Extreme Weather Events and Climate Variability Provide a Lens to How Shallow Lakes May Respond to Climate Change

Shallow lakes, particularly those in low-lying areas of the subtropics, are highly vulnerable to changes in climate associated with global warming. Many of these lakes are in tropical cyclone strike zones and they experience high inter-seasonal and inter-annual variation in rainfall and runoff. Both...

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Veröffentlicht in:	Water (Basel) 2016-06, Vol.8 (6), p.229-229
Hauptverfasser:	Havens, Karl, Paerl, Hans, Phlips, Edward, Zhu, Mengyuan, Beaver, John, Srifa, Akeapot
Format:	Artikel
Sprache:	eng
Schlagworte:	Annual rainfall Annual variations Climate change Climate variability Cyanobacteria Cyclones Drought Extreme weather Freshwater Global warming Irradiance Lakes Microcystis Microcystis aeruginosa Nutrients Plankton Tropical cyclones Turbidity Water circulation Water color Water quality Weather
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creator	Havens, Karl Paerl, Hans Phlips, Edward Zhu, Mengyuan Beaver, John Srifa, Akeapot
description	Shallow lakes, particularly those in low-lying areas of the subtropics, are highly vulnerable to changes in climate associated with global warming. Many of these lakes are in tropical cyclone strike zones and they experience high inter-seasonal and inter-annual variation in rainfall and runoff. Both of those factors strongly modulate sediment-water column interactions, which play a critical role in shallow lake nutrient cycling, water column irradiance characteristics and cyanobacterial harmful algal bloom (CyanoHAB) dynamics. We illustrate this with three examples, using long-term (15-25 years) datasets on water quality and plankton from three shallow lakes: Lakes Okeechobee and George (Florida, USA) and Lake Taihu (China). Okeechobee and Taihu have been impacted repeatedly by tropical cyclones that have resulted in large amounts of runoff and sediment resuspension, and resultant increases in dissolved nutrients in the water column. In both cases, when turbidity declined, major blooms of the toxic CyanoHAB Microcystis aeruginosa occurred over large areas of the lakes. In Lake George, periods of high rainfall resulted in high dissolved color, reduced irradiance, and increased water turnover rates which suppress blooms, whereas in dry periods with lower water color and water turnover rates there were dense cyanobacteria blooms. We identify a suite of factors which, from our experience, will determine how a particular shallow lake will respond to a future with global warming, flashier rainfall, prolonged droughts and stronger tropical cyclones.
doi_str_mv	10.3390/w8060229
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Many of these lakes are in tropical cyclone strike zones and they experience high inter-seasonal and inter-annual variation in rainfall and runoff. Both of those factors strongly modulate sediment-water column interactions, which play a critical role in shallow lake nutrient cycling, water column irradiance characteristics and cyanobacterial harmful algal bloom (CyanoHAB) dynamics. We illustrate this with three examples, using long-term (15-25 years) datasets on water quality and plankton from three shallow lakes: Lakes Okeechobee and George (Florida, USA) and Lake Taihu (China). Okeechobee and Taihu have been impacted repeatedly by tropical cyclones that have resulted in large amounts of runoff and sediment resuspension, and resultant increases in dissolved nutrients in the water column. In both cases, when turbidity declined, major blooms of the toxic CyanoHAB Microcystis aeruginosa occurred over large areas of the lakes. In Lake George, periods of high rainfall resulted in high dissolved color, reduced irradiance, and increased water turnover rates which suppress blooms, whereas in dry periods with lower water color and water turnover rates there were dense cyanobacteria blooms. 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In Lake George, periods of high rainfall resulted in high dissolved color, reduced irradiance, and increased water turnover rates which suppress blooms, whereas in dry periods with lower water color and water turnover rates there were dense cyanobacteria blooms. 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In Lake George, periods of high rainfall resulted in high dissolved color, reduced irradiance, and increased water turnover rates which suppress blooms, whereas in dry periods with lower water color and water turnover rates there were dense cyanobacteria blooms. We identify a suite of factors which, from our experience, will determine how a particular shallow lake will respond to a future with global warming, flashier rainfall, prolonged droughts and stronger tropical cyclones.</abstract><cop>Basel</cop><pub>MDPI AG</pub><doi>10.3390/w8060229</doi><tpages>1</tpages><oa>free_for_read</oa></addata></record>
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subjects	Annual rainfall Annual variations Climate change Climate variability Cyanobacteria Cyclones Drought Extreme weather Freshwater Global warming Irradiance Lakes Microcystis Microcystis aeruginosa Nutrients Plankton Tropical cyclones Turbidity Water circulation Water color Water quality Weather
title	Extreme Weather Events and Climate Variability Provide a Lens to How Shallow Lakes May Respond to Climate Change
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