Krill Ocean Acidification Physiology Data
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Antarctic krill (Euphausia superba) have a keystone role in the Southern Ocean, as the primary prey of Antarctic predators. Any decreases in krill abundance could result in a major ecological regime shift, but there is currently limited information on how climate change may affect krill. Increasing anthropogenic carbon dioxide (CO2) emissions are causing ocean acidification, as absorption of atmospheric CO2 in seawater alters ocean chemistry. Ocean acidification increases mortality and negatively affects physiological functioning in some marine invertebrates, and is predicted to occur most rapidly at high latitudes. Here we show that, in the laboratory, adult krill are able to survive, grow, store fat, mature, and maintain respiration rates when exposed to near-future ocean acidification (1000 – 2000 μatm pCO2) for one year. Despite differences in seawater pCO2 incubation conditions, adult krill are able to actively maintain the acid-base balance of their body fluids in near-future pCO2, which enhances their resilience to ocean acidification.
南极磷虾(Antarctic krill, Euphausia superba)在南大洋生态系统中扮演基石物种的关键角色,为南极捕食类群的主要猎物。磷虾种群丰度的任何下降都可能引发重大的生态系统格局转变,但目前关于气候变化如何影响磷虾的相关研究信息仍较为有限。不断增加的人为二氧化碳(CO₂)排放正在引发海洋酸化,大气中的CO₂被海水吸收后会改变海洋化学环境。海洋酸化会提升部分海洋无脊椎动物的死亡率,并对其生理机能产生负面影响,且据预测,高纬度海域的海洋酸化进程将最为迅速。本研究通过实验室实验证实,成年南极磷虾在暴露于1000~2000 μatm pCO₂的近未来海洋酸化环境中长达一年时,仍可存活、生长、储存脂肪、完成发育成熟,并维持正常呼吸速率。尽管不同海水CO₂分压培养条件存在差异,但成年南极磷虾仍能够主动维持体液的酸碱平衡,这一特性显著提升了其对海洋酸化的抗逆能力。



