# Long lifespan and substantial biomass production support stable high biomass of Ascophyllum nodosum under interannual climate fluctuations in Greenland

**Authors:** Birgit Olesen, Núria Marbà, Carlos M. Duarte, Dorte Krause‐Jensen

PMC · DOI: 10.1111/jpy.70071 · 2025-08-25

## TL;DR

A study in Greenland shows that the brown algae Ascophyllum nodosum maintains high biomass and stability despite harsh climate conditions.

## Contribution

The study reveals how Ascophyllum nodosum sustains high biomass through long lifespan and low turnover in a subarctic environment.

## Key findings

- Population biomass of Ascophyllum nodosum in Greenland is within the upper known range despite northern location.
- Long lifespan and low mortality rates contribute to population stability in Ascophyllum nodosum.
- High biomass productivity balances branch loss and supports stability under climate fluctuations.

## Abstract

The brown macroalga Ascophyllum nodosum is a foundation species on intertidal rocky shores, where its perennial canopy and high productivity support key ecological functions. However, its population dynamics near the northern edge, where low temperatures and sea ice may challenge stability, are largely unknown. We followed the population structure, dynamics, and nutrient status of A. nodosum in the sheltered, subarctic Kobbefjord, Greenland from 2012 to 2019. Despite the northern location, population biomass (16–27 kg FW · m−2) was within the upper known range and was dominated by few large (max length: 109 cm), old individuals (observed age: up to 19 years; estimated mean lifespan: 37.5 years based on intrinsic mortality rate). Population density remained stable because of low mortality (0.019 · year−1) and recruitment rates (0.010 · year−1), sustained by an understory of small juveniles. Biomass increased 1.5‐fold over the 8‐year study, supported by high biomass productivity (3.3–8.1 kg FW · m−2 · year−1) that balanced branch loss and reflected a moderate biomass turnover time (2.6–6.3 years) of organic matter, underlying the apparent stability. Such overall population stability reflects a “biomass storer” strategy typical of environments with low disturbance and nutrient levels. The stability is remarkable given seasonal ice cover (2–7.5 months per year), large variation in average daily temperature (−3.9 to 15.4°C), and low nutrient supply. While ice breakup poses a risk of shoot abrasion, the ice cover likely provides protection against ice scouring. Enhanced growth during warmer summers and earlier ice break‐up suggests faster turnover rates in the future to the extent nutrient availability can support it.

## Linked entities

- **Species:** Ascophyllum nodosum (taxon 52969), Mus musculus (taxon 10090)

## Full-text entities

- **Species:** Adenocalymma nodosum (species) [taxon 2099428], Ascophyllum nodosum (species) [taxon 52969]

## Figures

7 figures with captions in the complete paper: https://tomesphere.com/paper/PMC12547644/full.md

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Source: https://tomesphere.com/paper/PMC12547644