Your search keyword '"Schiaffino, María Romina"' showing total 4 results

1. New findings on the effect of glyphosate on autotrophic and heterotrophic picoplankton structure: A microcosm approach

Author

Sabio y García, Carmen Alejandra, Schiaffino, María Romina, Lozano, Verónica Laura, Vera, María Solange, Ferraro, Marcela, Izaguirre, Irina, and Pizarro, Haydée

Published

2020

2. Zooplankton succession during extraordinary drought–flood cycles: A case study in a South American floodplain lake.

Author

Chaparro, Griselda, Marinone, María Cristina, Lombardo, Ruben J., Schiaffino, María Romina, de Souza Guimarães, Alice, and O’Farrell, Inés

Subjects

ZOOPLANKTON, FLOODPLAINS, LAKES, CASE studies, DROUGHTS, PHYTOPLANKTON, CYANOBACTERIAL blooms

Abstract

Abstract: We examined the zooplankton abundance and composition of Laguna Grande, a floodplain wetland of the Lower Paraná Basin (Argentina), during an extraordinary drought–flood cycle that affected both the environment and the biological conditions of the lake. Low waters were characterised by remarkably high conductivities and pH values, and high phytoplankton and bacterioplankton abundances with cyanobacterial blooms, while high waters showed opposite features. In relation to zooplankton, the mean abundances of all the taxonomic groups (rotifers, cladocerans, copepods, ciliates, and heterotrophic nanoflagellates) were slightly higher at low waters. Major changes were observed in the specific composition of metazooplankton: the euryhaline species assemblage that dominated in the dry warm period was replaced by several oligohaline littoral and planktonic species characteristic of the Paraná River Basin, when the water level rose. Mean species richness values at high waters doubled those of low waters and were directly correlated to water depth. Most of the rotifers of the genus Brachionus and the cladoceran Moina micrura switched from parthenogenetic to sexual reproduction during low waters, as a response to a harsh environment and crowding. We suggest that the main changes in the environmental conditions in this eutrophic floodplain lake are driven by the hydrology, which regulates the zooplankton succession. The herein described shifts in the zooplankton structure and dynamics of Laguna Grande over an extraordinary drought–flood cycle contribute to the understanding of the processes that might occur under the scenarios predicted by climate change models. [Copyright &y& Elsevier]

Published

2011

3. Human impacted shallow lakes in the Pampean plain are ideal hosts for cyanobacterial harmful blooms.

Author

O'Farrell, Inés, Sánchez, María Laura, Schiaffino, María Romina, Izaguirre, Irina, Huber, Paula, Lagomarsino, Leonardo, and Yema, Lilen

Subjects

CYANOBACTERIAL blooms, LAKES, BODIES of water, WATER levels, TRAFFIC safety, PLAINS, TEMPERATURE effect, LAKE restoration

Abstract

The ecological status of Pampean shallow lakes is evidenced by Cyanobacteria Harmful Blooms impairing these nutrient enriched, turbid and polymictic water bodies spread along the Central Plains of Argentina. Under the premise that shallow lakes are sentinels of global climate and eutrophication, a 3-year research in ten lakes located across a climatic gradient explored which factors drove the dynamics of cyanobacterial assemblages frequently driving to bloom prevalence. Contrarily to what is expected, the effect of seasonal temperature on cyanobacteria was subordinated to both the light environment of the water column, which was on turn highly affected by water level conditions, and to nutrient concentrations. Monthly samplings evidenced that cyanobacterial assemblages presented a broad-scale temporal dynamics mostly reflecting inter-annual growth patterns driven by water level fluctuations. Both species composition and biovolume gradually changed across a gradient of resources and conditions and hence, the scenario in each individual lake was unique with patterns at different temporal and spatial scales. More than 35 filamentous and colonial morphospecies constituted the assemblages of Pampean lakes: nostocaleans and chroococcaleans were inversely correlated in the prevailing interannual 3-cycled patterns. [Display omitted] • Bloom forming cyanobacteria prevail in shallow lakes immersed in impacted landscapes. • Interannual water level changes affect light conditions hence driving bloom dynamics. • Phosphorus and light interplay influence cyanobacterial assemblage structure. • Cyanobacterial blooms persist all year round in many pampean lakes. • Species temporal replacement evidences changes of morphological traits. Light conditions associated to water level fluctuations cause cyanobacterial bloom prevalence in eutrophic Pampean shallow lakes. [ABSTRACT FROM AUTHOR]

Published

2021

4. Drivers of planktonic chlorophyll a in pampean shallow lakes.

Author

Sánchez, María Laura, Izaguirre, Irina, Zagarese, Horacio, Schiaffino, María Romina, Castro Berman, Manuel, Lagomarsino, Leonardo, Chaparro, G., Baliña, Sofìa, Vera, María Solange, and Cheruvelil, Kendra Spence

Subjects

*POTAMOGETON, *MACROPHYTES, *LAKE restoration, *LAKES, *AGRICULTURAL development, *RIPARIAN areas, *CHLOROPHYLL, *AGRICULTURAL intensification

Abstract

[Display omitted] • We studied the drivers of planktonic chlorophyll a (Chl a) with a regional approach. • Shallow pampean lakes did not exhibited a positive TP-Chl a relationship. • Chl a was driven by submerged macrophytes, total nitrogen and agriculture. • Total phosphorus was the main driver of Chl a in lakes with submerged macrophytes. • For lakes without submerged macrophytes, Chl a was positively driven by the nearby agriculture of each lake. Although agricultural intensification has been linked with the increment of lake eutrophication and shallow lake research has demonstrated the importance of submerged macrophytes for maintaining water clarity, less is known about the role of macrophytes and the effects of agriculture on shallow lakes of the global south. Shallow lakes in the Pampean region of Argentina are subjected to high anthropic pressure and are classified as eutrophic and hypereutrophic and, in spite of most of them are turbid and dominated by phytoplankton biomass, some remain in a clear-vegetated regime with profuse submerged macrophytes. We studied the potential drivers of phytoplankton biomass (estimated as Chlorophyll- a - Chl a) by applying a regional approach and a model selection process for a dataset of 58 shallow lakes that represent the variability of the Pampean region. For the 58 lakes, the presence of submerged macrophytes, total nitrogen, and nearby agriculture of each lake were the main drivers of Chl a with −1.55, 0.19 and 0.02 coefficient values, respectively. Moreover, a high proportion of the variance in this dataset (37.7 %) was explained by the regional location of each lake (hydrographic systems). For lakes with macrophytes (N = 8), Chl a exhibited a positive relationship with total phosphorus (coefficient value = 3.05), whereas for lakes without macrophytes (N = 50) Chl a showed a positive relationship with nearby agricultural development (coefficient value = 0.02) and 36.4 % of variance explained by the hydrographic system. Our regional approach highlighted the importance of submerged macrophytes in shaping phytoplankton biomass in Pampean shallow lakes. Our results support the idea that the conservation of submerged macrophytes, as well as the control of agriculture in the riparian zones of lakes, will help to stabilize the shallow lakes in clear regime, even in regions highly impacted by agriculture and in lakes under eutrophic conditions. [ABSTRACT FROM AUTHOR]

Published

2023