<?xml version="1.0" encoding="utf-8" standalone="yes"?><rss version="2.0" xmlns:atom="http://www.w3.org/2005/Atom"><channel><title>Ulrike Willhelm | Amano Lab | Hokkaido University</title><link>https://amanoresearch.com/authors/ulrike-willhelm/</link><atom:link href="https://amanoresearch.com/authors/ulrike-willhelm/index.xml" rel="self" type="application/rss+xml"/><description>Ulrike Willhelm</description><generator>HugoBlox Kit (https://hugoblox.com)</generator><language>en-us</language><lastBuildDate>Wed, 25 Sep 2024 00:00:00 +0000</lastBuildDate><item><title>Anaplerotic processes are key contributors to dark carbon fixation in the ocean</title><link>https://amanoresearch.com/publication/amano-202409-dark-carbon/</link><pubDate>Wed, 25 Sep 2024 00:00:00 +0000</pubDate><guid>https://amanoresearch.com/publication/amano-202409-dark-carbon/</guid><description>&lt;p&gt;Abstract Anaplerotic carbon fixation is ubiquitous in heterotrophic organisms including those
inhabiting the ocean1. Despite its prevalence, the drivers of this process and its significance in
ocean carbon cycling remain poorly understood2,3. Here we combined global ocean metatranscriptomic
analysis, laboratory experiments on a bacterial model strain, and microautoradiography combined with
catalyzed reporter deposition fluorescence in situ hybridization (MICRO-CARD-FISH) on marine
microbial communities, to uncover the global prevalence of anaplerotic processes in oceanic dark
dissolved inorganic carbon (DIC) fixation. Metatranscriptomic analysis revealed high expression
levels of key anaplerotic genes, especially in mesopelagic waters, comparable to those of photo- and
chemolithoautotrophic DIC fixation genes. Alteromonas emerged as the main contributor to anaplerotic
DIC fixation gene expression, highlighting its role in DIC assimilation in the global ocean.
Laboratory incubations with a marine Alteromonas representative confirmed their capability to fix
DIC, which varied with organic matter availability and temperature. MICRO-CARD-FISH on oceanic
samples revealed that Alteromonas contributed 0–40% (14 ± 16%, mean ± s.d.) to the dark DIC fixation
in the pelagic ocean. Considering that Alteromonas is an obligate heterotroph lacking
chemoautotrophic DIC fixation genes, its contribution to DIC fixation should be attributed to
anaplerotic processes. Based on these results, we estimated a contribution of anaplerotic processes
to dark DIC fixation of 0–0.5 C Pg y-1 in the global dark ocean. Yet, since Alteromonas is not the
only taxon performing anaplerotic DIC fixation, our results represent a baseline conservative
estimate. Collectively, our findings place anaplerotic DIC fixation as a relevant processes in the
oceanic carbon cycling.&lt;/p&gt;</description></item></channel></rss>