Global trends in timing and rates of chlorophyll-a increase in cold-temperate and temperate lakes
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Date
2022-07-11
Authors
Adams, Hannah
Ye, Jane
Persaud, Bhaleka
Slowinski, Stephanie
Kheyrollah Pour, Homa
Van Cappellen, Philippe
Journal Title
Journal ISSN
Volume Title
Publisher
Geochemical Society
Abstract
Lakes are key ecosystems within the global biogeosphere. However, the environmental controls on
the biological productivity of lakes – including surface temperature, ice phenology, nutrient loads, and mixing
regime – are increasingly altered by climate warming and land-use changes. To better characterize global trends
in lake productivity, we assembled a dataset on chlorophyll-a concentrations as well as associated water quality
parameters and surface solar radiation for temperate and cold-temperate lakes experiencing seasonal ice cover.
We developed a method to identify periods of rapid net increase of in situ chlorophyll-a concentrations from time
series data and applied it to data collected between 1964 and 2019 across 343 lakes located north of 40◦
. The data
show that the spring chlorophyll-a increase periods have been occurring earlier in the year, potentially extending the growing season and increasing the annual productivity of northern lakes. The dataset on chlorophyll-a
increase rates and timing can be used to analyze trends and patterns in lake productivity across the northern
hemisphere or at smaller, regional scales. We illustrate some trends extracted from the dataset and encourage
other researchers to use the open dataset for their own research questions. The PCI dataset and additional data
files can be openly accessed at the Federated Research Data Repository at https://doi.org/10.20383/102.0488
(Adams et al., 2021).
Description
Associated publication: https://doi.org/10.5194/essd-14-5139-2022
Keywords
solar radiation, chlorophyll-a, lake algal bloom, lake productivity