References of "Gosselain, Véronique"
     in
Bookmark and Share    
Full Text
Peer Reviewed
See detailModelling the impact of benthic filter-feeders on the composition and biomass of river plankton
Descy, Jean-Pierre; Everbecq, Etienne ULg; Gosselain, Véronique ULg et al

in Freshwater Biology (2003), 48(3), 404-417

1. The POTAMON model [Everbecq E. et al. (2001) Water Research, 35, 901] has been used to simulate the effect of benthic bivalves (mainly Dreissena polymorpha ) on the phytoplankton and zooplankton in a ... [more ▼]

1. The POTAMON model [Everbecq E. et al. (2001) Water Research, 35, 901] has been used to simulate the effect of benthic bivalves (mainly Dreissena polymorpha ) on the phytoplankton and zooplankton in a lowland Western European river (the Moselle). Here we use a modified version of the POTAMON model with five categories of phytoplankton (Stephanodiscus, Cyclotella -like, large diatoms, Skeletonema and non-siliceous algae) to model filter-feeding effects of benthic bivalves in the Moselle. Zooplankton has been represented in the model by two categories, Brachionus -like and Keratella -like rotifers. 2. According to density estimates from field surveys (Bachmann V. et al. (1995) Hydroecologie Appliquee, 7, 185, Bachmann V. & Usseglio-Polatera P. (1999) Hydrobiologia, 410, 39), zebra mussel density varied among river stretches, and increased through the year to a maximum in summer. Dreissena filtration rates from the literature were used, and mussels have been assumed to feed on different phytoplankton categories (but less on large and filamentous diatoms) as well as on rotifers. 3. The simulations suggest a significant impact of benthic filter-feeders on potamoplankton and water quality in those stretches where the mussels are abundant, their impact being maximal in summer. Consequently, different plankton groups were not affected to the same extent, depending on their period of development and on indirect effects, such as predation by mussels on herbivorous zooplankton. 4. A daily carbon balance for a typical summer shows the effect of benthic filter-feeders on planktonic and benthic processes: the flux of organic matter to the bottom is greatly enhanced at high mussel density; conversely, production and breakdown of organic carbon in the water column are reduced. Mussel removal would drive the carbon balance of the river toward autotrophy only in the downstream stretches. [less ▲]

Detailed reference viewed: 40 (8 ULg)
Full Text
See detailModélisation de l’impact de mollusques filtreurs sur le phytoplancton de la Moselle.
Descy, Jean-Pierre; Everbecq, Etienne ULg; Gosselain, Véronique ULg et al

in Tribune de l'Eau (La) (2002), 55-56(n° 619-620), 130-138

Le modèle POTAMON (Everbecq & al., 2001) a été utilisé pour simuler l'effet de mollusques bivalves (principalement Dreissena polymorpha) sur le phytoplancton et le zooplancton d'une rivière de plaine, la ... [more ▼]

Le modèle POTAMON (Everbecq & al., 2001) a été utilisé pour simuler l'effet de mollusques bivalves (principalement Dreissena polymorpha) sur le phytoplancton et le zooplancton d'une rivière de plaine, la Moselle. Les simulations suggèrent un impact significatif des mollusques filtreurs sur le phytoplancton, en particulier en été. Les simulations ont également permis d'établir un bilan carbone de la rivière et d'expliquer les déficits en oxygène observés dans la Moselle. [less ▲]

Detailed reference viewed: 21 (4 ULg)
Full Text
Peer Reviewed
See detailPotamon: A Dynamic Model for Predicting Phytoplankton Composition and Biomass in Lowland Rivers
Everbecq, Etienne ULg; Gosselain, Véronique ULg; Viroux, Laurent et al

in Water Research (2001), 35(4), 901-12

POTAMON is a unidimensional, non-stationary model, designed for simulating potamoplankton from source to mouth. The forcing variables are discharge, river morphology, water temperature, available light ... [more ▼]

POTAMON is a unidimensional, non-stationary model, designed for simulating potamoplankton from source to mouth. The forcing variables are discharge, river morphology, water temperature, available light and nutrient inputs. Given the description of several algal categories, POTAMON allows to simulate algal "successions" at a particular site, as well as longitudinal changes of potamoplankton composition and biomass. The algal categories differ by their physiology, their loss rates, and their sensitivity to grazing by zooplankton. Two zooplankton categories were considered, Brachionus-like and Keratella-like, which differ by their clearance rate, their incipient limiting level, their selectivity towards phytoplankton, and their growth yield. The model simulates satisfactorily the onset and the magnitude of the phytoplankton spring bloom in the Belgian part of R. Meuse, the biomass decrease in early summer, and the autumn bloom. It also renders the major variations of algal assemblages along the river. The model allows to confirm that the main driving variables of potamoplankton dynamics in a eutrophic river are physical factors: discharge and related variables (e.g. retention time), light and temperature. In addition, the simulations confirm that the zooplankton-phytoplankton interaction may result in phytoplankton biomass fluctuations and compositional changes. POTAMON can be useful to explore plankton dynamics in a large river, and it may become a tool to test various management measures. [less ▲]

Detailed reference viewed: 38 (6 ULg)
Full Text
Peer Reviewed
See detailThe phytoplankton community of the river Meuse, Belgium: seasonal dynamics (year 1992) and the possible incidence of zooplankton grazing
Gosselain, Véronique ULg; Descy, Jean-Pierre; Everbecq, Etienne ULg

in Hydrobiologia (1994), 289

Qualitative and quantitative aspects of the phytoplankton of the river Meuse were studied during 1992 at a point 537 km from the source. The phytoplankton was dominated by diatoms and green algae. The ... [more ▼]

Qualitative and quantitative aspects of the phytoplankton of the river Meuse were studied during 1992 at a point 537 km from the source. The phytoplankton was dominated by diatoms and green algae. The factors regulating the phytoplankton groxth were clearly physical variables : discharge, temperature and irradiance. [less ▲]

Detailed reference viewed: 19 (1 ULg)