2015
DOI: 10.5268/iw-5.4.843
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Nutrient dynamics and phytoplankton resource limitation in a deep tropical mountain lake

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Cited by 12 publications
(13 citation statements)
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“…Despite increasing population pressure of over 250,000 people now within the watershed and a booming tourism industry, there is little to no treatment of agricultural and municipal runoff. With the waters of Atitlán dramatically altered by anthropogenic pressures since initial water quality monitoring in the 1970 s (Corman et al 2015), blooms began appearing nearly in 2008. The largest thus far occurred in 2009 with cover over half the lake's area for almost 2 months.…”
Section: Cyanobacterial Blooms At Lake Atitlánmentioning
confidence: 99%
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“…Despite increasing population pressure of over 250,000 people now within the watershed and a booming tourism industry, there is little to no treatment of agricultural and municipal runoff. With the waters of Atitlán dramatically altered by anthropogenic pressures since initial water quality monitoring in the 1970 s (Corman et al 2015), blooms began appearing nearly in 2008. The largest thus far occurred in 2009 with cover over half the lake's area for almost 2 months.…”
Section: Cyanobacterial Blooms At Lake Atitlánmentioning
confidence: 99%
“…Increased nutrient loading, particularly of nitrogenous wastes, may alter the balance of the lake and cause these potential toxin producers to proliferate (Rejmánková et al 2011). Blooms generally occur toward the beginning of the region's dry season (November through April); however, much of nutrient loading likely occurs during the region's wet season (Corman et al 2015).…”
Section: Cyanobacterial Blooms At Lake Atitlánmentioning
confidence: 99%
“…Many point and nonpoint nutrient sources exist in this watershed: untreated sewage, erosion of soils, runoff from fertilized agricultural lands, and effluent water from laundry services. In recent decades, it is believed that increased development in the watershed and poor infrastructure has resulted in increased nutrient loading (phosphorus, nitrogen, and dissolved organic carbon [DOC]) to the lake (Corman et al, ; Rejmankova et al, ). In October 2009, the lake experienced an extensive bloom of a cyanobacterium, Limnoraphis robusta , which covered approximately 40% of the lake surface (Komarek et al, ).…”
Section: Methodsmentioning
confidence: 99%
“…Further limiting our understanding of tropical lake nutrient dynamics is a relative lack of long-term monitoring efforts in tropical and subtropical lakes (Sarmento 2012). The largest body of work on tropical lakes are studies of the African Great Lakes (Talling and Lemoalle 1998; Guildford and Hecky 2000; Hecky 2000; Bootsma and Hecky 2003; Llirós et al 2012;), with some notable exceptions such as work done in Lake Atitlan, Guatemala (Corman et al 2015; Weisman et al 2018) and in several Brazilian reservoirs (Pinto Coelho 1998; Tundisi et al 2004). While studies of the African Great Lakes have made invaluable contributions to tropical limnology, the distinct lack of comparable research in other regions of the tropics and in lakes differing in size and stratification regime (Cael and Seekell 2016; Dodds and Whiles 2019) may bias our understanding of tropical limnology towards these unique ecosystems.…”
Section: Introductionmentioning
confidence: 99%
“…While tropical lakes are not exclusively N limited (Melack et al 1982; Kalff 1983; Elser et al 2007), N limitation has been reported to be more common at lower latitudes than in temperate lakes (Prowse and Talling 1958; Talling 1969; Lewis 1974). However, discerning patterns of N limitation across the tropics may be complicated by shifting states of limitation driven by gradual climate changes (Ballantyne et al 2011) and acute changes caused by extreme weather events (Corman et al 2015). Understanding how interactive global and local effects alter biogeochemical pathways in tropical lakes will require coordinated and continuous research efforts aimed at evaluating the underlying mechanisms of ecosystem change.…”
Section: Introductionmentioning
confidence: 99%