Your search keyword '"Brucet, Sandra"' showing total 7 results

1. Defining ecologically relevant water quality targets for lakes in Europe

Author

Poikane, Sandra, Portielje, Rob, van den Berg, Marcel, Phillips, Geoff, Brucet, Sandra, Carvalho, Laurence, Mischke, Ute, Ott, Ingmar, Soszka, Hanna, and Van Wichelen, Jeroen

Published

2014

2. Ecological impacts of global warming and water abstraction on lakes and reservoirs due to changes in water level and related changes in salinity

Author

Jeppesen, Erik, Brucet, Sandra, Naselli-Flores, Luigi, Papastergiadou, Eva, Stefanidis, Kostas, Nõges, Tiina, Nõges, Peeter, Attayde, José Luiz, Zohary, Tamar, Coppens, Jan, Bucak, Tuba, Menezes, Rosemberg Fernandes, Freitas, Francisco Rafael Sousa, Kernan, Martin, Søndergaard, Martin, and Beklioğlu, Meryem

Published

2015

3. Effect of a nitrogen pulse on ecosystem N processing at different temperatures: A mesocosm experiment with 15NO3− addition.

Author

Olsen, Saara, Cao, Yu, Florencia Gutierrez, María, Brucet, Sandra, Landkildehus, Frank, Lauridsen, Torben L., Davidson, Thomas A., Søndergaard, Martin, Jeppesen, Erik, and Risgaard‐Petersen, Nils

Subjects

LAKE ecology, NITROGEN oxides, NITROGEN isotopes, WATER temperature, MACROPHYTES, CLIMATE change

Abstract

Shallow lakes may play an important role for the nitrogen (N) balance in drainage basins by processing, transferring and retaining N inputs. An increase in the frequency of storm-induced short-term N pulses and increased water temperatures are both likely outcomes of climate change, potentially affecting the N processing in lakes., An experiment with a K15 NO3− pulse addition (increase in NO3− concentration from c. 0.1 to 2 mg/L) was carried out in 12 mesocosms with relatively low (applies to Danish lakes) total N ( TN) and total phosphorus ( TP) concentrations ( c. 0.3 mg N L−1 and 0.04 mg P L−1) to assess the effects of an N pulse on N processing and storage in shallow lake ecosystems. The mesocosms have a hydraulic retention time of approximately two and a half months, and at the time of the experiment, they had been adapted to contrasting temperatures for a period of 10 years: ambient, T3 (heating according to the Intergovernmental Panel on Climate Change 2007 A2 scenario, +3.7-4.5°C, depending on season) and T5 (heating with A2 + 50%, +4.9-6.6°C)., Macrophytes and filamentous algae retained up to 40% and 30% of the added 15N, respectively, reflecting their high biomass in the mesocosms. Macrophytes and filamentous algae constituted between 70% and 80% of the biomass of all primary producers during the experiment in the T3 and ambient treatments and between 20% and 40% in T5. By comparison, less than 1% of the added 15N diffused to the sediment and less than 5% was lost to the atmosphere as N2 gas. Snails represented the long-term storage of 15N, retaining up to 6% of the tracer and with detectable enrichment 100 days after tracer addition., We found no significant differences among the temperature treatments in the 15N turnover after pulse dosing. However, a larger percentage of 15N was stored in macrophytes in the ambient and T3 mesocosms, reflecting higher biomasses than in T5 where filamentous algae were more abundant. Macrophytes and filamentous algae rather than temperature were therefore key controllers of N processing during the summer N pulse in these shallow, relatively low TP lakes. [ABSTRACT FROM AUTHOR]

Published

2017

4. Size-based diel migration of zooplankton in Mediterranean shallow lakes assessed from in situ experiments with artificial plants.

Author

Tavşanoğlu, Ülkü, Brucet, Sandra, Levi, Eti, Bucak, Tuba, Bezirci, Gizem, Özen, Arda, Johansson, Liselotte, Jeppesen, Erik, and Beklioğlu, Meryem

Subjects

*ZOOPLANKTON, *LAKES, *MACROPHYTES, *GILLNETTING, *PREDATORY animals

Abstract

In warm lakes, fish aggregate within macrophytes, thereby weakening the role of these as a daytime refuge for zooplankton and altering the zooplankton size structure, predation pressure, and water clarity. To elucidate the role of macrophytes as a refuge for zooplankton and their effect on zooplankton size distribution, we established three sets of strandardized artificial plant beds in 11 lakes in Turkey with contrasting fish predation risk and turbidity. Zooplankton were sampled within and outside of each plant beds during day and night. Fish, collected overnight in multimesh-sized gillnets, were abundant both inside and outside the artificial plant beds, impoverishing the usefulness of plants as a daytime refuge for particularly large-bodied zooplankton. Zooplankton size diversity was negatively related to fish abundance. Diel vertical migration was the frequent anti-predator avoidance behavior, but reverse migration was also observed when Chaoborus was present. In contrast to the small-bodied taxa, large- and medium-sized taxa showed intraspecific size-based migration (i.e., individuals of different sizes had different migration patterns). Predators influenced the size structure and diel movement of zooplankton, but the response changed with the size of zooplankton and water clarity. [ABSTRACT FROM AUTHOR]

Published

2015

5. The importance of environmental variables for submerged macrophyte community assemblage and coverage in shallow lakes: differences between northern and southern Europe.

Author

Lauridsen, Torben, Jeppesen, Erik, Declerck, Steven, Meester, Luc, Conde-Porcuna, Jose, Rommens, Wouter, and Brucet, Sandra

Subjects

MACROPHYTES, CHLOROPHYLL, AQUATIC plants, EFFECT of temperature on plants, PHOSPHORUS in water, LAKES

Abstract

Much information is available on community composition and abundance of submerged macrophytes in North temperate lakes, including their response to variation in environmental variables. Less is known about macrophytes in other climate regions. We studied 98 shallow lakes distributed in three different European latitudinal regions. The lakes were selected along mutually independent gradients of macrophyte coverage and total phosphorus and were sampled monthly from May to October for water chemistry and physical variables. We tested for changes in the impact of selected environmental variables on the macrophyte assemblage, coverage and richness in the three regions. Coverage was measured along transects during July/August and June in the northern/central and southern European lakes, respectively. Correspondence Discriminant Analysis was used to detect for differences in macrophyte composition among different regions, and univariate regression trees were used to detect relationships between environmental variables and macrophyte coverage and richness. In the northern lakes, the coverage was mainly related to chlorophyll a followed by pH, and richness was related to Secchi depth and chlorophyll a. In the southern lakes, pH was the key environmental variable for both coverage and richness. North-south differences may be of relevance for determining management strategies related to global climate change. [ABSTRACT FROM AUTHOR]

Published

2015

6. Zooplankton response to climate warming: a mesocosm experiment at contrasting temperatures and nutrient levels.

Author

Šorf, Michal, Davidson, Thomas, Brucet, Sandra, Menezes, Rosemberg, Søndergaard, Martin, Lauridsen, Torben, Landkildehus, Frank, Liboriussen, Lone, and Jeppesen, Erik

Subjects

ZOOPLANKTON, EFFECT of temperature on fishes, FISH diversity, PREDATION, MACROPHYTES, EFFECT of global warming on fishes

Abstract

Zooplankton community response to the combined effects of nutrients and fish (hereafter N + F) at contrasting temperatures was studied in a long-term experiment conducted in 24 shallow lake mesocosms with low and high nutrient levels. We found a positive effect of N + F on zooplankton biomass, chlorophyll- a and turbidity. In contrast, zooplankton species and size diversity decreased with added N + F, as did submerged macrophyte plant volume inhabited (PVI). The community composition of zooplankton in high N + F mesocosms was related to chlorophyll- a and turbidity and to macrophyte PVI in the low N + F mesocosms. Macrophytes can protect zooplankton from fish predation. Compared to N + F effects, temperature appeared to have little effect on the zooplankton community. Yet analysis of community heterogeneity among treatments indicated a significant temperature effect at high N + F levels. The results indicate an indirect temperature effect at high N + F levels that can be attributed to temperature-dependent variation in fish density and/or chlorophyll- a concentration. [ABSTRACT FROM AUTHOR]

Published

2015

7. Biological assessment of European lakes: ecological rationale and human impacts.

Author

Brucet, Sandra, Poikane, Sandra, Lyche‐Solheim, Anne, and Birk, Sebastian

Subjects

*FOSSIL phytoplankton, *MACROPHYTES, *EUTROPHICATION, *INVERTEBRATES, *DIATOMS, *SENSITIVITY analysis

Abstract

Nearly one hundred biological methods are currently used to assess the ecological status of European lakes. Here, using information from a questionnaire, complemented with findings from the literature, we compared the use of different methods to assess the ecological status of lakes as well as the rationale for using different organism groups (phytoplankton, benthic diatoms, macrophytes, benthic invertebrates and fish) in monitoring programmes., Reference conditions were estimated for about half of the methods using near-natural reference sites, complemented with other approaches, such as historical data, modelling and expert judgment. About 40% of the methods used more subjective approaches to establish reference conditions (e.g. selecting near-natural reference sites without any pressure criteria) or no information was available., Methods using several measures (i.e. multimetric methods) were developed, with particular emphasis on measures based on sensitivity/tolerance and abundance. Different organisms showed different responses to similar levels of human impacts. Assessment methods based on phytoplankton showed the strongest response to eutrophication, with class boundaries mainly based on ecological rationale. By contrast, statistical distributions and expert judgment were frequently used in setting class boundaries in macrophyte, benthic invertebrates and fish methods. Methods were strongly biased towards detecting changes associated with eutrophication, with other pressures (e.g. hydromorphological alteration) seldom monitored., Effective restoration measures and achieving good ecological status of European lakes will require assessment programmes based on a sound understanding of pressure-response relationships as well as the use of ecologically based approaches in establishing reference conditions and setting class boundaries. [ABSTRACT FROM AUTHOR]

Published

2013