Korinna Kunde scite author profile

Abstract. Trichodesmium is a globally important marine microbe that provides fixed nitrogen (N) to otherwise N-limited ecosystems. In nature, nitrogen fixation is likely regulated by iron or phosphate availability, but the extent and interaction of these controls are unclear. From metaproteomics analyses using established protein biomarkers for nutrient stress, we found that iron–phosphate co-stress is the norm rather than the exception for Trichodesmium colonies in the North Atlantic Ocean. Counterintuitively, the nitrogenase enzyme was more abundant under co-stress as opposed to single nutrient stress. This is consistent with the idea that Trichodesmium has a specific physiological state during nutrient co-stress. Organic nitrogen uptake was observed and occurred simultaneously with nitrogen fixation. The quantification of the phosphate ABC transporter PstA combined with a cellular model of nutrient uptake suggested that Trichodesmium is generally confronted by the biophysical limits of membrane space and diffusion rates for iron and phosphate acquisition in the field. Colony formation may benefit nutrient acquisition from particulate and organic sources, alleviating these pressures. The results highlight that to predict the behavior of Trichodesmium, both Fe and P stress must be evaluated simultaneously.

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The eastern extent of seasonal iron limitation in the high latitude North Atlantic Ocean

Birchill

Hartner

Kunde

et al. 2019

Sci Rep

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The availability of iron (Fe) can seasonally limit phytoplankton growth in the High Latitude North Atlantic (HLNA), greatly reducing the efficiency of the biological carbon pump. However, the spatial extent of seasonal iron limitation is not yet known. We present autumn nutrient and dissolved Fe measurements, combined with microphytoplankton distribution, of waters overlying the Hebridean (Scottish) shelf break. A distinct biogeochemical divide was observed, with Fe deficient surface waters present beyond the shelf break, much further eastwards than previously recognised. Due to along and on-shelf circulation, the Hebridean shelf represents a much-localised source of Fe, which does not fertilise the wider HLNA. Shelf sediments are generally thought to supply large quantities of Fe to overlying waters. However, for this Fe to influence upper-ocean biogeochemical cycling, efficient off-shelf transport mechanisms are required. This work challenges the view that the oceanic surface waters in close proximity to continental margins are iron replete with respect to marine primary production demands.

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Korinna Kunde

Iron Distribution in the Subtropical North Atlantic: The Pivotal Role of Colloidal Iron

Co-occurrence of Fe and P stress in natural populations of the marine diazotroph <i>Trichodesmium</i>

The eastern extent of seasonal iron limitation in the high latitude North Atlantic Ocean

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Korinna Kunde

Iron Distribution in the Subtropical North Atlantic: The Pivotal Role of Colloidal Iron

Co-occurrence of Fe and P stress in natural populations of the marine diazotroph &lt;i&gt;Trichodesmium&lt;/i&gt;

The eastern extent of seasonal iron limitation in the high latitude North Atlantic Ocean

Contact Info

Product

Resources

About

Co-occurrence of Fe and P stress in natural populations of the marine diazotroph <i>Trichodesmium</i>