Acceleration of cyanobacterial dominance in north temperatesubarctic lakes during the Anthropocene

10 páginas, 4 figuras. Increases in atmospheric temperature and nutrients from land are thought to be promoting the expansion of harmful cyanobacteria in lakes worldwide, yet to date there has been no quantitative synthesis of long-term trends. To test whether cyanobacteria have increased in abundan...

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Bibliographic Details
Published in:Ecology Letters
Main Authors: Taranu, Zofia E., Gregory- Eaves, Irene, Leavitt, P. R., Bunting, L., Buchaca, Teresa, Catalán, Jordi, Domaizon, Isabelle, Guilizzoni, Piero, Lami, A., McGowan, S., Moorhouse, Heather, Morabito, G., Pick, Frances R., Stevenson, Mark A., Thompson, Patrick L., Vinebrooke, Rolf D.
Format: Article in Journal/Newspaper
Language:English
Published: John Wiley & Sons 2015
Subjects:
Paleolimnology
Regression tree
Anthropocene
Climate change
Cyanobacteria
Eutrophication
Long-term trends
Meta-analysis
Canada
Subarctic
Online Access:http://hdl.handle.net/10261/112561
https://doi.org/10.1111/ele.12420
Description
Summary:10 páginas, 4 figuras. Increases in atmospheric temperature and nutrients from land are thought to be promoting the expansion of harmful cyanobacteria in lakes worldwide, yet to date there has been no quantitative synthesis of long-term trends. To test whether cyanobacteria have increased in abundance over the past ~ 200 years and evaluate the relative influence of potential causal mechanisms, we synthesised 108 highly resolved sedimentary time series and 18 decadal-scale monitoring records from north temperate-subarctic lakes. We demonstrate that: (1) cyanobacteria have increased significantly since c. 1800 CE, (2) they have increased disproportionately relative to other phytoplankton, and (3) cyanobacteria increased more rapidly post c. 1945 CE. Variation among lakes in the rates of increase was explained best by nutrient concentration (phosphorus and nitrogen), and temperature was of secondary importance. Although cyanobacterial biomass has declined in some managed lakes with reduced nutrient influx, the larger spatio-temporal scale of sedimentary records show continued increases in cyanobacteria throughout the north temperate-subarctic regions. This project was funded by the Natural Sciences and Engineering Research Council of Canada (I.G.-E., P.R.L., F.P., R.D.V.), Fonds Qu eb ecois de Recherche sur la Nature et les Technologies (Z.E.T.), Canadian Foundation for Innovation (I.G.-E., P.R.L.), Canada Research Chair (P.R.L.), Fundaci o Bosch i Gimpera, Universitat de Barcelona (T.B.), EU project BIOMASS (T.B., J.C.), Catalan government (GECA, 2014SGR1249) (T.B., J.C.), Spanish government (NitroPir, CGL2010-19373) (J.C.), Nexdata Project (P.G., A.L., G.M.), EU INTERREG IIIA (S.M., M.A.S.), Cheshire Wildlife Trust and Natural England (S.M.), UK Environment Agency and Freshwater Biological Association (S.M.), Engineering and Physical Sciences Research Council and Environment Agency (H.M.), International Commission for the Protection of Italian Swiss Waters (P.G., A.L., G.M.), ‘IperRetro’ ANR VULNS- 005 ...

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