Differential response to climatic variation of free-floating and submerged macrophytes in ditches

1. Experimental studies have indicated in freshwater ecosystems that a shift in dominance from submerged to free-floating macrophytes may occur with climate change because of increased water surface temperatures and eutrophication. Field evidence is, however, rare. 2. Here, we analysed long-term (26...

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Bibliographic Details
Published in:Freshwater Biology
Main Authors: Netten, J.J.C., van Zuidam, J.P., Kosten, S., Peeters, E.T.H.M.
Format: Article in Journal/Newspaper
Language:English
Published: 2011
Subjects:
aquatic plants
climatic change
ditches
dominance
drainage ditches
eutrophication
freshwater ecology
mesocosms
model
netherlands
north-atlantic oscillation
plankton dynamics
shallow lakes
states
temperature
klimaatverandering
nederland
sloten
waterplanten
zoetwaterecologie
North Atlantic
North Atlantic oscillation
Online Access:https://research.wur.nl/en/publications/differential-response-to-climatic-variation-of-free-floating-and-
https://doi.org/10.1111/j.1365-2427.2011.02611.x
Description
Summary:1. Experimental studies have indicated in freshwater ecosystems that a shift in dominance from submerged to free-floating macrophytes may occur with climate change because of increased water surface temperatures and eutrophication. Field evidence is, however, rare. 2. Here, we analysed long-term (26 years) dynamics of macrophyte cover in Dutch ditches in relation to Dutch weather variables and the North Atlantic Oscillation (NAO) winter index. The latter appears to be a good proxy for Dutch weather conditions. 3. Cover of both free-floating macrophytes and evergreen overwintering submerged macrophytes was positively related to mild winters (positive NAO winter index). On the other hand, high cover of submerged macrophytes that die back in winter coincided with cold winters (negative NAO winter index). Our results therefore suggest that the effect of weather on macrophyte species depends strongly on their overwintering strategy. 4. The positive relation of free-floating macrophytes with the NAO winter index was significantly stronger in ditches in organic soil than in those in inorganic soil. This may be because of increased nutrient loading associated with increased decomposition of organic matter and increased run-off to these ditches during mild wet winters. 5. Our results suggest that mild winters in a changing climate may cause submerged macrophytes with an evergreen overwintering strategy and free-floating macrophytes to outcompete submerged macrophytes that die back in winter.

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