Louisiana State University Agricultural Center, Aquaculture Research Station, Baton Rouge, LA, USA.
Comp Biochem Physiol A Mol Integr Physiol. 2013 Apr;164(4):572-8. doi: 10.1016/j.cbpa.2013.01.002. Epub 2013 Jan 11.
Teleost fish often live in an environment in which osmoregulatory mechanisms are critical for survival and largely unknown in larval fish. The effects of a single important marine ion (K(+)) on survival and ion regulation of larval Gulf killifish, an estuarine, euryhaline teleost, were determined. A four-week study was completed in four separate recirculating systems with newly hatched larvae. Salinity in all four systems was maintained between 9.5 and 10‰. Two systems were maintained using crystal salt (99.6% NaCl) with K(+) supplementation (1.31±0.04mmol/L and 2.06±0.04mmol/L K(+); mean±SEM), one was maintained with crystal salt and no K(+) supplementation (0.33±0.05mmol/L K(+)), the fourth system was maintained using a standard marine mix salt (2.96±0.04mmol/L K(+)), the salt mix also included standard ranges of other ions such as calcium and magnesium. Larvae were sampled throughout the experiment for dry mass, Na(+)/K(+)-ATPase (NKA) activity, whole body ion composition, relative gene expression (NKA, Na(+)/K(+)/2Cl(-) cotransporter (NKCC) and cystic fibrosis transmembrane conductance regulator (CFTR)), and immunocytochemistry staining for NKA, NKCC, and CFTR. Larvae stocked into water with no K(+) supplementation resulted in 100% mortality within 24h. Mortality and dry mass were significantly influenced by K(+) concentration (P≤0.05). No differences were observed among treatment groups for NKA activity. At 1dph NKA mRNA expression was higher in the 0.3mmol [K(+)] group than in other treatment groups and at 7dph differences in intestinal NKA and CFTR staining were observed. These data indicate that the rearing of larval Gulf killifish may be possible in ion deficient water utilizing specific ion supplementation.
硬骨鱼类通常生活在一个对渗透压调节机制至关重要的环境中,但这些机制在幼鱼中却知之甚少。本研究旨在确定单一重要海洋离子(K+)对海湾食蚊鱼(一种河口广盐性硬骨鱼类)幼鱼的生存和离子调节的影响。这项为期四周的研究在四个独立的循环系统中进行,使用刚孵化的幼鱼作为实验对象。四个系统中的盐度均保持在 9.5 至 10‰之间。两个系统使用晶体盐(99.6%NaCl)和 K+补充剂(1.31±0.04mmol/L 和 2.06±0.04mmol/L K+;平均值±SEM)维持,一个系统使用晶体盐且不添加 K+(0.33±0.05mmol/L K+),第四个系统使用标准海水混合盐(2.96±0.04mmol/L K+)维持,该盐混合液还包含钙和镁等其他离子的标准范围。在整个实验过程中,定期从幼鱼身上取样,用于测量干质量、Na+/K+-ATP 酶(NKA)活性、全身体离子组成、相对基因表达(NKA、Na+/K+/2Cl-共转运蛋白(NKCC)和囊性纤维化跨膜电导调节因子(CFTR))以及 NKA、NKCC 和 CFTR 的免疫细胞化学染色。将幼鱼放入不含 K+补充剂的水中,24 小时内幼鱼全部死亡。K+浓度(P≤0.05)显著影响死亡率和干质量。各组间 NKA 活性无差异。在 1dph 时,0.3mmol [K+]组的 NKA mRNA 表达高于其他处理组,在 7dph 时,观察到肠道 NKA 和 CFTR 染色存在差异。这些数据表明,利用特定的离子补充,可能可以在缺乏离子的水中饲养海湾食蚊鱼幼鱼。
