热带海洋学报
熱帶海洋學報
열대해양학보
JOURNAL OF TROPICAL OCEANOGRAPHY
2012年
5期
124-130
,共7页
陈政强%陈昌生%战文斌%林茂%杨红玲
陳政彊%陳昌生%戰文斌%林茂%楊紅玲
진정강%진창생%전문빈%림무%양홍령
九孔鲍%饥饿胁迫%免疫应答%抗感染力%副溶血弧菌
九孔鮑%饑餓脅迫%免疫應答%抗感染力%副溶血弧菌
구공포%기아협박%면역응답%항감염력%부용혈호균
Haliotis diversicolor supertexta%starvation stress%immune response%resistance%Vibrio parahaemolyticus
平均体重为14.25±2.21g的九孔鲍在水温24.3°C±1.7°C、盐度为(30.42±1.63)‰、pH值为8.15±0.11的环境条件下,饥饿胁迫20d是九孔鲍生理上可以承受的.九孔鲍在停食后5d时间内,血淋巴液蛋白含量没有显著变化,而7d后,九孔鲍血淋巴液蛋白质含量逐渐大幅度下降,由此推测,九孔鲍在饥饿7d后体蛋白被大量消耗于机体的生命维持.饥饿胁迫状态下九孔鲍血淋巴细胞吞噬活性下降,血淋巴细胞呼吸爆发水平下降,体液溶菌酶活性、凝集活性下降,抗感染免疫机能下降;但是,九孔鲍经历5d 时间的饥饿,血淋巴抗菌清除效率、血淋巴细胞吞噬活性、血淋巴细胞呼吸爆发产生的超氧阴离子水平、体液溶菌酶活性等免疫指标都变化不大,说明九孔鲍具有面对饥饿胁迫的应激适应机制.饥饿之初,机体通过维持既有免疫机能来适应环境、保护自我;饥饿胁迫持续时间超过7d,这种本能的逆境适应方式和机能维持终因营养不济和体内资源的持续消耗而改变和衰退.饥饿胁迫下的九孔鲍血淋巴液中的溶菌酶活性和凝集活性下降可能直接由体液蛋白含量下降引起,而胞内颗粒性物质减少则可能是血淋巴液中溶菌酶及凝集素活性减弱的直接原因.
平均體重為14.25±2.21g的九孔鮑在水溫24.3°C±1.7°C、鹽度為(30.42±1.63)‰、pH值為8.15±0.11的環境條件下,饑餓脅迫20d是九孔鮑生理上可以承受的.九孔鮑在停食後5d時間內,血淋巴液蛋白含量沒有顯著變化,而7d後,九孔鮑血淋巴液蛋白質含量逐漸大幅度下降,由此推測,九孔鮑在饑餓7d後體蛋白被大量消耗于機體的生命維持.饑餓脅迫狀態下九孔鮑血淋巴細胞吞噬活性下降,血淋巴細胞呼吸爆髮水平下降,體液溶菌酶活性、凝集活性下降,抗感染免疫機能下降;但是,九孔鮑經歷5d 時間的饑餓,血淋巴抗菌清除效率、血淋巴細胞吞噬活性、血淋巴細胞呼吸爆髮產生的超氧陰離子水平、體液溶菌酶活性等免疫指標都變化不大,說明九孔鮑具有麵對饑餓脅迫的應激適應機製.饑餓之初,機體通過維持既有免疫機能來適應環境、保護自我;饑餓脅迫持續時間超過7d,這種本能的逆境適應方式和機能維持終因營養不濟和體內資源的持續消耗而改變和衰退.饑餓脅迫下的九孔鮑血淋巴液中的溶菌酶活性和凝集活性下降可能直接由體液蛋白含量下降引起,而胞內顆粒性物質減少則可能是血淋巴液中溶菌酶及凝集素活性減弱的直接原因.
평균체중위14.25±2.21g적구공포재수온24.3°C±1.7°C、염도위(30.42±1.63)‰、pH치위8.15±0.11적배경조건하,기아협박20d시구공포생리상가이승수적.구공포재정식후5d시간내,혈림파액단백함량몰유현저변화,이7d후,구공포혈림파액단백질함량축점대폭도하강,유차추측,구공포재기아7d후체단백피대량소모우궤체적생명유지.기아협박상태하구공포혈림파세포탄서활성하강,혈림파세포호흡폭발수평하강,체액용균매활성、응집활성하강,항감염면역궤능하강;단시,구공포경력5d 시간적기아,혈림파항균청제효솔、혈림파세포탄서활성、혈림파세포호흡폭발산생적초양음리자수평、체액용균매활성등면역지표도변화불대,설명구공포구유면대기아협박적응격괄응궤제.기아지초,궤체통과유지기유면역궤능래괄응배경、보호자아;기아협박지속시간초과7d,저충본능적역경괄응방식화궤능유지종인영양불제화체내자원적지속소모이개변화쇠퇴.기아협박하적구공포혈림파액중적용균매활성화응집활성하강가능직접유체액단백함량하강인기,이포내과립성물질감소칙가능시혈림파액중용균매급응집소활성감약적직접원인.
The abalones of H. diversicolor supertexta with an average body weight of 14.25±2.21g can survive over a starvation period of 20 days at 24.3±1.7°C water temperature, (30.42±1.63)‰salinity, and pH of 8.15±0.11. The concentration of haemolymph protein in the abalones varied slightly in five days when exposed to starvation and substantially dropped progressively after seven days of starvation. Based on these resutls, it is surmised that there was mass humoral protein consumed for life support from 7d to 20d during starvation. The abalones survived with following decreases:a) phagocytosis activity of haemocytes; b) respiratory burst; c) haemolymph lysozyme activity; d) haemolymph agglutination titers and e) anti-infectious immunity during starvation; however, some immune parameters, such as haemolymph clearance efficiency , phagocytosis activity of haemocytes , respiratory burst and haemolymph lysozyme activity, sometimes went up somewhat in the first five days of starvation. Consequently, it is suggested that the abalones are born with functions of starvation stress adaptation. In early period of starvation the abalones did protect themselves and adaptate to surroundings by the way of improving immune effection owing to subnutrition, and this biophilia styles of stress adaptation and natural ability maintaining changed or degenerated from day seven of starvation resulted from seriously poor nutritional state and excessively intravital resources degradation. Perhaps the haemolymph lysozyme activity and agglutinating titers decreased resulting from reduction of haemolymph protein, while the intracellular granules reduction may directly result in haemolymph lysozyme activity and agglutinating titers dropped.
