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Cyanobacterial blooms : toxicity, diversity, modelling and management (BBLOOMS 2) (PHASE II)

Research project SD/TE/01B (Research action SD)

Persons :

  • Prof. dr.  DESCY Jean-Pierre - Facultés Universitaires Notre-Dame de la Paix (FUNDP)
    Coordinator of the project
    Financed belgian partner
    Duration: 15/12/2008-31/7/2011
  • Prof. dr.  VYVERMAN Wim - Universiteit Gent (UGent)
    Financed belgian partner
    Duration: 15/12/2008-31/7/2011
  • Prof. dr.  WILMOTTE Annick - Université de Liège (ULiège)
    Financed belgian partner
    Duration: 15/12/2008-31/7/2011
  • Dr.  TRIEST Ludwig - Vrije Universiteit Brussel (VUB)
    Financed belgian partner
    Duration: 15/12/2008-31/7/2011
  • Dr.  CODD Geoffrey A. - University of Dundee (UDUND)
    Financed foreign partner
    Duration: 15/12/2008-31/7/2011

Description :

Context

Cyanobacterial blooms, mass developments of cyanobacteria floating at the surface of waterbodies, have become a recurrent and increasingly important phenomenon in freshwaters worldwide over the last decades. The formation of such blooms in surface waters is highly linked to water eutrophication. These nuisance blooms represent m Cyanobacteria blooms, diversity, toxicity, modelling, prediction, management ajor potential hazards for human and animal health and interfere in various negative ways with the sustainable use of surface waters for e.g. drinking water treatment, recreation, irrigation, fisheries.
Between 25 and 70% of the blooms are toxic. The cyanotoxins are mainly released in the water during collapse of the blooms. The ingestion or contact with water containing cyanobacterial cells or toxins can cause health damage to man and domestic and wild animals.

Project description

Objectives

The surface waters in Belgium are also plagued by cyanobacterial blooms, particularly in summer and autumn. Eighty percent of the blooms contained taxa with the genetic potential to synthetise microcystins, and the presence of these toxins in the algal biomass was shown for 40% of the analysed bloomsamples.
This four-year proposal aims to deepen the knowledge of the cyanobacterial blooms in Belgium, improve the modelling for prediction and early-warning, develop operational monitoring structures and tools, and propose strategies to reduce the impact.

Methodology

From a scientific point of view, the research program will focus on:

- measurement of the major toxins present in the blooms and water samples by analytical methods specific and sensitive,
- collection of physical, chemical, biological and meteorological data on a few reference waterbodies plagued by toxic cyanobacterial blooms,
- identification and study of the toxigenic cyanobacteria present in the Belgian samples based on molecular tools on samples and strains, allowing the study of genetic diversity, and of factors regulating toxicity,
- development and test of management scenarios for control or mitigation of cyanobacterial blooms in a reservoir using integrated watershed models,
- development of a statistical predictive model for a series of urban ponds.


Interactions between the different partners

Building of BLOOMNET will principally be carried out by FUNDP in collaboration with UGent and VUB. Sampling will be collected by UGent on 2 lakes in Flanders, VUB on a pond in Brussel and FUNDP on a lake in Wallonia; environmental conditions (water quality, meteorological data, zooplankton) will be analysed simultaneously. ULg and UGent will carry out genetic and molecular approaches to detect cyanobacteria toxicity. Determination of toxin contents will be done by HPLC (FUNDP) and with specifical methods by University of Dundee and two members from the user committee (Museum of Paris and Federal Environmental Agency of Berlin).
A deterministic watershed simulation modell will be developed by the Center for Environmental Study and Modelling (ULg) with different management scenarios, in collaboration with FUNDP.


Expected results

From science policy point of view, B-BLOOMS2 will:

- implement a network of samplers based on existing monitoring programmes of surface waters or on collaboration with health authorities or environmental organisations (BLOOMNET),
- transfer the knowledge about methods of monitoring and analysis of blooms that we will develop to the water/health authorities and environmental organisations by hands-on courses in our laboratories and field sites,
- reinforce communication with authorities and increase public awareness,
- contribute to future guidelines and risk assessment procedures and improve monitoring and management.


Partners

Activities

The URBO (FUNDP) develop researches to improve the understanding of functioning of aquatic ecosystems including the relationships between environmental factors and biocenoses, with results applicable to surface water management.

The PAE (UGent) has a long-standing expertise in several protist groups, in particular diatoms. Ecophysiological, molecular and genetic studies of laboratory cultures, and microcosmos experiments complement field-based approaches.

The APNA (VUB) has a main focus on ecology of macrophyte dominated ecosystems and on the genetic diversity of plant populations.

The CIP (ULg) has built experience with molecular techniques and the construction of clone libraries to study the molecular diversity of cyanobacteria in environmental samples.


Contact Information

Coordinator
Jean-Pierre Descy
FUNDP – Dept. Biologie – Unité de Recherches en Biologie des Organismes (URBO)
rue de Bruxelles 61
B-5000 Namur
Tel :+32 (0) 8172 44 05
Fax :+32 (0) 8172 43 62
jean-pierre.descy@fundp.ac.be

Promoters
Wim Vyverman
Ghent University - Dept. Biology - Protistology and Aquatic Ecology (PAE)
Krijgslaan 281 S8
B-9000 Gent
Tel:+32 (0)9 264.85.01
Fax:+32 (0)9 264.85.99
wim.vyverman@ugent.be

Ludwig Triest
Vrije Universiteit Brussel – Dept. Biology - Plant Science and Nature Management
Pleinlaan 2
B-1050 Brussel
Tel :+32 (0)2 629.34.21
Fax :+32 (0)2 629.34.13
ltriest@vub.ac.be

Annick Wilmotte
Université de Liège – Institut de Chimie – Center for Protein Engineering (CIP)
Sart Tilman B6
B-4000 Liège
Tel : +32 (0)4 366.38.56
Fax : +32 (0)4 366.33.64
awilmotte@ulg.ac.be

Geoffrey A. Codd
University of Dundee
Nethergate, Dundee DD1 4HN
Scotland, United Kingdom
Tel: 44 1382 384272
Fax: 44 1382 384275
g.a.codd@dundee.ac.uk

Etienne Everbecq
Université de Liège
Unité de modélisation – Aquapôle -
Sart Tilman B53
B-4000 Liège
Tél : +32 (0)4 366.23.53
Fax :+32 (0)4 366.23.55
e.everbecq@ulg.ac.be


Follow-up committee

Cécile Bernard - Muséum National d'Histoire Naturelle
Renaud Bocquet - Institut Bruxellois pour la gestion de l’environnement (IBGE)
Nadine Burlion - Institut Scientifique de Service Public (ISSeP)
Eric Chauveheid - Vivaqua
Ingrid Chorus - Federal Environmental Agency- Division environnement
Evelyne Flore - Ministère de la Région Wallonne - DGRNE
Maria Leitao - Bureau d'étude Bi-Eau
Luc Samsoen - Provinciale Visserij Commissie Oost-Vlaanderen
André Thirion - Institut Bruxellois pour la gestion de l’environnement (IBGE)
Gaby Verhaegen - Vlaamse Milieumaatschappij
Olivier Thunus - Ministère de la Région Wallonne

Documentation :

Cyanobacterial blooms: toxicity, diversity, modelling and management : final report  Descy, Jean-Pierre - Vyveman, Wim - Wilmotte, Annick ... et al  Brussels : Federal Science Policy, 2012 (SP2442)
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