4.7 Article

Recent changes in cyanobacteria algal bloom magnitude in large lakes across the contiguous United States

Journal

SCIENCE OF THE TOTAL ENVIRONMENT
Volume 897, Issue -, Pages -

Publisher

ELSEVIER
DOI: 10.1016/j.scitotenv.2023.165253

Keywords

CyanoHABs; Lacustrine algal blooms; Satellite; Remote sensing

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This study analyzed the changes in bloom magnitude in 1881 of the largest lakes in the contiguous United States from 2008-2011 to 2016-2020. It found that bloom magnitude decreased in 465 lakes, increased in only 81 lakes, and remained relatively unchanged in the majority of lakes. The variations in bloom magnitude were influenced by factors such as temperature, precipitation, and land use land cover.
Cyanobacterial blooms in inland lakes produce large quantities of biomass that impact drinking water systems, recreation, and tourism and may produce toxins that can adversely affect public health. This study analyzed nine years of satellite-derived bloom records and compared how the bloom magnitude has changed from 2008-2011 to 2016-2020 in 1881 of the largest lakes across the contiguous United States (CONUS). We determined bloom magnitude each year as the spatio-temporal mean cyanobacteria biomass from May to October and in concentrations of chlorophyll-a. We found that bloom magnitude decreased in 465 (25 %) lakes in the 2016-2020 period. Conversely, there was an increase in bloom magnitude in only 81 lakes (4 %). Bloom magnitude either didn't change, or the observed change was in the uncertainty range in the majority of the lakes (n = 1335, 71 %). Above-normal wetness and normal or below-normal maximum temperature over the warm season may have caused the decrease in bloom magnitude in the eastern part of the CONUS in recent years. On the other hand, a hotter and dryer warm season in the western CONUS may have created an environment for increased algal biomass. While more lakes saw a decrease in bloom magnitude, the pattern was not monotonic over the CONUS. The variations in temporal changes in bloom magnitude within and across climatic regions depend on the interactions between land use land cover (LULC) and physical factors such as temperature and precipitation. Despite expectations suggested by recent global studies, bloom magnitude has not increased in larger US lakes over this time period.

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