氨氮急性攻毒对水产经济动物棘胸蛙(Paa spinosa)蝌蚪死亡率、排氨率、耗氧率及窒息点的影响
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摘要
以体长(1.932±0.204)cm、体质量(1.386±0.055)g的棘胸蛙蝌蚪为实验动物,在水温(24±0.2)℃、DO(7.30±0.01)mg/L、pH 7.30±0.01条件下,采用静水停食法开展了氨氮对蝌蚪的急性攻毒实验,并以此为基础,测定了不同氨氮质量浓度胁迫下棘胸蛙蝌蚪的排氨率、耗氧率、氧氮比及窒息点。结果表明:(1)蝌蚪对氨氮急性攻毒具明显的运动避毒行为,濒死个体的背部皮肤和肝脏均具明显的色变症状;(2)氨氮对蝌蚪的急性致死率具明显的剂量—时间效应,24h、48h、72h、96h LC50依次为177.5、151.7、148.6和146.8mg/L,毒性时段蓄积程度系数呈持续下降趋势,24—48h、48—72h、72—96h的时段MAC值分别为84.04%、10.1%和5.86%;(3)蝌蚪夜均、昼均、日均及时段排氨率随氨氮质量浓度增加均呈阶梯式下降趋势,其中时段排氨率与对照组均无显著差异的为9.80mg/L实验组,夜均、昼均、日均及时段排氨率与对照组均无显著差异的仅为2.45mg/L实验组(P>0.05);(4)氨氮对蝌蚪呼吸耗氧具低毒兴奋效应,其夜均、昼均和日均耗氧率随氨氮质量浓度增加均呈先升后降趋势,峰值氨氮质量浓度范围均为4.90—7.35mg/L(P<0.05),与对照组均无显著差异的仅为14.70mg/L实验组(P>0.05),窒息点含氧量随氨氮质量浓度增加呈先降后升趋势,谷底出现于4.90mg/L实验组(P<0.05),与对照组无显著差异的仅为9.80mg/L实验组(P>0.05);(5)实验期间,蝌蚪氧氮比(O:N)波动于18.87—25.34之间,昼均和日均氧氮比(O:N)随氨氮质量浓度增加均依次呈"上升—稳定—下降—再稳定"之趋势,两者的峰值氨氮质量浓度范围分别为4.90—14.70mg/L和4.90—9.80mg/L,夜均氧氮比(O:N)呈先升后降趋势,峰值出现于7.35mg/L实验组(P<0.05)。
The Paa spinosa tadpoles with a length of 1.932±0.204 cm and body weight of 1.386±0.055 g were used as experimental animals.Under the condition of water temperature of 24±0.2℃,DO 7.30±0.01 mg/L and pH 7.30±0.01,the acute effect of ammonia toxicity attack on tadpoles was carried out with the method of static water without feeding and the basis of this condition to determine the ammonia excretion rate,oxygen consumption,the proportion of oxygen and nitrogen and suffocation point of Paa spinosa tadpoles under different ammonia concentration exposure.The results shows that(1) tadpoles had obvious exercise avoidance behavior for against acute attack of ammonia,so the back skin and liver of the dying individual have obvious symptom of chromosis;(2) tadpoles have significant dose-time effect of ammonia nitrogen on acute mortality,24 h,48 h,72 h and 96 h LC50 were 177.5,151.7,148.6 and 146.8 mg/L in succession.The cumulative degree coefficient of toxic time showed a downward trend,and the value of MAC in the time frame 24—48 h,48—72 h and 72—96 h were 84.04%,10.1% and 5.86% respectively.(3) The rate of ammonia excretion of the tadpoles decreased step by step with the increase of ammonia concentration in average night.There was no significant difference in ammonia excretion rate between 9.80 mg/L experimental group and control group and there was no significant difference in night average,day average,daily average and period ammonia excretion rate between 2.45 mg/L experimental group and control group(P>0.05).(4) The effect of ammonia nitrogen on respiration and oxygen consumption of tadpoles was low.The rate of oxygen consumption at night,day and day increased first and then decreased with the increase of ammonia concentration.The range of the peak concentration of ammonia nitrogen was 4.90—7.35 mg/L(P<0.05),but there was no significant difference between the 14.70 mg/L group and the control group(P>0.05).The oxygen content in the asphyxiating point decreased first and then increased with the increase of the concentration of ammonia nitrogen.The bottom of the valley appeared in the 4.90 mg/L experimental group(P<0.05),but there was no significant difference between the 9.80 mg/L experimental group(P>0.05) and the control group(P>0.05).(5) During the experiment,the oxygen nitrogen ratio of tadpoles fluctuated between 18.87—25.34,and the average daily oxygen nitrogen ratio(O:N) increased with the increase of ammonia concentration.The peak NH3-N concentration ranges were 4.90—14.70 mg/L and 4.90—9.80 mg/L,respectively.The average oxygen and nitrogen increased first and then decreased in the 7.35 mg/L experimental group(P<0.05).
The Paa spinosa tadpoles with a length of 1.932±0.204 cm and body weight of 1.386±0.055 g were used as experimental animals.Under the condition of water temperature of 24±0.2℃,DO 7.30±0.01 mg/L and pH 7.30±0.01,the acute effect of ammonia toxicity attack on tadpoles was carried out with the method of static water without feeding and the basis of this condition to determine the ammonia excretion rate,oxygen consumption,the proportion of oxygen and nitrogen and suffocation point of Paa spinosa tadpoles under different ammonia concentration exposure.The results shows that(1) tadpoles had obvious exercise avoidance behavior for against acute attack of ammonia,so the back skin and liver of the dying individual have obvious symptom of chromosis;(2) tadpoles have significant dose-time effect of ammonia nitrogen on acute mortality,24 h,48 h,72 h and 96 h LC50 were 177.5,151.7,148.6 and 146.8 mg/L in succession.The cumulative degree coefficient of toxic time showed a downward trend,and the value of MAC in the time frame 24—48 h,48—72 h and 72—96 h were 84.04%,10.1% and 5.86% respectively.(3) The rate of ammonia excretion of the tadpoles decreased step by step with the increase of ammonia concentration in average night.There was no significant difference in ammonia excretion rate between 9.80 mg/L experimental group and control group and there was no significant difference in night average,day average,daily average and period ammonia excretion rate between 2.45 mg/L experimental group and control group(P>0.05).(4) The effect of ammonia nitrogen on respiration and oxygen consumption of tadpoles was low.The rate of oxygen consumption at night,day and day increased first and then decreased with the increase of ammonia concentration.The range of the peak concentration of ammonia nitrogen was 4.90—7.35 mg/L(P<0.05),but there was no significant difference between the 14.70 mg/L group and the control group(P>0.05).The oxygen content in the asphyxiating point decreased first and then increased with the increase of the concentration of ammonia nitrogen.The bottom of the valley appeared in the 4.90 mg/L experimental group(P<0.05),but there was no significant difference between the 9.80 mg/L experimental group(P>0.05) and the control group(P>0.05).(5) During the experiment,the oxygen nitrogen ratio of tadpoles fluctuated between 18.87—25.34,and the average daily oxygen nitrogen ratio(O:N) increased with the increase of ammonia concentration.The peak NH3-N concentration ranges were 4.90—14.70 mg/L and 4.90—9.80 mg/L,respectively.The average oxygen and nitrogen increased first and then decreased in the 7.35 mg/L experimental group(P<0.05).
引文
中华人民共和国农业部,2001.NY 5051-2001无公害食品淡水养殖用水水质.北京:中国农业出版社,1-5
王志铮,申屠琰,熊威,2007.4种消毒剂对麦瑞加拉鲮鱼幼鱼的急性毒性研究.海洋水产研究,28(3):92-97
王志铮,任夙艺,赵晶等,2013.Zn2+对日本沼虾(Macrobrachium nipponensis)的急性致毒效应.海洋与湖沼,44(1):235-240
朱卫东,任夙艺,申屠琰等,2016.水温对棘胸蛙(Paa spinosa)蝌蚪行为及尾部皮肤和肝脏相关功能酶活力的影响.海洋与湖沼,47(1):245-252
张云龙,张海龙,王凌宇等,2017.氨氮对鱼类毒性的影响因子及气呼吸型鱼类耐氨策略.水生生物学报,41(5):1157-1168
杨程,刘哲宇,朱卫东等,2016.水温对水产经济动物棘胸蛙(Paa spinosa)蝌蚪耗氧率、窒息点和排氨率的影响.海洋与湖沼,47(6):1233-1240
邹李昶,任夙艺,王志铮等,2015.氨氮急性胁迫对日本沼虾(Macrobrachium nipponensis)死亡率、耗氧率及窒息点的影响.海洋与湖沼,46(1):206-211
陈雯,俞宝根,郑荣泉等,2010.温度对棘胸蛙胚胎发育及蝌蚪表型特征的影响.贵州农业科学,38(1):108-110
赵蒙蒙,郑荣泉,宋婷婷等,2014.饲料营养水平和温度对棘胸蛙蝌蚪变态发育的影响.广东农业科学,41(20):119-122
郝小凤,刘洋,凌去非,2012.氨氮对泥鳅的急性毒性及对其肝、鳃组织超微结构的影响.水生态学杂志,33(5):101-107
陶志英,马保新,余智杰等,2015.环境因子对棘胸蛙蝌蚪生长发育的影响.湖南农业科学,(2):55-56,59
章海鑫,余智杰,马保新等,2014.不同饲养环境因子水平对棘胸蛙蝌蚪变态的影响.贵州农业科学,42(12):180-182
黄艳,2015.氨氮胁迫对虎纹蛙蝌蚪及成体的毒性研究.金华:浙江师范大学硕士学位论文,12-24
黄贞胜,2016.高温胁迫对棘胸蛙蝌蚪抗氧化酶活力的影响.渔业研究,38(6):445-452
Burggren W,Mwalukoma A,1983.Respiration during chronic hypoxia and hyperoxia in larval and adult bullfrogs(Rana catesbeiana)I.Morphological responses of lungs,skin and gills.Journal of Experimental Biology,105(l):191-203
Burggren W W,West N H,1982.Changing respiratory importance of gills,lungs and skin during metamorphosis in the bullfrog rana catesbeiana.Respiratory Physiology,47(2):151-164
Buttle L G,Uglow R F,Cowx I G,1996.The effect of emersion and handling on the nitrogen excretion rates of Clarias gariepinus.Journal of Fish Biology,49(4):693-701
Chew S F,Gan J,Ip Y K,2005.Nitrogen metabolism and excretion in the swamp eel,Monopterus albus,during 6 or40 days of estivation in mud.Physiological and Biochemical Zoology,78(4):620-629
Chew S F,Jin Y,Ip Y K,2001.The loach Misgurnus anguillicaudatus reduces amino acid catabolism and accumulates alanine and glutamine during aerial exposure.Physiological and Biochemical Zoology,74(2):226-237
Lim C B,Chew S F,Anderson P M et al,2001.Reduction in the rates of protein and amino acid catabolism to slow down the accumulation of endogenous ammonia:A strategy potentially adopted by mudskippers(Periophthalmodon schlosseri and Boleophthalmus boddaerti)during aerial exposure in constant darkness.Journal of Experimental Biology,204(9):1605-1614
Ikeda T,1974.Nutritional ecology of marine zooplankton.Memoirs of the Faculty of Fisheries,Hokkaido University,22(1):1-97
Ip Y K,Lim C K,Lee S M L et al,2004a.Postprandial increases in nitrogenous excretion and urea synthesis in the giant mudskipper Periophthalmodon schlosseri.Journal of Experimental Biology,207(17):3015-3023
Ip Y K,Tay A S L,Lee K H et al,2004b.Strategies for surviving high concentrations of environmental ammonia in the swamp eel Monopterus albus.Physiological and Biochemical Zoology,77(3):390-405
Jia X X,Burggren W W,1997.Developmental Changes in chemoreceptive control of gill ventilation in larval bullfrogs(Rana catesbeiana)I.Reflex ventilatory responses to ambient hyperoxia,hypoxia and NaCN.Journal of Experimental Biology,200(16):2229-2236
Mayzaud P,1976.Respiration and nitrogen excretion of zooplankton.IV.The influence of starvation on the metabolism and the biochemical composition of some species.Marine Biology,37(1):47-58
Mayzaud P,Conover R J,1988.O:N atomic ratio as a tool to describe zooplankton metabolism.Marine Ecology Progress Series,45(3):289-302
Otto D M E,Moon T W,1996.Endogenous antioxidant systems of two teleost fish,the rainbow trout and the black bullhead,and the effect of age.Fish Physiology and Biochemistry,15(4):349-358
Sprague J B,1971.Measurement of pollutant toxicity to fish-III.Sublethal effects and“safe”concentrations.Water Research,5(6):245-266
Tay A S L,Chew S F,IpY K,2003.The swamp eel Monopterus albus reduces endogenous ammonia production and detoxifies ammonia to glutamine during 144h of aerial exposure.Journal of Experimental Biology,206(14):2473-2486
Tsui T K N,Randall D J,Chew S F et al,2002.Accumulation of ammonia in the body and NH3 volatilization from alkaline regions of the body surface during ammonia loading and exposure to air in the weather loah Misgurnus anguillicaudatus.Journal of Experimental Biology,205(5):651-659
王志铮,申屠琰,熊威,2007.4种消毒剂对麦瑞加拉鲮鱼幼鱼的急性毒性研究.海洋水产研究,28(3):92-97
王志铮,任夙艺,赵晶等,2013.Zn2+对日本沼虾(Macrobrachium nipponensis)的急性致毒效应.海洋与湖沼,44(1):235-240
朱卫东,任夙艺,申屠琰等,2016.水温对棘胸蛙(Paa spinosa)蝌蚪行为及尾部皮肤和肝脏相关功能酶活力的影响.海洋与湖沼,47(1):245-252
张云龙,张海龙,王凌宇等,2017.氨氮对鱼类毒性的影响因子及气呼吸型鱼类耐氨策略.水生生物学报,41(5):1157-1168
杨程,刘哲宇,朱卫东等,2016.水温对水产经济动物棘胸蛙(Paa spinosa)蝌蚪耗氧率、窒息点和排氨率的影响.海洋与湖沼,47(6):1233-1240
邹李昶,任夙艺,王志铮等,2015.氨氮急性胁迫对日本沼虾(Macrobrachium nipponensis)死亡率、耗氧率及窒息点的影响.海洋与湖沼,46(1):206-211
陈雯,俞宝根,郑荣泉等,2010.温度对棘胸蛙胚胎发育及蝌蚪表型特征的影响.贵州农业科学,38(1):108-110
赵蒙蒙,郑荣泉,宋婷婷等,2014.饲料营养水平和温度对棘胸蛙蝌蚪变态发育的影响.广东农业科学,41(20):119-122
郝小凤,刘洋,凌去非,2012.氨氮对泥鳅的急性毒性及对其肝、鳃组织超微结构的影响.水生态学杂志,33(5):101-107
陶志英,马保新,余智杰等,2015.环境因子对棘胸蛙蝌蚪生长发育的影响.湖南农业科学,(2):55-56,59
章海鑫,余智杰,马保新等,2014.不同饲养环境因子水平对棘胸蛙蝌蚪变态的影响.贵州农业科学,42(12):180-182
黄艳,2015.氨氮胁迫对虎纹蛙蝌蚪及成体的毒性研究.金华:浙江师范大学硕士学位论文,12-24
黄贞胜,2016.高温胁迫对棘胸蛙蝌蚪抗氧化酶活力的影响.渔业研究,38(6):445-452
Burggren W,Mwalukoma A,1983.Respiration during chronic hypoxia and hyperoxia in larval and adult bullfrogs(Rana catesbeiana)I.Morphological responses of lungs,skin and gills.Journal of Experimental Biology,105(l):191-203
Burggren W W,West N H,1982.Changing respiratory importance of gills,lungs and skin during metamorphosis in the bullfrog rana catesbeiana.Respiratory Physiology,47(2):151-164
Buttle L G,Uglow R F,Cowx I G,1996.The effect of emersion and handling on the nitrogen excretion rates of Clarias gariepinus.Journal of Fish Biology,49(4):693-701
Chew S F,Gan J,Ip Y K,2005.Nitrogen metabolism and excretion in the swamp eel,Monopterus albus,during 6 or40 days of estivation in mud.Physiological and Biochemical Zoology,78(4):620-629
Chew S F,Jin Y,Ip Y K,2001.The loach Misgurnus anguillicaudatus reduces amino acid catabolism and accumulates alanine and glutamine during aerial exposure.Physiological and Biochemical Zoology,74(2):226-237
Lim C B,Chew S F,Anderson P M et al,2001.Reduction in the rates of protein and amino acid catabolism to slow down the accumulation of endogenous ammonia:A strategy potentially adopted by mudskippers(Periophthalmodon schlosseri and Boleophthalmus boddaerti)during aerial exposure in constant darkness.Journal of Experimental Biology,204(9):1605-1614
Ikeda T,1974.Nutritional ecology of marine zooplankton.Memoirs of the Faculty of Fisheries,Hokkaido University,22(1):1-97
Ip Y K,Lim C K,Lee S M L et al,2004a.Postprandial increases in nitrogenous excretion and urea synthesis in the giant mudskipper Periophthalmodon schlosseri.Journal of Experimental Biology,207(17):3015-3023
Ip Y K,Tay A S L,Lee K H et al,2004b.Strategies for surviving high concentrations of environmental ammonia in the swamp eel Monopterus albus.Physiological and Biochemical Zoology,77(3):390-405
Jia X X,Burggren W W,1997.Developmental Changes in chemoreceptive control of gill ventilation in larval bullfrogs(Rana catesbeiana)I.Reflex ventilatory responses to ambient hyperoxia,hypoxia and NaCN.Journal of Experimental Biology,200(16):2229-2236
Mayzaud P,1976.Respiration and nitrogen excretion of zooplankton.IV.The influence of starvation on the metabolism and the biochemical composition of some species.Marine Biology,37(1):47-58
Mayzaud P,Conover R J,1988.O:N atomic ratio as a tool to describe zooplankton metabolism.Marine Ecology Progress Series,45(3):289-302
Otto D M E,Moon T W,1996.Endogenous antioxidant systems of two teleost fish,the rainbow trout and the black bullhead,and the effect of age.Fish Physiology and Biochemistry,15(4):349-358
Sprague J B,1971.Measurement of pollutant toxicity to fish-III.Sublethal effects and“safe”concentrations.Water Research,5(6):245-266
Tay A S L,Chew S F,IpY K,2003.The swamp eel Monopterus albus reduces endogenous ammonia production and detoxifies ammonia to glutamine during 144h of aerial exposure.Journal of Experimental Biology,206(14):2473-2486
Tsui T K N,Randall D J,Chew S F et al,2002.Accumulation of ammonia in the body and NH3 volatilization from alkaline regions of the body surface during ammonia loading and exposure to air in the weather loah Misgurnus anguillicaudatus.Journal of Experimental Biology,205(5):651-659
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