长期高碱胁迫下凡纳对虾敏感及耐受家系生长性能与生理响应

Comparative study on growth performance and physiological responses of sensitive and tolerant families of Penaeus vannamei under long-term high alkalinity stress

  • 摘要:
    目的 明确凡纳对虾敏感与耐受家系在长期高碱胁迫下的生长性能差异及生理响应,为耐碱品种选育和盐碱水高效养殖提供科学依据。
    方法 以凡纳对虾敏感家系和耐受家系为研究对象,设置正常对照组(碱度 0.5 mmol/L, pH 8.2)和高碱胁迫组(碱度 10.0 mmol/L, pH 8.9),进行为期 80 d 的长期养殖实验。分别于 30 d 和 80 d 测定两家系的存活率与生长指标,并在第80 d实验结束时采集血淋巴样本,对比分析渗透压调节能力 (OC)、血氨浓度(BAC)及血淋巴 pH 值的差异。
    结果 生长性能方面,三因素方差分析显示,时间(D)、家系(FA)与环境(E)对凡纳对虾终末均重(FBW)、特定生长率(SGR)和绝对生长率(AGRW)均具有显著主效应。肥满度(CF)主要受家系主效应显著影响。30 d和80 d的高碱胁迫均导致敏感家系存活率显著下降,而耐受家系未受显著影响;且两时间点下耐受家系的SGR均显著高于敏感家系;生理层面,双因素方差分析显示,80 d 时环境主效应对BAC具有极显著影响。OC受家系与环境主效应的显著影响,但两者的交互作用不显著。相关性分析显示,SGR与OC 呈显著正相关(r=0.64),而 OC 与BAC呈极显著负相关(r=−0.77)。线性回归进一步表明,凡纳对虾的 SGR 随 OC 的增强而显著提高(R2=0.41),而 OC 随BAC的积累而显著下降(R2=0.59)。
    结论 耐受家系在长期高碱胁迫下的生长优势源于其显著的渗透压稳态维持能力及高效的BAC调控能力。渗透压调节稳态和BAC可作为凡纳对虾耐碱品种选育的有效候选生理标记,本研究为盐碱水对虾高效养殖提供了生理学依据与育种参考。

     

    Abstract: High alkalinity severely limits Penaeus vannamei aquaculture. To elucidate the long-term physiological mechanisms underlying tolerance, this study used sensitive and tolerant families of P. vannamei, setting up a normal control group (alkalinity 0.5 mmol/L, pH 8.2) and a high alkaline stress group (alkalinity 10.0 mmol/L, pH 8.9) for an 80-day culture experiment.The survival rate and growth index of the two lines were measured at 30 d and 80 d, respectively. Hemolymph samples were collected only at the end of the 80 d experiment, and the differences in osmotic pressure regulation ability (OC), blood ammonia concentration (BAC) and blood pH value were compared and analyzed. As for growth performance, the SGR of tolerant families was significantly higher than that of sensitive families at two time points. On the physiological level, the analysis of two-factor variance showed that the main environmental effect had a very significant impact on BAC at 80 d (P<0.01). OC is significantly influenced by the main effects of family (P=0.038) and E(P=0.016), but the interaction between them is not significant (P=0.383).. Correlation analysis showed that SGR was positively correlated with OC (r=0.64, P<0.05), while OC was negatively correlated with BAC (r = 0.77, P<0.01). Linear regression further showed that the SGR of P. vannamei increased significantly with the increase of OC (R2=0.41, P=0.025), while OC decreased significantly with the accumulation of BAC (R2=0.59, P=0.003 5). The study shows that the growth advantage of tolerant families under long-term high alkaline stress stems from their remarkable osmotic pressure homeostasis maintenance ability and efficient BAC regulation ability. Osmotic pressure regulation, homeostasis, and BAC can be used as effective candidate physiological markers for alkali-tolerant breeding of P. vannamei, and this study provides a physiological basis and breeding reference for efficient breeding of saline-alkaline shrimp.

     

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