盐度、光强和温度对盐生杜氏藻生长的影响及其交互作用

为明确各环境因子对盐生杜氏藻生长的影响是否存在交互作用及其影响的程度,采用3因素2水平正交试验方法,以7天批次培养获得的比生长速率为评价指标,研究了盐度（A）、光照强度（B）、温度（C）及两因素交互作用A×B、A×C、B×C对细胞增殖速率的影响,并测定了各条件下光合放氧速率、呼吸耗氧速率、叶绿素荧光及色素含量等以阐释作用机制。结果表明：温度是影响藻细胞增殖的最显著因素,其次是盐度与光照,交互作用B×C、A×C对绿色盐藻细胞生长有一定作用,但影响程度不如单一因子。确定利于盐藻细胞增殖的最优条件为：温度30℃、盐度110、光照强度120 μmol·m^-2·s^-1,而利于类胡萝卜素积累的条件则需将盐度提升至160。温度、光照通过影响光合放氧速率,而盐度通过影响呼吸耗氧速率调控藻细胞生长。     

低盐胁迫后两种龙须菜(Gracilariopsis lemaneiformis)叶绿素荧光特征的对比分析

以龙须菜981品种和其绿色突变型为材料, 运用叶绿素荧光分析技术, 比较低盐胁迫(盐度28和22)下二者光合生理的差异。研究结果证实, 在正常状态下, 龙须菜绿色突变型具有较高的光能利用效率(α)、最大相对电子传递速率(r_ETRmax)、半饱和光强(I_k)和光性能指数(P_Iabs), 表明其光合性能优于龙须菜981。在2种低盐条件下培养3 d, 盐度28处理后, 龙须菜981的最大相对电子传递速率下降了20.4%, 而龙须菜绿色突变型无显著变化, 表明盐度28可使龙须菜981的光合活性减弱。在盐度22培养3 d后, 龙须菜981的最大光量子产量(F_V/F_m)下降幅度高达16.0%, 而龙须菜绿色突变型的下降幅度为11.9%; 龙须菜981电子传递的量子产额(φ_EO)下降了20.3%, 而龙须菜绿色突变型则无显著变化; 另外, 盐度22处理后, 龙须菜981的光能利用效率和最大相对电子传递速率分别下降31.5%和22.1%, 下降幅度均高于龙须菜绿色突变型, 这表明龙须菜绿色突变型光合活性对低盐胁迫的耐受性高于龙须菜981。     

经济海藻羊栖菜（Sargassum fusiforme）幼体对镉胁迫的响应特性

镉(Cd)是水生生态环境中常见的重金属污染物,通常会抑制植物的生长,减少生物量,对植物产生毒害作用。为了研究羊栖菜幼苗对海水中Cd胁迫的抗氧化响应特性,我们在天然海水和Cd加富(100 μmol·L^-1)海水两种不同的Cd浓度下培养羊栖菜幼体。实验结果表明:Cd加富胁迫显著抑制了羊栖菜幼苗生长,使藻体颜色变暗。此外,高Cd处理显著降低了羊栖菜中的色素含量,生长速率,过氧化物酶(POD)活性,脱氢抗坏血酸(DHA)含量和谷胱甘肽还原酶(GR)活性。相反,高Cd处理显著促进了藻体内的Cd元素积累、对Cd₂⁺吸收速率,并增加了其暗呼吸/净光合速率比值(R_d/P_n),抗坏血酸(Vc)含量,可溶性蛋白质(SP)含量,且还原型谷胱甘肽(GSH)以及羊栖菜的超氧化物歧化酶(SOD)和过氧化氢酶(CAT)活性均显著增加,但对丙二醛(MDA)的影响不显著。虽然羊栖菜幼苗增加了其抗氧化活性并促进AsA-GSH循环,以产生H₂O₂并维持健康的新陈代谢,但高Cd胁迫显著限制了幼苗的光合作用,降低了其光合色素,抑制了其生长,并使其藻体颜色发生变化。海水中高浓度的Cd对羊栖菜幼苗具有毒性作用,并且极大地增加了这种海藻的食用风险。     

米氏凯伦藻和东海原甲藻生长的光照强度生态幅研究

藻类生长的光照生态辐是指在一定光照强度范围内藻类能生长和繁殖的水平范围，由藻类生长的最适光照强度、光照强度适宜生长范围和光照强度耐受限度构成。为了定量获取藻类生长的光照生态幅，在室内培养条件下，分别研究了三个温度（18、22、25℃）条件下六个不同光照强度[28.32、55.15、75.06、96.59、111.66和135.75μmol/（m²·s）]对米氏凯伦藻和东海原甲藻细胞数和最大比生长率的影响，依据Shelford耐受性定律建立了米氏凯伦藻和东海原甲藻的光照耐受性模型，并得到了藻类生长的最适光强、光强适宜生长范围和光强耐受限度的定量表达。结果表明：无论是米氏凯伦藻还是东海原甲藻，在同一温度条件下，在实验设定的光照强度水平范围内，均分别存在一个适宜藻类生长的最适光强I_opt，且当光强I ≤ I_opt时，藻类细胞密度和比生长率均随着光强的升高而显著增大；而当I ≥ I_opt时，藻类细胞密度和比生长率随着光强的升高而显著减小。此外，随着培养温度的升高，藻类细胞密度和比生长率均呈现"先升后降"的变化趋势。建立的藻类生长光照耐受性模型与Shelford耐受定律较为吻合，并定量得到了米氏凯伦藻在18、22、25℃下的最适生长光强分别为81.48、80.15、79.27μmol/（m²·s）；光强适宜生长范围分别为33.11-162.96、32.57-160.3、32.03-158.54μmol/（m²·s）；东海原甲藻在18、22、25℃下的最适生长光强分别为79.39、78.19、76.69μmol/（m²·s）；光强适宜生长范围分别为31.89-158.78、31.77-156.38、31.18-153.38μmol/（m²·s）。     

盐度和光照强度对赤潮异弯藻增长的效应

采用一次性培养的方法,研究了盐度和光照强度对赤潮异弯藻增长的效应。结果表明:赤潮异弯藻在3种光照和7个盐度梯度下均可生长。盐度对赤潮异弯藻的生长有极显著的影响(P0.01),光照强度对赤潮异弯藻的生长影响亦显著(P0.05),盐度和光照强度的交互作用无显著影响(P0.05)。不论在哪种光照下,低盐度10、15组赤潮异弯藻虽然能生长,但生长速率和最大细胞数量值均较低,随着盐度的提高,藻的生长速率和最大细胞数量值增大,但盐度增至30以后,即30~40试验组的生长速率和最大细胞数量值之间的差异不明显。而不论在哪个盐度条件下,赤潮异弯藻在3种光照强度下,均以6000lx时的藻细胞密度值最高,生长情况最好。     

外源铁对高有机负荷下泰来草光合作用及抗氧化酶活性的影响

海草床是近岸重要的“蓝碳”生态系统,有机负荷升高导致的硫化物胁迫是海草床衰退的重要诱因;外源铁（Fe）的添加可有效改善高有机负荷沉积物中海草的生存状态。本研究在日光温室内,通过向两种不同类型（钙质和硅质）沉积物中添加淀粉（5 g/kg）模拟海草床高有机负荷,同时添加不同量的Fe(II)（0.00、0.05、0.15、0.50 g/kg）,探究了泰来草（Thalassia hemprichii）叶片光合色素（Chl a、Chl b、Cx）含量、叶绿素荧光参数（F_m、F_v/F_m、F_v/F₀、Φ_PSII、ETR）及抗氧化酶（POD、SOD、CAT）活性对Fe添加的响应特点。结果表明,培养过程（30 d）〖JP2〗中,两种类型的沉积物中外源Fe添加均能有效提升泰来草叶片光合色素含量、叶绿素荧光参数水平和抗氧化酶活性,且当Fe（Ⅱ）添加量为0.50 g/kg时效果最优。Fe添加量对间隙水Fe²⁺浓度、S^2-浓度、泰来草叶片光合色素含量、叶绿素荧光参数及抗氧化酶活性均存在极显著（P<0.01）影响,底质类型对Fe²⁺浓度、抗氧化酶活性存在极显著（P<0.01）影响,底质类型与Fe添加量的交互作用对光合色素含量和抗氧化酶活性存在显著（P0.05）或极显著（P<0.01）影响。总体而言,Fe添加对泰来草光合作用和抗氧化酶活性的影响高于底质类型。本研究表明外源Fe能够有效改善钙质、硅质沉积物中泰来草生理生态指标。     

一株底栖硅藻——双眉藻的优化培养

双眉藻(Amphora sp.)是糙刺参(Stichopus horrens)喜食的优良饵料。本文采用光密度法分别测定了该藻在光照强度28～149 μmol/(m²·s)、温度20～35℃、盐度25~45 和氮质量浓度0～7 500 mg/L、磷质量浓度0～440 mg/L、硅质量浓度0～1 500 mg/L 以及氮磷硅多因子组合情况下的比生长速率, 探讨了光照、温度、盐度和不同质量浓度的氮、磷、硅单因子及多因子组合对该藻生长的影响, 以及该藻的最适生长条件。单因子试验结果表明, 该藻在光照范围为35～149 μmol/(m²·s)时都能良好生长, 最适光照为56～99 μmol/(m²·s), 低温时该藻生长缓慢, 最适生长温度为25～30℃。Amphora sp.为广盐性, 在盐度25～45 都能较好生长, 最适盐度为30～35。氮、磷、硅的最适质量浓度分别是750～7 500 mg/L、44 mg/L和150mg/L, 磷对该藻生长的影响比氮更显著。正交实验结果表明, 氮、磷、硅的最佳质量浓度分别为75 mg/L、44 mg/L 和150 mg/L, 最佳配比为2.4:1:3.4, 与其他底栖硅藻的相应指标存在一定的差异, 可能是物种和地域环境差异引起的, 反映出该藻适应高温、强光特殊栖息环境的特征。     

小球藻对不同盐度海水养殖尾水的净化效果研究

微藻处理养殖尾水已成为热点研究方向,有关一定盐度范围内海水养殖尾水的微藻处理研究较少。本试验调配了两种盐度(16和26)的海水养殖尾水,以空白组作对照,设置小球藻(Chlorella salina)初始接种密度梯度(5×10⁵、1×10⁶、2×10⁶和3×10⁶个/mL),研究小球藻对海水养殖尾水中不同形态氮和磷的去除效果。结果表明,小球藻在海水养殖尾水中生长良好,可有效去除尾水中的氮磷营养盐,16盐度组中各初始藻密度组对NH₄⁺、NO₃^-和总溶解态氮(total dissolved nitrogen,TDN)的去除率分别为85.03%~85.87%、60.87%~63.70%和54.53%~57.64%,组间无显著差异(P>0.05);26盐度组中除5×10⁵组外,其余藻密度组对NH₄⁺、NO₃^-和TDN的去除率分别为87.23%~88.16%、56.70%~57.79%和53.31%~54.62%,且组间无显著差异(P>0.05),表明小球藻初始接种密度对尾水中氮盐的去除无显著影响。除5×10⁵个/mL组外,16与26盐度组中对TDN的去除率无显著差异,表明盐度变化对氮的去除无影响。随着初始藻密度的升高,16和26处理组对总溶解态磷(total dissolved phosphorus,TDP)的去除率均上升,分别为76.13%~99.53%和63.72%~96.83%,表明藻初始接种密度的升高可促进尾水中磷的去除,且盐度升高没有影响小球藻对磷的去除。本研究获得了不同初始接种密度小球藻对一定盐度范围的海水养殖尾水的吸收利用特点,可为海水养殖尾水的生态化处理提供一定的理论基础。     

盐度胁迫对黄条鰤消化生理和抗应激指标的影响

为探讨盐度突变对黄条鰤（Seriola aureovittata）幼鱼消化酶活力和抗应激指标的影响，设计了采用自然海水养殖的对照组盐度29（S29）和实验组盐度分别为35（S35）、15（S15）、10（S10）和5（S5），对黄条鰤进行了120 h的急性胁迫实验，测定了各盐度条件下消化酶活力、超氧化物歧化酶（SOD）活力及甲状腺激素（T4）浓度的变化。结果显示：黄条鰤胃、肠、肝脏和幽门盲囊的脂肪酶活力，6 h时实验组与对照组差异不显著（P>0.05），12 h后呈现随时间的增长而活力降低的现象，且实验组显著低于对照组（P<0.05）；蛋白酶活力胁迫24 h后，实验组显著低于对照组（P<0.05）。胃和肝脏蛋白酶活力胁迫6~12 h，S35显著高于对照组（P<0.05）。胃和肠的淀粉酶活力胁迫后，实验组均显著低于对照组（P<0.05）；肝脏淀粉酶活力胁迫6~12 h，S35均高于对照组，24 h后显著低于对照组（P<0.05）。S5的SOD活力随着时间的增加而降低，且差异显著（P<0.05）；S15和S35在120 h时SOD活力降低并接近对照组。各盐度组血清中T4的浓度在6~96 h显著高于对照组（P<0.05），随后降低并在120 h时趋于稳定。综上所述，盐度胁迫对黄条鰤幼鱼消化酶活力、SOD活力和T4浓度影响较大，黄条鰤对盐度变化有较强的调节能力，相关生理指标变化可为黄条鰤养殖提供参考。     

龙须菜(Gracilariopsis)/江蓠(Gracilaria)的生长和种质特性分析

龙须菜(Gracilariopsis lemaneiformis)是具有重要经济价值和生态效益的大型红藻, 主要用作琼胶提取原料和鲍的饵料。本研究利用生理生化、液相色谱-质谱联用和氨基酸分析等方法, 比较了龙须菜(Gp. lemaneiformis) (wt、981、Gl-1、Gl-s、Gl-g)、异枝龙须菜(Gp. heterocla, Gh)和细基江蓠繁枝变种(Gracilaria tenuistipitata var. liu, Gt)的生长及藻胆蛋白、琼胶、红藻糖苷和氨基酸等的差异, 以期为龙须菜/江蓠栽培中的种质区分及选择提供参考。结果表明Gt在23 ℃和30 ℃条件下生长均最快, 其相对生长速率分别为野生型龙须菜(wt)的2.19倍和2.49倍。龙须菜Gl-s中藻胆蛋白浓度最高, 为wt的1.91倍。除了Gt之外, 其余6种藻中琼胶产率较高(16.22%~18.91%)。Gt中红藻糖苷和海藻糖积累最多, 分别为wt的3.50倍和1.81倍。Gl-g、Gl-s、Gt和Gh多糖丰富, 在36.89%~40.23%; 龙须菜981、Gl-1、wt和Gl-s总氨基酸浓度较高, 在152.35~161.32 mg·g^–1干质量之间, 并且981、Gl-1、Gl-s氨基酸评分较优。综合以上结果, 龙须菜981、Gl-1和Gl-s的藻胆蛋白、琼胶和氨基酸等均显著优于其他藻, 并且生长较快, 可用于琼胶、藻胆蛋白及多糖的提取或鲍的饵料; 而细基江蓠繁枝变种生长快、红藻糖苷和海藻糖丰富, 可大规模栽培用作鲍的饵料。该研究为丰富及开发利用中国大型海藻种质资源提供了重要的资料。     

经济海藻繁育、养殖及综合利用的回顾与展望

经济海藻繁育、养殖及综合利用是海洋农牧业及工业的重要组成部分。20世纪经过几代人的努力，我国在海带、紫菜、裙带菜及龙须菜的繁育、养殖关键技术等方面成功取得突破，为这些海藻的产业化提供坚实的保障，为我国成为世界海藻大国奠定了基础。海藻养殖产业为人们提供了食品、藻胶及其它丰富的产品，这包括保健品、功能食品、化妆品及药物等。海藻养殖产业也对人类经济、社会的发展起到重要作用，通过吸收环境中的二氧化碳、氮和磷，为海洋生态环境的改善发挥了重要作用。本文对我国海藻繁育、养殖及综合开发的历程进行简要回顾，对当前我国、中国科学院海洋研究海藻研究与应用进行了总结，对海藻研究发展的未来进行了展望；适应海藻产业从量向质的方向转变，同时兼顾生态环境效益，为我国海藻研发及应用提供参考。     

牙鲆与夏鲆杂交及回交子代胚胎发育及早期生长比较

通过人工授精技术对牙鲆(Paralichthys olivaceus )和夏鲆( Paralichthys dentatus )进行了正反交及回交实验,并比较了正反交、回交子代的胚胎发育时序和仔稚幼鱼的生长.结果表明:孵化水温18.0±0.5℃下,初孵仔鱼破膜用时为:牙鲆41 h,正交鲆47 h,回交牙鲆42 h30 min,回交夏鲆44 h;16.5±0.5℃下,夏鲆61 h 40 min,反交鲆66 h.正交及两组回交子代在胚胎期均可正常发育.反交子代卵裂期出现异常,仅少数胚胎可以孵化.胚胎孵化后,在1~64日的培养过程中,反交鲆于3~4 d 内全部死亡,回交牙鲆发育至18日龄时全部死亡.正交鲆和回交夏鲆可正常发育,与牙鲆没有明显差别     

外来与乡土红树种间竞争十五年的群落现状与发展趋势

为了探究经过15年种间竞争后的外来无瓣海桑(Sonneratia apetala)与乡土红树植物秋茄(Kandelia obovata)的群落现状与发展趋势,采用样方法对福建省厦门市同安湾典型红树林群落特征开展实地研究。结果表明:(1)无瓣海桑是无瓣海桑群落中的优势种,而秋茄仅在该群落北侧与无瓣海桑少量混交,秋茄+无瓣海桑群落为种植秋茄和无瓣海桑的茂密混交林;(2)调查幼苗天然更新情况中发现,在两个群落中秋茄均有幼苗自然生长,但均未发现无瓣海桑幼苗;(3)生长状况的调查发现,无瓣海桑长势较秋茄差,其倒伏数量和倒伏程度明显比秋茄严重;(4)无瓣海桑在秋茄+无瓣海桑群落中的生长状况优于在无瓣海桑群落,倒伏程度较轻。综上可见,无瓣海桑在福建省厦门市该研究样地及其周边更新成林和扩散困难,未有入侵秋茄群落的优势;无瓣海桑在风浪环境下,较秋茄更易出现倒伏和枯死等不可逆生长现象;红树林种植过程中采用"外来种+乡土种"的模式,可提高整个林分的抗风浪能力,但需注意种植布局规格的合理性,可避免外来速生快长种与乡土种紧邻混交产生较大的种间竞争,减小对乡土种生长的影响。     

Vertical and horizontal distribution of meiofauna in mangrove sediments in Transkei, southern Africa

The depth-distribution profiles of meiofauna in four transects in the Mngazana River, Transkei were studied during summer 1980. Highest densities [±1000(100 cm³)⁻¹] were encountered within the top 10 cm of the sediment. Nematodes dominated (80%) and the remainder was made up of ciliates, oligochaetes, gastrotrichs, and low numbers of polychaetes, copepods, kinorhynchs and various crustacean larvae. Among chemical parameters Eh correlated most consistantly with distribution, particularly at the lower tidal levels. Temperature and pH appeared to be of lesser importance. The maximum estimated depth of penetration was on average 72 cm at the HW levels; 32 at MW and 23 at LW. The mean dry biomass was estimated at 1073 mg m⁻²; 941 mg m⁻² and 196 mg m⁻² at these tidal levels respectively. The importance of preliminary studies designed to estimate the depth distribution of meiofauna is discussed.     

Temporal changes and spatial variation of soil oxygen consumption, nitrification and denitrification rates in a tidal salt marsh of the Lagoon of Venice, Italy

The aim of the present study was to investigate seasonal and spatial patterns of soil oxygen consumption, nitrification, denitrification and fluxes of dissolved inorganic nitrogen (DIN) in a tidal salt marsh of the Lagoon of Venice, Italy. In the salt marsh, intact soil cores including overlying water were collected monthly at high tide from April to October in salt marsh creeks and in areas covered by the dominant vegetation, Limonium serotinum. In May, cores were also collected in areas with vegetation dominated by Juncus maritimus and Halimione portulacoides. In laboratory incubations at in situ temperature in the dark, flux rates of oxygen and DIN were monitored in the overlying water of the intact cores. ¹⁵N-nitrate was added to the overlying water and nitrification and denitrification were measured using isotope-dilution and -pairing techniques. The results show that highest soil oxygen consumption coincided with the highest water temperature in June and July. The highest denitrification rates were recorded in spring and autumn coinciding with the highest nitrate concentrations. Soil oxygen consumption and nitrification rates differed between sampling sites, but denitrification rates were similar among the different vegetation types. The highest rates were recorded in areas covered with L. serotinum. Burrowing soil macrofauna enhanced oxygen consumption, nitrification and denitrification in April and May. The data presented in this study indicate high temporal as well as spatial variations in the flux of oxygen and DIN, and nitrogen transformations in the tidal salt marshes of the Venice lagoon during the growth season. The results identify the salt marshes of the Venice lagoon as being metabolically very active ecosystems with a high capacity to process nitrogen.     

Tissue Cu, Fe and Mn concentrations in different-aged and different functional thallus regions of three brown algae from western Ireland

Copper and iron concentrations in three brown algae, Ascophyllum nodosum, Fucus vesiculosus and Laminaria digitata (and additionally Mn in L. digitata) from the Irish west coast were determined using flame atomic absorption spectrophotometry. Metal concentrations in the three species were indicative of prevailing bioavailable metal concentrations in situ but varied greatly between functional tissue parts, between sites and over time. Cu concentrations in actively growing tips of A. nodosum decreased over a 4-month period during autumn/winter, while Fe concentrations increased. Both Fe and Cu concentrations in different thallus sections of A. nodosum and F. vesiculosus increased with increasing age of thallus part in a clean site, but there was no consistent trend for F. vesiculosus from an industrialized site. Within sites, concentrations of all Cu and Fe were similar in both fucoids, but concentrations at the industrialized site were about twice as high as at the pristine site. In L. digitata, all three metals were highest in holdfasts, but had distinctly different distribution patterns in stipes and blade sections, which were most likely related to growth pattern and tissue function. Fe was lowest in meristematic and young blade regions, suggesting small-scale Fe limitation in actively growing tissue. Mn concentrations were higher in distal blade sections than in stipes, and Cu concentrations were highest in meristematic and young thallus parts.     

Propagation and growth of Ponnotheres pholadis living in mantle cavity of Hiatula acuta

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Induction of phenol-type sulfotransferase and glucuronosyltransferase in channel catfish and mummichog

Conjugation of phenolic xenobiotics and metabolites through sulfation and glucuronidation is an important biotransformation pathway. Sulfotransferases (SULT) are generally considered non-inducible, while some UDP-glucuronosyltransferase (UGT) isoenzymes are co-induced with cytochrome P450-1A by Ah-receptor ligands. To test these assumptions for two fish species, we measured sulfation and glucuronidation of 9-hydroxybenzo[a]pyrene in 3-methylcholanthrene (3-MC) treated channel catfish (Ictalurus punctatus) and in mummichog (Fundulus heteroclitus) from the creosote contaminated Atlantic Wood site in the Elizabeth River, VA. The results show a significant induction of both UGT and SULT activity in 3-MC treated catfish, linked to the expected induction of EROD activity. In mummichog, significant induction of UGT was measured at the contaminated site over the reference site (King's Creek, VA), as well as extremely low SULT activities at both sites. Western blots, using a polyclonal antibody for catfish phenol-type SULT, confirmed the absence of phenol-type SULT in mummichog. Residual, though slightly inducible, SULT activity may be attributed to other SULT isoforms.     

Biological identification and determination of optimum growth conditions for four species of Navicula

Four species in the genus Navicula were isolated using the serial dilution method. Based on scanning electron microscopy(SEM) and sequence comparisons of two segments of genes(small ribosomal subunit and large subunit of Rubisco), the species were identified as Navicula perminuta, N. pseudacceptata, N. vara, and N. rhynchocephala. Based on phylogenetic analysis and culture trials, there was a close relationship between N. perminuta and N. vara. Growth of these species was evaluated using measurements of optical density at 680 nm(OD680) under various environmental factors. Results showed that the optimum culture conditions were 25℃, 50–100 μmol photons m-2 s-1, pH 8.0, and salinities from 25 to 30. However, the favorable salinity for N. perminuta was surprisingly high at 35. Nutrient requirement analysis demonstrated that growth of Navicula depended on the availability of SiO32-. Their relative growth rates(RGR) peaked at the highest tested level(0.25 mmol/L). The optimal concentrations of NO3- and PO43- were 3.6 mmol/L and 0.18 mmol/L, respectively. Culture of these Navicula species for abalone or sea cucumber aquaculture should take these factors into consideration.     

缢蛏（Sinonovacula constricta）GST和HSP90基因克隆及其在氨氮胁迫下的表达特征分析

克隆获得缢蛏(Sinonovacula constricta)谷胱甘肽S-转移酶(Sc-GSTσ)和热休克蛋白90(Sc-HSP90)基因的cDNA全长，分析了它们的组织表达差异及其在氨氮胁迫下的表达特征。结果表明，Sc-GSTσ的全长cDNA为1 414 bp，含有639 bp的开放阅读框(Open Reading Frame，ORF)，编码212个氨基酸，Sc-GSTσ氨基酸序列与其他物种的GST氨基酸序列同源性为31.88%～43.40%；而Sc-HSP90的全长cDNA为2 752 bp，ORF为2 181 bp，编码726个氨基酸，其氨基酸序列与其他物种HSP90的氨基酸序列同源性为76.77%～87.05%。荧光定量PCR分析发现，Sc-GSTσ和Sc-HSP90在缢蛏各组织中均有表达，两者均在肝胰腺中表达量最高。氨氮胁迫后，Sc-GSTσ和Sc-HSP90 mRNA在肝胰腺中表达均显著上调(p<0.05)，表明氨氮胁迫引起机体的应激反应，2个基因可能参与机体解毒或防御过程。但胁迫后期表达量下降推测是机体的防御能力有限，不足以完全保护宿主免受应激诱导的细胞损伤。