Limnology in Mexico

Alcocer, Javier; Bernal-Brooks, Fernando

doi:10.1007/s10750-010-0211-1

Cited by 71 publications

(66 citation statements)

References 112 publications

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“…For example, in high altitude regions of central Mexico, water temperature ranges from <10 to >24°C (Alcocer and Bernal-Brooks, 2010). In Site 1, we observed near neutral pH (6.9), but it was as high as 10 in other stations.…”

Section: Discussionmentioning

confidence: 60%

“…However, almost all of them are based on large (e.g., lake Chapala) and historically (Lake Xochimilco), culturally (e.g., lake Paztcuaro) or for drinking water (e.g., Valle de Bravo) important waterbodies (De la Lanza and García, 2002). These studies form a basis for further research, but do not necessarily become a typical representation of small but perennial waterbodies (Alcocer and Bernal-Brooks, 2010). Here, we studied the monthly variations of rotifers from the Madín Reservoir during the period 2016-2017.…”

Section: Introductionmentioning

confidence: 99%

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Population growth potential of rotifers from a high altitude eutrophic waterbody, Madín reservoir (State of Mexico, Mexico): The importance of seasonal sampling

2018

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To understand the population growth potential of different species of rotifers in nature, field collections through seasons are essential. We sampled zooplankton (and measured selected physicochemical variables) from the Madín reservoir, a high altitude eutrophic urban waterbody from Mexico, every month for a year. Qualitative analysis of zooplankton revealed 28 rotifer species and four cladoceran crustaceans plus one unidentified copepod. Cephalodella catellina (1400 ind L -1 ), Horaella thomassoni (550 ind L -1 ), Conochilus dossuarius (380 ind L -1 ) and Filinia longiseta (25 ind L -1 ) had higher peak density than other rotifers. Based on the concentrations of nitrates and phosphates, chlorophyll a levels or different diversity indices (e.g., Carlson, Shannon-Wiener, Pantle and Buck, Ejsmont-Karabin's TSI Rot ), the waterbody is eutrophic to hypertrophic, depending on the season. In this waterbody we observed high densities of Aphanothece sp. which is a toxic picocyanobacterium. During the blooms of Aphanothece, we also recorded higher densities of H. thomassoni and C. catellina. Based on the gut contents we found that both these rotifer species feed on Aphanothece in this waterbody. This study thus suggests the potential growth of Horaella, Cephalodella, Conochilus and Filinia in this eutrophic reservoir containing blooms of Aphanothece.

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Section: Discussionmentioning

confidence: 60%

Section: Introductionmentioning

confidence: 99%

Population growth potential of rotifers from a high altitude eutrophic waterbody, Madín reservoir (State of Mexico, Mexico): The importance of seasonal sampling

2018

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“…This is roughly equivalent to a Secchi depth smaller than ≈ 0.5 m and to a suspended sediment concentration (SSC) over ≈ 100 g/m 3 (e.g., [17]). In this respect, the present study suggests that the proposed technique can be applied to less (but still very) turbid water (Secchi depth up to ≈ 1.0 m), in which case it could be applied to reservoirs having the following characteristics: dam embankments or lakes surrounded by erodible soils (e.g., [18,19]), shallow lakes exposed to wind (e.g., [20,21]), hypereutrophic or brown-water eutrophic lakes (e.g., [22,23]) and wastewater reservoirs. At least 10% of the reservoirs and lakes over the world are very to extremely turbid (Secchi depth < 1.0 m) [23].…”

Section: Stage Estimationmentioning

confidence: 98%

Stage Monitoring in Turbid Reservoirs with an Inclined Terrestrial Near-Infrared Lidar

Tamari

Guerrero-Meza²,

Rifad

et al. 2016

Remote Sensing

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Abstract:To monitor the stage in turbid reservoirs with a sloping bank, it has been proposed to install a near-infrared Lidar on the bank and to orient it so that it points at the water surface with a large incidence angle (between ≈ 30 • and 70 • ). The technique assumes that the Lidar can detect suspended particles that are slightly below the water surface. Some laboratory results and the first long-term assessment (>2 years) of the technique are presented. It found that: (1) although the test Lidar provides erratic distance data, they can be easily filtered according to the intensity of the received signal; (2) the Lidar provides reliable data only when the water is very turbid (Secchi depth smaller than ≈ 1.0 m); and (3) the reliable data can be used to estimate daily stage values (after a simple field calibration) with an uncertainty better than ±0.08 m (p = 0.95). Although the present form of the technique is not very accurate, it uses an inexpensive instrument (≈1500 USD) which can be easily installed in a safe place (such as is the roof of a building). It is argued that the technique could be also used to monitor the stage and the sub-surface velocity in others turbid water bodies, such as some coastal areas (a recent field of application) and flooding rivers.

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“…The dry climate in the region (425 to 656mm mean annual precipitation) is a product of the orographic barrier of the Sierra Madre Oriental and the Cofre de Perote-Citlatépetl volcanic chain . Maar lakes in the Axalapascos region are of special interest for limnologists and biologists (Ramírez-García, & Vázquez-Gutiérrez, 1989;Alcocer, & Bernal-Brooks, 2010), because they have a high level of endemism (Barluenga, Stölting, Salzburger, Muschick, & Meyer, 2006;Alcántara-Rodríguez, Ciros-Pérez, Ortega-Mayagoitia, Serrania-Soto, & Piedra-Ibarra, 2012). These lakes are also important, because of their potential use as high resolution paleoclimatic records (Caballero et al, 2003;Juárez, 2005).…”

Section: Study Sitementioning

confidence: 99%

Ostrácodos no-marinos de lagos en el altiplano este-centro de México

Pérez

Lozano‐García

Caballero

2015

RBT

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Abstract:The ostracode fauna of the neartic-neotropical transitional zone has remained poorly known until this study. Ten ostracode species inhabit ten highland lakes (five maar lakes (phreatic/phreato-magmatic explosion origin), one volcanic-tectonic lake, three natural dams and one man-made dam) in East-central Mexico. Surface sediments from the deepest part and the littoral zone from all studied lakes were collected. Environmental variables (pH, temperature, dissolved oxygen, conductivity, TDS) were measured in situ and parallel water samples for chemical analysis were collected for habitat description. Widely distributed species in the study area (≥5 lakes) include Cypridopsis vidua, Darwinula stevensoni and Eucandona cf. patzcuaro. Limnocytherina axalapasco is an endemic species and was collected in three maar lakes and in one man-made dam. Rare species included: Chlamydotheca arcuata?, Fabaeformiscandona acuminata?, Ilyocypris gibba?, Limnocythere friabilis?, Potamocypris smaragdina? and Potamocypris unicaudata?. Highest species richness (6 spp.) was found in the large and shallow Lake Metztitlán (2.6km 2 , 5.5m deep), with the lake water type HCO 3 ->>SO 4 2->Cl ---Ca 2+ >Na + >Mg 2+ . The rest of studied lakes (<63m, <27km 2 ) had not more than three species. For instance, only two ostracode species were collected in Lake Alchichica, which is the largest, deepest and most saline studied maar lake. Rev. Biol. Trop. 63 (2): 401-425. Epub 2015 June 01.

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Limnology in Mexico

Cited by 71 publications

References 112 publications

Population growth potential of rotifers from a high altitude eutrophic waterbody, Madín reservoir (State of Mexico, Mexico): The importance of seasonal sampling

Population growth potential of rotifers from a high altitude eutrophic waterbody, Madín reservoir (State of Mexico, Mexico): The importance of seasonal sampling

Stage Monitoring in Turbid Reservoirs with an Inclined Terrestrial Near-Infrared Lidar

Ostrácodos no-marinos de lagos en el altiplano este-centro de México

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