Department of Botany, University of Otago, Dunedin, New Zealand.
National Institute of Water and Atmospheric Research, Wellington, New Zealand.
Environ Microbiol Rep. 2020 Aug;12(4):377-386. doi: 10.1111/1758-2229.12844. Epub 2020 Apr 30.
Bacterioplankton play a critical role in primary production, carbon cycling, and nutrient cycling in the oligotrophic ocean. To investigate the effect of elevated CO and warming on the composition and function of bacterioplankton communities in oligotrophic waters, we performed two trace-metal clean deck board incubation experiments during the New Zealand GEOTRACES transect of the South Pacific gyre (SPG). High-throughput amplicon sequencing of the 16S rRNA gene revealed that bacterioplankton community composition was distinct between the fringe and ultra-oligotrophic centre of the SPG and changed consistently in response to elevated CO at the ultra-oligotrophic centre but not at the mesotrophic fringe of the SPG. The combined effects of elevated CO and warming resulted in a high degree of heterogeneity between replicate communities. Community-level protein synthesis rates ( H-Leucine incorporation) and bacterioplankton abundance were not affected by elevated CO alone or in combination with warming at the fringe or ultra-oligotrophic centre of the SPG. These data suggest bacterioplankton community responses to elevated CO may be modulated by nutrient regimes in open ocean ecosystems and highlight the need for further investigation in expanding oligotrophic subtropical gyres.
细菌浮游生物在贫营养海洋的初级生产、碳循环和营养循环中起着关键作用。为了研究 CO 升高和变暖对贫营养水域中细菌浮游生物群落组成和功能的影响,我们在南太平洋环流(SPG)的新西兰地球追踪断面进行了两次痕量金属清洁甲板板培养实验。16S rRNA 基因的高通量扩增子测序表明,细菌浮游生物群落组成在 SPG 的边缘和超贫营养中心之间存在明显差异,并随着 CO 的升高而持续变化,但在 SPG 的中营养边缘没有变化。CO 升高和变暖的综合影响导致重复群落之间存在高度的异质性。在 SPG 的边缘或超贫营养中心,单独升高 CO 或与变暖结合,不会影响社区水平的蛋白质合成率(H-亮氨酸掺入)和细菌浮游生物丰度。这些数据表明,细菌浮游生物群落对 CO 升高的反应可能受到开阔海洋生态系统养分状况的调节,并强调需要进一步研究扩展的贫营养亚热带环流。
