排氨的影响,以及文蛤的外套膜、鳃、肝胰腺三种组织中乳酸脱氢酶和Na+/K+-ATP酶活性的变化。结果表明:随着盐度的不断升高,文蛤耗氧率先升后降再升,在盐度18时达到最大值;排氨率先升后降,在盐度32时达到最大值。随着盐度不断升高和胁迫时间延长,文蛤的肝胰腺中乳酸脱氢酶活力总体呈先升高后下降再升高的趋势(P0.05),酶活力在盐度39时为最高;随着盐度不断升高和胁迫时间延长,文蛤的外套膜中Na+/K+-ATP酶活力总体呈先下降再升高后下降的趋势(P0.05),在盐度32时为最高;文蛤的外套膜和鳃中乳酸脱氢酶活力以及鳃和肝胰腺中Na+/K+-ATP酶活力受盐度影响不显著(P0.05),酶活力变化也多呈现"W"形的变化趋势。研究结果为文蛤的人工养殖提供参考。 相似文献
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对鳜亚科9种鱼类的LDH同工酶进行了比较研究。结果表明9种鱼的LDH同工酶表型具有明显的种间差异;同种的个体及性别之间没有明显差异。根据LDH同工酶表型所得的分类结果与形态分类基本一致。鉴于9种鱼具有基本相同的相对迁移率,提出鳜亚科的种类可能是单系起源。在暗鳜(Siniperca obscura Nichols,1930);鳜(S.chuatsi Basilew-sky,1855)的晶体里,发现了C基因控制的区带,暗鳜、斑鳜(S.scherzeri Steindachner,1892)及大眼鳜(S.knerni Garmar,1912)的肝组织中酶谱存在多态现象。 相似文献
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以0.004~0.80 mol.L-1的Na2SO4溶液为交换介质,测定了层状复合氢氧化物(LDH)[Mg4.7Al(OH)11.4]Cl0.96(OH)0.04.7.9H2O在超声条件下的离子交换容量和交换平衡常数。结果显示层间Cl-离子的最大交换容量为1.497 mmol.g-1,OH-离子的最大交换容量为0.026 8 mmol.g-1,交换平衡常数pK值为3.65;固相的XRD、IR及BET-N2表征显示交换反应后SO42-的Td对称性降低,LDH的晶胞参数c和通道高度h增大,结晶度下降,微晶的层间吸附活性降低,微孔吸附容量减小。 相似文献
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黑鱾血液的生理生化指标研究 总被引:2,自引:0,他引:2
本文采用F-820半自动血细胞分析仪和全自动生化分析仪,对黑纪的血液常规指标及血清中的17项生化指标进行了分析测定,并用Wright’s染色法制作血涂片对白细胞进行分类计数.结果表明:(1)黑纪的血红细胞数量为(2.49±0.47)×10^12个/dm^3;白细胞数量为(1.08±0.21)×10^11个/dm^3;在白细胞中以嗜中性粒细胞数量最多,占52.42%±4.67%,其次为淋巴细胞,占25.72%±2.88%;单核细胞体积最大,占总数的3.27%±0.62%.(2)黑纪红细胞脆性大,抗性差,在0.65%~0.70%的NaCl溶液中开始溶血,在0.50%~0.55%的NaCl溶液中完全溶血.(3)黑纪的血红蛋白(HGB)为109.11±15.72g/dm^3,高于一般鱼类,与其较强的耐低氧生理能力相适应.(4)血清中血糖浓度为4.72±1.35mmol/dm^3,明显低于凶猛肉食性鱼类,与其岛礁性生态习性和杂食性相吻合.(5)雌雄鱼的乳酸脱氢酶分别为332.67±188.48U/dm^3和905.66±257.85U/dm^3,雌鱼显著高于雄鱼,可能与繁殖活动相关. 相似文献
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采用同工酶电泳方法,对在不同温度处理下刺参(Apostichopus japonicus)的乳酸脱氢酶(LDH)、酯酶(EST)和超氧化歧化酶(SOD)的表达情况进行分析。本文结果显示刺参组织内无LDH同工酶的表达。在10℃到20℃的温度突变处理中,12 h内EST和SOD均有新增酶带,在20℃到10℃的温度突变1 h内EST表达有新增酶带。3 h内SOD表达有新增酶带。在不同变温幅度的处理中,EST和SOD只有1条酶带。这表明,刺参对温度突变可产生积极的响应,对于其适应环境温度的变化具有重要意义。 相似文献
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Jaqueline C. Rodrigues Tania Maria Haas Costa Márcia R. Gallas Celso C. Moro 《Physics and Chemistry of Minerals》2009,36(8):439-446
We investigate the structural evolution of synthetic layered double hydroxides (LDH) samples, processed at room temperature
and high-pressure (up to 7.7 GPa) in a toroidal chamber with two pressure-transmitting media, lead and graphite, using X-ray
diffraction, thermogravimetry and N2-adsorption isotherms techniques. The X-ray patterns of compacted samples show a decrease in the peak intensities. For both
pressure-transmitting media, our samples revealed a reduction of the basal d-spacing for the (003) plane when processed at
7.7 GPa. The expected high-pressure-induced amorphization was not observed. Surprisingly, we find high-pressure processing
to have a strong influence on the memory effect of the LDH, due essentially to the reduction of the surface area and pore
closing. Even when immersed in water, our samples did not recover the LDH structure, when either calcined at 450°C and compacted
at 7.7 GPa, or calcined at 700°C and immediately compacted at 2.5 and 7.7 GPa. 相似文献
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Based on the principle of synthesis, a new method was put forward to dispose Congo Red anion-containing dyestuff from wastewater and its feasibility was also examined. The principle of the method is described as follows: Mg^2+ and Al^3+ are hydrolyzed to form Mg/Al-LDH by adding Mg^2+, Al^3+ and NaOH in wastewater containing anion dyestuff, which is selectively intercalated with the interlayer of LDH in order to balance positive structural charge. While Mg^2+ and Al^3+ are co-precipitated to form LDH, the anion dyestuff in wastewater will be removed by LDH synthesized in-situ, as is confirmed by X-ray diffraction analysis of settlings and chemical analysis of aqueous samples. In this work, we studied the influence of Mg/Al mole ratio, pH value, time and temperature of reaction on the removal of anion dyestuff and the use of Mg and Al. The experimental results showed the maximum removal efficiency of anion dyestuff could be attained when pH value was 9.0, and Mg/Al mol ratio was 2 : 1, reaction duration was 2 hours, and the effect of temperature was not remarkable, and the removal efficiency could reach 100%. Meanwhile, the Mg and Al added could be made good use of. This technology has the advantage of extraordinary efficiency of wastewater disposal. 相似文献