2019
DOI: 10.3390/w11030538
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Periods of Extreme Shallow Depth Hinder but Do Not Stop Long-Term Improvements of Water Quality in Lake Apopka, Florida (USA)

Abstract: We recently documented that during times of extreme shallow depth, there are severe effects on the water quality of one of the largest shallow lakes in the southeastern USA—Lake Apopka. During those times, total phosphorus (TP), total nitrogen (TN), chlorophyll-a (Chl-a) and toxic cyanobacteria blooms increase, and Secchi transparency (SD) declines. The lake recovers when water levels rise in subsequent years. In this paper, we determined whether extreme shallow depth events, particularly when they re-occur fr… Show more

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Cited by 8 publications
(3 citation statements)
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“…There is not a concept that fully defines what extreme weather events are, but the most common approach to defining extreme weather events is by using historical data and climate expectations. Typically, events occurring in the lowest 5% of a frequency curve are considered extreme (Ji & Havens, 2019;Camuffo et al, 2020;Stockwell et al, 2020). This analysis requires at least 20 years of daily, continuous monitoring data from historical time-series (IPCC, 2012;Peterson et al, 2012;WMO, 2016).…”
Section: Discussionmentioning
confidence: 99%
See 1 more Smart Citation
“…There is not a concept that fully defines what extreme weather events are, but the most common approach to defining extreme weather events is by using historical data and climate expectations. Typically, events occurring in the lowest 5% of a frequency curve are considered extreme (Ji & Havens, 2019;Camuffo et al, 2020;Stockwell et al, 2020). This analysis requires at least 20 years of daily, continuous monitoring data from historical time-series (IPCC, 2012;Peterson et al, 2012;WMO, 2016).…”
Section: Discussionmentioning
confidence: 99%
“…The drastic changes in water volume trigger alterations in various physical and chemical parameters, such as suspended solids and nutrient concentrations, turbidity, transparency, temperature, and pH (Stockwell et al, 2020;Mosley, 2015;Marengo et al, 2018;Santos et al, 2021). These changes in light and nutrient conditions directly impact the phytoplankton community, thereby influencing trophic dynamics and overall ecosystem functioning (Guo et al, 2018;Ji & Havens, 2019;Lisboa et al, 2020). Scientometric studies focusing on aquatic systems provide a valuable framework for investigating variations in water quality patterns and understanding the underlying mechanisms that govern the responses of water bodies (Costa et al, 2018;Stockwell et al, 2020).…”
Section: Introductionmentioning
confidence: 99%
“…After decades of water quality degradation and associated decline of fisheries in Lake Apopka, restoration efforts have contributed to habitat improvement within the lake. Actions include establishment of a marsh flow way that removes nutrient-rich sediment (Dunne et al 2012), restoration of surrounding marshes (Bowen and Slater 2016), and reductions in nutrient inputs (Coveney et al 2005), all of which have contributed to long-term improvements in water quality (Ji and Havens 2019). Subsequently, characteristic aquatic plants have returned to Lake Apopka, via both natural colonization and planting; their persistence is a sign of habitat recovery, but also these plants will help consolidate floating suspended sediments, sequester nutrients and continue to improve water quality.…”
Section: Restoration and Recreationmentioning
confidence: 99%