Centre for Ecology and Hydrology, Wallingford, Benson Lane, Crowmarsh Gifford, Wallingford OX108BB, UK.
Environ Microbiol. 2012 Sep;14(9):2293-307. doi: 10.1111/j.1462-2920.2012.02762.x. Epub 2012 May 16.
Since industrialization global CO(2) emissions have increased, and as a consequence oceanic pH is predicted to drop by 0.3-0.4 units before the end of the century - a process coined 'ocean acidification'. Consequently, there is significant interest in how pH changes will affect the ocean's biota and integral processes. We investigated marine picoplankton (0.2-2 µm diameter) community response to predicted end of century CO(2) concentrations, via a 'high-CO(2) ' (∼ 750 ppm) large-volume (11 000 l) contained seawater mesocosm approach. We found little evidence of changes occurring in bacterial abundance or community composition due to elevated CO(2) under both phytoplankton pre-bloom/bloom and post-bloom conditions. In contrast, significant differences were observed between treatments for a number of key picoeukaryote community members. These data suggested a key outcome of ocean acidification is a more rapid exploitation of elevated CO(2) levels by photosynthetic picoeukaryotes. Thus, our study indicates the need for a more thorough understanding of picoeukaryote-mediated carbon flow within ocean acidification experiments, both in relation to picoplankton carbon sources, sinks and transfer to higher trophic levels.
自工业化以来,全球 CO2 排放量不断增加,预计到本世纪末海洋 pH 值将下降 0.3-0.4 个单位——这一过程被称为“海洋酸化”。因此,人们非常关注 pH 值变化将如何影响海洋生物群和整体过程。我们通过一种“高 CO2”(约 750 ppm)大容量(11000 l)的受控海水中培养的方法,研究了海洋微微型浮游生物(0.2-2 μm 直径)对预测到本世纪末 CO2 浓度的反应。我们发现,在浮游植物开花前/开花期间和开花后条件下,由于 CO2 升高,细菌丰度或群落组成几乎没有发生变化。相比之下,在许多关键的微微型真核生物群落成员中,处理之间存在显著差异。这些数据表明,海洋酸化的一个主要结果是光合微微型真核生物更快速地利用升高的 CO2 水平。因此,我们的研究表明,需要更深入地了解海洋酸化实验中微微型真核生物介导的碳流动,包括与微微型浮游生物的碳源、汇和向更高营养级的转移有关的碳流动。
