The Arctic archipelago of Svalbard is a hotspot of global warming and
many fjords experience a continuous increase in seawater temperature and
glacial melt while sea-ice cover declines. In 1996/98 and 2012-14
macroalgal biomass and species diversity were quantified at the study
site Hansneset, Kongsfjorden (W-Spitsbergen) in order to identify
potential changes over time. In 2021, we repeated the earlier studies by
stratified random sampling (1x1 m2, n=3) along a sublittoral depth
transect (0, 2.5, 5, 10 and 15m) and investigated the lower depth limits
of dominant brown algae between 2-20m. The fresh weight maximum was 11.5
kg m-2 at 2.5m and kelp blades stored 277g carbon m-2 and 18g nitrogen
m-2 at this depth. Although biomass did not significantly change since
2012/13, the ‘Digitate Kelps’ community (Laminaria digitata/Hedophyllum
nigripes) changed to an Alaria esculenta dominated kelp forest in 2021
and a balanced age structure of kelps (juveniles plus many older kelp
individuals) was only apparent at 2.5m. In addition, the abundances and
lower depth limits of all dominant brown algae declined noticeably over
the last 25 years while the deep red algae flora remained stable. As we
revealed that biomass allocation to blades, stipes and holdfasts as well
as the ability to store blade carbon and nitrogen was kelp
species-specific, a pronounced shift in the functionality of the kelp
forest had occurred over time. We propose that the observed changes in
the macroalgal community are mainly driven by alterations in underwater
light climate as in situ data confirmed increasing turbidity and
decreasing irradiance since 2012 and 2017, respectively. As a
consequence, the overall retreat of the kelp forest to lower depth
levels seems to be a result of strong glacial melt and will possibly
continue in future with unforeseen consequences for Arctic coasts and
their socio-ecological fjord systems.