Effects of elevated CO2 and phytoplankton-derived organic matter on the metabolism of bacterial communities from coastal waters
FECHA:
2018-11-20
IDENTIFICADOR UNIVERSAL: http://hdl.handle.net/11093/4295
VERSIÓN EDITADA: https://bg.copernicus.org/articles/15/6927/2018/
TIPO DE DOCUMENTO: article
RESUMEN
Microcosm experiments to assess the bacterioplankton's response
to phytoplankton-derived organic matter obtained under current and
future ocean CO2 levels were performed. Surface seawater enriched with
inorganic nutrients was bubbled for 8 days with air (current CO2
scenario) or with a 1000 ppm CO2 air mixture (future CO2 scenario)
under solar radiation. The organic matter produced under the current and
future CO2 scenarios was subsequently used as an inoculum. Triplicate 12 L
flasks filled with 1.2 µm of filtered natural seawater enriched with the
organic matter inocula were incubated in the dark for 8 days under
CO2 conditions simulating current and future CO2 scenarios, to study the
bacterial response. The acidification of the media increased bacterial
respiration at the beginning of the experiment, while the addition of the
organic matter produced under future levels of CO2 was related to
changes in bacterial production and abundance. This resulted in a 67 %
increase in the integrated bacterial respiration under future CO2
conditions compared to present CO2 conditions and 41 % higher
integrated bacterial abundance with the addition of the acidified organic
matter compared to samples with the addition of non acidified organic
matter. This study demonstrates that the increase in atmospheric CO2
levels can impact bacterioplankton metabolism directly, by changes in the
respiration rate, and indirectly, by changes on the organic matter, which
affected bacterial production and abundance.