Contrasting effects of ocean acidification on the microbial food web under different trophic conditions

MARIA MONTSERRAT SALA; FRAN APARICIO-BERNAT; VANESSA BALAGUE; JULIA BORAS; E BORULL; CLARA CARDELÚS; LLUISA CROS; ANA GOMES; A LÓPEZ-SANZ; R A MARTÍNEZ; ANDREA MALITS; MIREIA MESTRE; J M MOVILLA; HUGO SARMENTO; EVARISTO VÁZQUEZ-DOMÍNGUEZ; DOLORS VAQUÉ; JARONE PINHASSI; ALBERT CALBET; EVA CALVO; JOSEP M. GASOL; CARLES PELEJERO; CELIA MARRASE

ICES JOURNAL OF MARINE SCIENCE

OXFORD UNIV PRESS

Lugar: Oxford; Año: 2015

1054-3139

We investigated the effects of an increase in dissolved CO2 on the microbial communities of the Mediterranean Sea during two mesocosm experiments in two contrasting seasons: winter, at the peak of the annual phytoplankton bloom; and summer, under low-nutrient conditions. The experiments included treatments with acidification and nutrient addition, and combinations of the two. We followed the effects of ocean acidification on the abundance of the main groups of microorganisms: diatoms, dinoflagellates, nanoeukaryotes, picoeukaryotes, cyanobacteria, heterotrophic bacteria; as well as bacterial activities, leucine incorporation and extracellular enzyme activity. Our results showed a clear stimulation effect of ocean acidification on the abundance of small phytoplankton (pico- and nanoeukaryotes), independently of the season and nutrient availability. An important number of the measured variables showed significant positive effects of acidification in summer compared to winter, when the effects were sometimes negative. Effects of ocean acidification were more conspicuous when nutrient concentrations were low. Our results suggest, therefore, that microbial communities in oligotrophic waters will be considerably affected by ocean acidification, whereas microbes in more productive waters will exhibit a lower response to a pH decrease. The overall enhancing effect of acidification on eukaryotic small pico- and nanophytoplankton, in comparison to the non-significant or even negative response of larger groups and autotrophic prokaryotes under nutrient-rich conditions, suggests a shift towards medium-sized producers in a future acidified ocean.