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Effects of temperatures and salinities on oxygen consumption and ammonia-N excretion rate of clam Meretrix meretrix were studied in laboratory from Oct. 2003 to Jan. 2004. Two schemes were designed in incremented temperature at 10, 15, 20, 25℃ at 31.5 salinity and in incremented salinity at16.0, 21.0, 26.0, 31.5, 36.0, and 41.0 at 20℃, all for 8-10 days. From 10 to 25℃, both respiration and excretion rate were increased. One-way ANOVA analysis demonstrated significant difference (P〈0.01) in physiological parameters in this temperature range except between 15 and 20℃. The highest Q10 thermal coefficient value (12.27) was acquired between 10 and 15℃, and about 1 between 15 and 20℃, indicating M. meretrix could well acclimate to temperature changes in this range. Salinity also had significant effects on respiration and excretion rate (P〈0.05). The highest values of respiration and excretion rate of M. meretrix were recorded at 16.0 salinity (20℃). These two physiological parameters decreased as salinity increased until reached the minimum Q10 value at 31.5 (20℃), then again, these parameters increased with increasing salinity from 31.5 to 41.0. M. meretrix can catabolize body protein to cope with osmotic pressure stress when environmental salinity is away from its optimal range. No significant difference was observed between 26.0 and 36.0 in salinity (P〉0.05), suggesting that a best metabolic salinity range for this species is between 26.0 and 36.0. 相似文献
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The large water-pumping and particle-capturing gills of the filter-feeding blue mussel Mytilus edulis are oversized for respiratory purposes. Consequently, the oxygen uptake rate of the mussel has been suggested to be rather insensitive to decreasing oxygen concentrations in the ambient water, since the diff usion rate of oxygen from water flowing through the mussel determines oxygen uptake. We tested this hypothesis by measuring the oxygen uptake in mussels exposed to various oxygen concentrations. These concentrations were established via N2-bubbling of the water in a respiration chamber with mussels fed algal cells to stimulate fully opening of the valves. It was found that mussels exposed to oxygen concentrations decreasing from 9 to 2 mg O_2/L resulted in a slow but significant reduction in the respiration rate, while the filtration rate remained high and constant. Thus, a decrease of oxygen concentration by 78% only resulted in a 25% decrease in respiration rate. However, at oxygen concentrations below 2 mg O_2/L M. edulis responded by gradually closing its valves, resulting in a rapid decrease of filtration rate, concurrent with a rapid reduction of respiration rate. These observations indicated that M.edulis is no longer able to maintain its normal aerobic metabolism at oxygen concentration below 2 mg O 2/L, and there seems to be an energy-saving mechanism in bivalve molluscs to strongly reduce their activity when exposed to low oxygen conditions. 相似文献
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在实验室条件下采用静水法测定了海水盐度(16、20、24、28、32、36、40、44)对紫血蛤(Sanguin-olaria violacea)耗氧率和排氨率的影响.紫血蛤按壳长分为大(50 mm以上)、中(40~50 mm)、小(小于40 mm)三种规格.结果显示,在盐度16~36范围内紫血蛤单位体重耗氧率和排氨率均随盐度升高显著增加(p<0.01),在盐度为36取得最大值,三种规格紫血蛤的耗氧率最大值分别为1.11、1.25和1.57 mg/(g.h),排氨率最大值分别为62.34、83.89和104.68μg/(g.h);其后随盐度上升,耗氧率和排氨率显著降低,表明在一定范围内,紫血蛤可通过调整生理代谢水平适应低盐或高盐环境.养殖驯化7 d后的累计死亡率以盐度44组为最高(55%),表明44可能是紫血蛤的耐盐上限.在盐度16~36范围内,紫血蛤单位体重耗氧率、排氨率和组织干重之间的关系可用幂函数表示. 相似文献
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