Physical and chemical limnology of a wind-swept tropical highland reservoir

Merino–Ibarra, Martín; Monroy-Ríos, Emiliano; Vilaclara, Gloria; Castillo, Fermín S.; Gallegos, Margarita E.; Ramírez-Zierold, Jorge A.

doi:10.1007/s10452-007-9111-5

Cited by 50 publications

(107 citation statements)

References 22 publications

(22 reference statements)

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“…These changes are typical for warm monomictic water bodies as reported by Hutchinson and Loffler (1956) and by Tundisi (1994), but differ from the warm polymictic thermal cycle reported by Lewis Jr (1983) for other lakes at LG's latitude with similar depths. Nevertheless, the warm monomictic cycle of LG is consistent with the thermal cycle described by Merino-Ibarra et al (2007) for Valle de Bravo reservoir, located at 1780 m a.s.l., 106 km SW from LG. Similar thermal and oxygen profiles in the water column were observed by Vazquez et al (2004) in a tropical lake with an average water temperature higher than LG (21 to 26…”

Section: > Lg Thermal Stratification Mixing Regime and Oxygen Distrisupporting

confidence: 86%

“…Algal blooms occurred frequently over the stratification period and can be seen as an additional eutrophication indicator. The same observations were made at the Valle de Bravo reservoir (Merino-Ibarra et al, 2007), at Lake Lago de Chapala (Lind and Davalos-Lind, 2002), and at Lake Lago de Patzcuaro (Berlanga-Robles et al, 2002), all of which are located in sub-tropical areas of Mexico. This study confirms that cultural eutrophication is a major problem in several Mexican water reservoirs.…”

Section: > Chlorophyll a Secchi Depth Trophic State And Water Qualimentioning

confidence: 58%

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The impact of anthropogenic pollution on limnological characteristics of a subtropical highland reservoir “Lago de Guadalupe”, Mexico

Sepulveda‐Jauregui

Hoyos‐Santillan

Mendieta

et al. 2013

Knowl. Managt. Aquatic Ecosyst.

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Key-words:hypereutrophic, monomictic, morphometry, pollution, subtropical "Lago de Guadalupe" is an important freshwater ecosystem located in the northern part of the metropolitan area surrounding Mexico City, under high demographic pressure. It receives approximately 15 hm 3 ·y −1 of untreated municipal wastewater from the surrounding municipalities. In order to develop a comparative assessment of the pollution effect over the limnological characteristics of Lago de Guadalupe, this lake was characterised from February 2006 to July 2009, and the results were compared with those obtained from a non-polluted lake "Lago el Llano" located in the same drainage area. Lago de Guadalupe was hypereutrophic with anoxic conditions throughout most of the water column. In contrast, Lago el Llano was mesotrophic with high dissolved oxygen concentrations throughout the entire water column with a clinograde profile. Both reservoirs had a monomictic mixing regime. The longitudinal zonation of physicochemical and biological variables were investigated in order to better understand the processes controlling the water quality across the reservoir during its residence time. This study shows the impact of anthropogenic pollution on the limnological characteristics of a subtropical reservoir and confirms that under adequate management schemes, namely avoiding pollution and wastewater discharges, subtropical reservoirs can be prevented from developing eutrophic conditions. RÉSUMÉ Impact de la pollution anthropique sur les caractéristiques limnologiques d'un réservoir subtropical de montagne, le « Lago de Guadalupe », Mexique Mots-clés :hypereutrophie, monomictique, morphometrie, Le Lago de Guadalupe est un important écosystème aquatique situé dans la partie nord de la zone urbaine de la ville de Mexico, subissant une forte pression démo-graphique. Ce lac artificiel d'environ 60 hectomètres cubes, reçoit environ 15 hectomètres cubes par an d'eaux usées provenant des agglomérations environnantes. pollution, subtropical ont été comparés avec ceux observés dans un autre lac artificiel, non pollué : Lago el Llano, situé dans le même bassin versant et soumis au même climat que le Lago de Guadalupe. Les résultats obtenus montrent que le Lago de Guadalupe est hypereutrophe comme en témoignent les conditions anaérobies rencontrées dans la majeure partie de la colonne d'eau. En revanche, le Lago el Llano est mésotrophe avec présence d'oxygène dans toute la colonne d'eau. Les deux lacs présentent un régime monomictique. La zonation longitudinale des variables physico-chimiques et biologiques a été étudiée afin de mieux comprendre les processus qui contrôlent la qualité de l'eau. Cette étude montre l'impact de la pollution anthropogénique sur les caractéristiques limnologiques de lacs subtropicaux et confirme l'importance de réduire les apports anthropogéniques de nutriments pour ralentir le phénomène d'eutrophisation.

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Section: > Lg Thermal Stratification Mixing Regime and Oxygen Distrisupporting

confidence: 86%

Section: > Chlorophyll a Secchi Depth Trophic State And Water Qualimentioning

confidence: 58%

The impact of anthropogenic pollution on limnological characteristics of a subtropical highland reservoir “Lago de Guadalupe”, Mexico

Sepulveda‐Jauregui

Hoyos‐Santillan

Mendieta

et al. 2013

Knowl. Managt. Aquatic Ecosyst.

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“…Furthermore, turbidity usually peaks in the thermocline region, which is closely related to the location of the maximum density gradient, so low turbulence stabilizes the sediments in the vertical water column (Elçi 2008). As a result, the degradation of water quality in the summer resulting from thermal stratification has been observed in many reservoirs and lakes around the world (Elçi 2008;Merino-Ibarra et al 2008;Wilhelm and Adrian 2008).…”

Section: Discussionmentioning

confidence: 99%

Thermal structure and response to long‐term climatic changes in Lake Qiandaohu, a deep subtropical reservoir in China

Zhang

Liu

et al. 2014

Limnology & Oceanography

130

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Using the vertical temperature profiles of Lake Qiandaohu from January 2010 to April 2013, we evaluated the monthly and seasonal variations of water temperature and thermocline parameters, and developed empirical models among thermocline depth (TD), thickness (TT), and strength (TS). We also developed empirical models between TD, TT, TS, and surface-water temperature (0-2 m) (T 0-2 m ), and transparency (Secchi disk depth, SDD). Additionally, we assessed the changes in TD, TT, and TS over the past 62 yr, based on our empirical models, air temperature data from 1951 to 2012, and SDD data from 1987 to 2012. Lake Qiandaohu is warm monomictic, with a long period of thermal stratification from April until January, and only a short period of mixing in the winter or spring (February or March). There were significant correlations between SDD and TD (positive), and between SDD and TT (negative). There was a significant negative correlation between T 0-2 m and TD during the stratification weakness period (July-February), and a significant positive correlation between T 0-2 m and TT for all data, including the stratification formation and weakness periods. Air temperature near the lake rose 1.2uC between 1951 and 2012, corresponding to a 0.8uC increase in T 0-2 m , and a 0.78 m decrease in SDD between 1987 and 2012. The increase in air temperature and the decrease in SDD caused a decrease in TD and an increase in TT, facilitating the thermal stratification and stability of the lake; therefore, climate warming has had a significant effect on the thermal regime of Lake Qiandaohu.

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“…Since that incident some studies have been carried out on several reservoirs in South and Central America documenting blooms and progenitor species (Díaz-Pardo et al, 1998;Lind and Davalos-Lind, 2002;Ramirez et al, 2002;Bittencourt-Oliveira et al, 2005;Frias et al, 2006;Merino-Ibarra et al, 2007;Berry and Lind, 2010;Vasconcelos et al, 2010;Rejmánková et al, 2011). A review by Dorr et al (2010) revealed that there has been increased cyanobacterial bloom occurrence in water bodies in South America requiring better methods for screening and testing of cyanobacterial toxins.…”

Section: Introductionmentioning

confidence: 99%

Tropical cyanobacterial blooms: a review of prevalence, problem taxa, toxins and influencing environmental factors

et al. 2014

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Physical and chemical limnology of a wind-swept tropical highland reservoir

Cited by 50 publications

References 22 publications

The impact of anthropogenic pollution on limnological characteristics of a subtropical highland reservoir “Lago de Guadalupe”, Mexico

The impact of anthropogenic pollution on limnological characteristics of a subtropical highland reservoir “Lago de Guadalupe”, Mexico

Thermal structure and response to long‐term climatic changes in Lake Qiandaohu, a deep subtropical reservoir in China

Tropical cyanobacterial blooms: a review of prevalence, problem taxa, toxins and influencing environmental factors

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