Abrupt stop of deep water turnover with lake warming: Drastic consequences for algal primary producers

After strong fertilization in the 20 th century, many deep lakes in Central Europe are again nutrient poor due to long-lasting restoration (re-oligotrophication). In line with reduced phosphorus and nitrogen loadings, total organismic productivity decreased and lakes have now historically low nutrie...

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Bibliographic Details
Published in:Scientific reports 2017-10, Vol.7 (1), p.13770-9, Article 13770
Main Authors: Yankova, Yana, Neuenschwander, Stefan, Köster, Oliver, Posch, Thomas
Format: Article
Language:English
Subjects:
631/158/2165
704/106/286
Air temperature
Algae
Algal blooms
Biomass
Deep water
Ecological function
Environmental Monitoring
Eutrophication
Eutrophication - physiology
Fertilization
Food webs
Humanities and Social Sciences
Lakes
Lakes - chemistry
multidisciplinary
Nitrogen
Nitrogen - analysis
Nutrient availability
Nutrient concentrations
Nutrients
Phosphorus
Phosphorus - analysis
Phytoplankton
Science
Science (multidisciplinary)
Seasons
Water Movements
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Summary:After strong fertilization in the 20 th century, many deep lakes in Central Europe are again nutrient poor due to long-lasting restoration (re-oligotrophication). In line with reduced phosphorus and nitrogen loadings, total organismic productivity decreased and lakes have now historically low nutrient and biomass concentrations. This caused speculations that restoration was overdone and intended fertilizations are needed to ensure ecological functionality. Here we show that recent re-oligotrophication processes indeed accelerated, however caused by lake warming. Rising air temperatures strengthen thermal stabilization of water columns which prevents thorough turnover (holomixis). Reduced mixis impedes down-welling of oxygen rich epilimnetic (surface) and up-welling of phosphorus and nitrogen rich hypolimnetic (deep) water. However, nutrient inputs are essential for algal spring blooms acting as boost for annual food web successions. We show that repeated lack (since 1977) and complete stop (since 2013) of holomixis caused drastic epilimnetic phosphorus depletions and an absence of phytoplankton spring blooms in Lake Zurich (Switzerland). By simulating holomixis in experiments, we could induce significant vernal algal blooms, confirming that there would be sufficient hypolimnetic phosphorus which presently accumulates due to reduced export. Thus, intended fertilizations are highly questionable, as hypolimnetic nutrients will become available during future natural or artificial turnovers.
ISSN:2045-2322
2045-2322
DOI:10.1038/s41598-017-13159-9