Your search keyword '"Blettler M"' showing total 5 results

1. Effects of Vegetable Oil Pollution on Aquatic Macroinvertebrate Assemblage in a Freshwater Wetland and Its Use as a Remediation Tool

Author

Selala, M. C., Botha, A-M., de Klerk, A. R., de Klerk, L. P., Myburgh, J. G., Blettler, M. C. M., and Oberholster, P. J.

Published

2013

2. Fish Structure in Channel Networks of a Large Anabranching Floodplain: Effect of Isolation/Connection Processes.

Author

Abrial, E., Espínola, L. A., Amsler, M. L., Rabuffetti, A. P., Latosinski, F. G., Szupiany, R. N., Eurich, M. F., and Blettler, M. C. M.

Subjects

FLOODPLAINS, BODIES of water, FISH conservation, FISHES, GEOMORPHOLOGY, WATER quality, MEANDERING rivers

Abstract

Channel networks of floodplain rivers are the main routes for water, sediment, organic matter, and aquatic organisms between main channels and lakes, playing a substantial role in floodplain dynamics. Despite their importance most investigations in large floodplain rivers focus on main channels and lentic water bodies. This research deals with fish assemblage variations in different lotic sites (scour holes and straight reaches) of one of the many channels which shape the wide anabranching floodplain of the middle reach of the Paraná River. We considered the influence of environmental factors, such as hydro‐geomorphological features and water quality of the channel, connections with surrounding lentic water bodies, seasonality, and interannual flow variations. The results showed two main ecological patterns closely related to floodplain connectivity. In‐channel habitat heterogeneity has low influence on fish assemblages when minor channels are connected to significant flooded areas (sampling period 2013–2016). Spatial or temporal predictions of fish structure during these stages are not easy due to the interaction of several environmental factors. However, during very low water levels (winter of 2018) most lentic areas become isolated from the nearby channel network, and floodplain fish are forced to move into the numerous scour holes of the floodplain channels where water conditions resemble those in lentic habitats. Our work highlights the importance of in‐channel characteristics of floodplain river networks and their crucial role for fish conservation, particularly during very low water stages. Key Points: Weak relationship between local hydro‐morphological features of floodplain channels and fish assemblages when surrounding lakes are availableScour holes in floodplain channels as refuges for fish when isolation stages approachEcological relevance of the interaction of geomorphology and hydrology in a large anabranching floodplain [ABSTRACT FROM AUTHOR]

Published

2019

3. Response of fish assemblage structure to changing flood and flow pulses in a large subtropical river.

Author

Espínola, L. A., Rabuffetti, A. P., Abrial, E., Amsler, M. L., Blettler, M. C. A., Paira, A. R., Simões, N. R., and Santos, L. N.

Abstract

Fish assemblages recorded from August 2010 to July 2013 in two lotic and lentic environments of the Middle Paraná River floodplain were studied in the light of flood and flow pulse variations. Three flood pulses occurred during the period of study, each with a different magnitude, duration and timing. Instead four flow pulses were recorded during this period. The varied hydrological conditions had an influence on the ichthyofauna. The fish species richness in both lentic and lotic habitat was negatively correlated with the maximum water level and fish assemblages were spatially and temporally structured according to their different reproductive strategies. Long- and short-distance migratory species were dominant after the flood pulse of the highest intensity and longest duration, whereas sedentary fish and internal fertilisation prevailed during flow pulses and lower flood pulses. Fish assemblage similarity was generally low between habitats during flood and flow pulses, but increased after those events depending on their magnitude, duration and timing. Apparently, flow pulses would also function like floods, as mechanisms of spatio-temporal structuring of fish assemblages. [ABSTRACT FROM AUTHOR]

Published

2017

4. Fine Sediment Input and Benthic Fauna Interactions at the Confluence of Two Large Rivers.

Author

Blettler, M. C. M., Amsler, M. L., Ezcurra De Drago, I., Drago, E., Paira, A., Espinola, L.A., Eberle, E., and Szupiany, R.

Abstract

Several studies suggest that invertebrate abundance and richness are disrupted and reset at confluences. Thus, junctions contribute disproportionately to the overall aquatic biodiversity of the river. In general terms, authors have reported high abundance and diversity due to the major physical heterogeneity at junctions. However, data are still scarce and uncertainties are plentiful. The impact of a great input of fine sediments on the distribution patterns of benthic invertebrates at a river confluence was quantitatively analyzed herein. The junction of the subtropical Bermejo River (high suspended sediment load) with the large Paraguay River is the selected study area to achieve this aim. While diversity increased slightly downstream the junction (from 0.21 to 0.36), density and richness of the macroinvertebrate assemblage significantly diminished downstream the confluence (from 29050 to 410 ind/m2; p< 0.05) due to the input of fine sediment from the Bermejo River (mean fine sediment increased downstream from 6.3 to 10.2 mg/L), causing a negatively impact on invertebrate assemblage. This study highlights the ecological importance of the sediment input effects on benthic invertebrates, a topic still poorly explored in river ecology. It is speculated that the spatial extent of the impact would be dependent upon the hydrological and sedimentological context, highly unequal between both rivers. New hypotheses should be tested through new studies considering different hydrological stages. [ABSTRACT FROM AUTHOR]

Published

2016

5. Monitoring macroplastics in aquatic and terrestrial ecosystems: Expert survey reveals visual and drone-based census as most effective techniques.

Author

Gallitelli L, Girard P, Andriolo U, Liro M, Suaria G, Martin C, Lusher AL, Hancke K, Blettler M, Garcia-Garin O, Napper IE, Corbari L, Cózar A, Morales-Caselles C, González-Fernández D, Gasperi J, Giarrizzo T, Cesarini G, De K, Constant M, Koutalakis P, Gonçalves G, Sharma P, Gundogdu S, Kumar R, Garello NA, Camargo ALG, Topouzelis K, Galgani F, Royer SJ, Zaimes GN, Rotta F, Lavender S, Nava V, Castro-Jiménez J, Mani T, Crosti R, Azevedo-Santos VM, Bessa F, Tramoy R, Costa MF, Corbau C, Montanari A, Battisti C, and Scalici M

Subjects

Remote Sensing Technology, Satellite Imagery, Environmental Monitoring methods, Ecosystem, Plastics analysis

Abstract

Anthropogenic litter, such as plastic, is investigated by the global scientific community from various fields employing diverse techniques. The goal is to assess and finally mitigate the pollutants' impacts on the natural environment. Plastic litter can accumulate in different matrices of aquatic and terrestrial ecosystems, impacting both biota and ecosystem functioning. Detection and quantification of macroplastics, and other litter, can be realized by jointly using visual census and remote sensing techniques. The primary objective of this research was to identify the most effective approach for monitoring macroplastic litter in riverine and marine environments through a comprehensive survey based on the experiences of the scientific community. Researchers involved in plastic pollution evaluated four litter occurrence and flux investigation methods (visual census, drone-based surveys, satellite imagery, and GPS/GNSS trackers) through a questionnaire. Traditional visual census and drone deployment were deemed as the most popular approaches among the 46 surveyed researchers, while satellite imagery and GPS/GNSS trackers received lower scores due to limited field validation and short performance ranges, respectively. On a scale from 0 to 5, visual census and drone-based surveys obtained 3.5 and 2.0, respectively, whereas satellite imagery and alternative solutions received scores lower than 1.2. Visual and drone censuses were used in high, medium and low-income countries, while satellite census and GPS/GNSS trackers were mostly used in high-income countries. This work provides an overview of the advantages and drawbacks of litter investigation techniques, contributing i) to the global harmonization of macroplastic litter monitoring and ii) providing a starting point for researchers and water managers approaching this topic. This work supports the selection and design of reliable and cost-effective monitoring approaches to mitigate the ambiguity in macroplastic data collection, contributing to the global harmonization of macroplastic litter monitoring protocols., Competing Interests: Declaration of competing interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2024 Elsevier B.V. All rights reserved.)

Published

2024