Presentation is loading. Please wait.

Presentation is loading. Please wait.

A Predictive BTV Wind Spread Model A innovative approach which may contribute to improved vaccination schemes Guy Hendrickx (1), Yves Van Der Stede (2),

Published byReynard Hood Modified over 9 years ago

Similar presentations

Presentation on theme: "A Predictive BTV Wind Spread Model A innovative approach which may contribute to improved vaccination schemes Guy Hendrickx (1), Yves Van Der Stede (2),"— Presentation transcript:

1 A Predictive BTV Wind Spread Model A innovative approach which may contribute to improved vaccination schemes Guy Hendrickx (1), Yves Van Der Stede (2), Estelle Meroc (2), Benoit Durand (3) & E. Ducheyne (1) (1) Avia-GIS, (2) CODA, (3) AFSSA

2 BTV spread in Europe Table of Contents Introduction BTV Previous wind models (gen 1-2) Current wind model (gen 3) → Model Input Data → Model Parameters → Model Flow Chart → Model Outputs Discussion Introduction Gen 1-2 Input Parameters Flowchart Outputs Discussion

3 BTV spread in Europe Culicoides chiopterus Picture ITM Live cycle Introduction Gen 1-2 Input Parameters Flowchart Outputs Discussion

4 BTV spread in Europe European biomes Temperate: BTV 1-8 (6-11) Temperate: BTV 1-8 (6-11) Mediterranean: BTV 1-2-4-8-9-16 Mediterranean: BTV 1-2-4-8-9-16 Introduction Gen 1-2 Input Parameters Flowchart Outputs Discussion

5 Current EU restriction zones BTV spread in Europe Introduction Gen 1-2 Input Parameters Flowchart Outputs Discussion

6 BTV spread in Europe Table of Contents Introduction BTV Previous wind models (gen 1-2) Current wind model (gen 3) → Model Input Data → Model Parameters → Model Flow Chart → Model Outputs Discussion Introduction Gen 1-2 Input Parameters Flowchart Outputs Discussion

7 BTV spread in Europe 1 rst generation model: BTV9 1999     June  November Introduction Gen 1-2 Input Parameters Flowchart Outputs Discussion

8 BTV spread in Europe 2 nd generation model: BTV8 2006 Introduction Gen 1-2 Input Parameters Flowchart Outputs Discussion

9 BTV spread in Europe 2 nd generation model: BTV8 2006 Introduction Gen 1-2 Input Parameters Flowchart Outputs Discussion

10 BTV spread in Europe 2 nd generation model: BTV8 2006 Introduction Gen 1-2 Input Parameters Flowchart Outputs Discussion

11 Table of Contents Introduction BTV Previous wind models (gen 1-2) Current wind model (gen 3) → Model Input Data → Model Parameters → Model Flow Chart → Model Outputs Discussion BTV spread in Europe Introduction Gen 1-2 Input Parameters Flowchart Outputs Discussion

12 Model input data (1/3) Epidemiological BTV1 FR2008 data (AFSSA) at the municipality level  epidemiological curves Denominator data (AFSSA) at municipality level  coordinates modeled within suitable LC Vaccination BTV1 FR2009 data (AFSSA) BTV spread in Europe Introduction Gen 1-2 Input Parameters Flowchart Outputs Discussion

13 Model input data (2/3) Entomological data: → In flight data ABTD 150-1000m (Goossens et al. subm.) → Rothamsted suction trap 11m (Fassotte et al. 2008) → OVI ground level traps (Fassotte et al. 2008) Wind data (ECMWF) BTV spread in Europe Introduction Gen 1-2 Input Parameters Flowchart Outputs Discussion

14 Model input data (3/3) BTV spread in Europe Introduction Gen 1-2 Input Parameters Flowchart Outputs Discussion

15 BTV spread in Europe Table of Contents Introduction BTV Previous wind models (gen 1-2) Current wind model (gen 3) → Model Input Data → Model Parameters → Model Flow Chart → Model Outputs Discussion Introduction Gen 1-2 Input Parameters Flowchart Outputs Discussion

16 Model parameters (1/4) Cluster analysis using a retrospective space- time permutation model (SatScan)  identify location (S 1, S 2,… S n ) and timing (t S1, t S2,… t Sn ) of the model seed cases. Weekly incidence was calculated from the epidemiological curves and fitted using a least square estimator to the Verhulst-Pearl growth function (Verhulst, 1845). BTV spread in Europe Introduction Gen 1-2 Input Parameters Flowchart Outputs Discussion

17 Model parameters (2/4) BTV spread in Europe Introduction Gen 1-2 Input Parameters Flowchart Outputs Discussion

18 Model parameters (3/4) Based on results 2 nd gen. model (Hendrickx et al. 2008) a distinction is made between: → Local mainly midge-flight driven spread (LDS): 50% of the weekly incidence is observed within a range of 4km. → Medium range mainly wind driven spread (WDS): an additional 45% of the weekly incidence is observed within a range of 22km. BTV spread in Europe Introduction Gen 1-2 Input Parameters Flowchart Outputs Discussion

19 Model parameters (4/4) Wind parameters included to restrict WDS: → highest Culicoides activity during the period prior to sunset (Fassotte et al., 2008) → highest density of airborne Culicoides at an altitude of 150m (Goossens et al., submitted). The slowing impact of slope on medium distance wind spread (Bishop et al., 2000, 2005; Ducheyne et al., 2007; Hendrickx et al., 2008) was taken into consideration by reducing the wind magnitude relative to the slope. BTV spread in Europe Introduction Gen 1-2 Input Parameters Flowchart Outputs Discussion

20 BTV spread in Europe Table of Contents Introduction BTV Previous wind models (gen 1-2) Current wind model (gen 3) → Model Input Data → Model Parameters → Model Flow Chart → Model Outputs Discussion Introduction Gen 1-2 Input Parameters Flowchart Outputs Discussion

21 3 rd generation model flowchart BTV spread in Europe Introduction Gen 1-2 Input Parameters Flowchart Outputs Discussion

22 BTV spread in Europe Table of Contents Introduction BTV Previous wind models (gen 1-2) Current wind model (gen 3) → Model Input Data → Model Parameters → Model Flow Chart → Model Outputs Discussion Introduction Gen 1-2 Input Parameters Flowchart Outputs Discussion

23 BTV spread in Europe Descriptive wind model BTV1 2008 Introduction Gen 1-2 Input Parameters Flowchart Outputs Discussion

24 BTV spread in Europe BTV1 FR 2008: Observed-weekly Introduction Gen 1-2 Input Parameters Flowchart Outputs Discussion

25 BTV spread in Europe BTV1 FR 2008: Observed-cumulative Introduction Gen 1-2 Input Parameters Flowchart Outputs Discussion

26 BTV spread in Europe BTV1 FR 2008 - simulated BTV1-2008 observed (Includes vaccination) BTV1-2008 simulation output Introduction Gen 1-2 Input Parameters Flowchart Outputs Discussion

27 BTV spread in Europe Predictive wind model BTV1 2009 Introduction Gen 1-2 Input Parameters Flowchart Outputs Discussion

28 BTV spread in Europe BTV 1 – vaccination coverage bovine Adapted from: Data May 2009 included in model Data August 2009 Introduction Gen 1-2 Input Parameters Flowchart Outputs Discussion

29 BTV spread in Europe BTV 1 – vaccination coverage ovine Adapted from: Data May 2009 included in model Data August 2009 Introduction Gen 1-2 Input Parameters Flowchart Outputs Discussion

30 BTV spread in Europe BTV1 prediction 2009 – SW France Introduction Gen 1-2 Input Parameters Flowchart Outputs Discussion

31 BTV spread in Europe Table of Contents Introduction BTV Previous wind models (gen 1-2) Current wind model (gen 3) → Model Input Data → Model Parameters → Model Flow Chart → Model Outputs Discussion Introduction Gen 1-2 Input Parameters Flowchart Outputs Discussion

32 Significant step to predict BTV spread after first introduction: → Predict spatial extent → Improved vaccination policy Further model improvements: → Include impact weather → Disentangle wind and movement BTV spread in Europe Introduction Gen 1-2 Input Parameters Flowchart Outputs Discussion

33 Thank you. http://www.avia-gis.com

Download ppt "A Predictive BTV Wind Spread Model A innovative approach which may contribute to improved vaccination schemes Guy Hendrickx (1), Yves Van Der Stede (2),"

Similar presentations

Simple linear models Straight line is simplest case, but key is that parameters appear linearly in the model Needs estimates of the model parameters (slope.

Simple linear models Straight line is simplest case, but key is that parameters appear linearly in the model Needs estimates of the model parameters (slope.
Introduction to data assimilation in meteorology Pierre Brousseau, Ludovic Auger ATMO 08,Alghero, 15-18 september 2008.

Introduction to data assimilation in meteorology Pierre Brousseau, Ludovic Auger ATMO 08,Alghero, september 2008.
OSE meeting GODAE, Toulouse 4-5 June 2009 Interest of assimilating future Sea Surface Salinity measurements.

OSE meeting GODAE, Toulouse 4-5 June 2009 Interest of assimilating future Sea Surface Salinity measurements.
J. A. Elías-Maxil Jan Peter van der Hoek Jan Hofman Luuk Rietveld SPN7.

J. A. Elías-Maxil Jan Peter van der Hoek Jan Hofman Luuk Rietveld SPN7.
Importance of Land use management on the Flood Management in the Chi River Basin, Thailand Kittiwet Kuntiyawichai Bart Schultz Stefan Uhlenbrook F.X. Suryadi.

Importance of Land use management on the Flood Management in the Chi River Basin, Thailand Kittiwet Kuntiyawichai Bart Schultz Stefan Uhlenbrook F.X. Suryadi.
1 SPACE WEATHER EFFECTS ON SATELLITE DRAG 6 January 2006 Cheryl Huang, Frank A. Marcos and William Burke Space Vehicles Directorate Air Force Research.

1 SPACE WEATHER EFFECTS ON SATELLITE DRAG 6 January 2006 Cheryl Huang, Frank A. Marcos and William Burke Space Vehicles Directorate Air Force Research.
HYDRUS_1D Sensitivity Analysis Limin Yang Department of Biological Engineering Sciences Washington State University.

HYDRUS_1D Sensitivity Analysis Limin Yang Department of Biological Engineering Sciences Washington State University.
Theoretical Simulations of the Martian Ionosphere and Comparisons to Observations (How do thermospheric tides and variations in solar flux affect ionospheric.

Theoretical Simulations of the Martian Ionosphere and Comparisons to Observations (How do thermospheric tides and variations in solar flux affect ionospheric.
The Effect of Soil Hydraulic Properties and Deep Seepage Losses on Drainage Flow using DRAINMOD Debjani Deb 26 th April, 2004.

The Effect of Soil Hydraulic Properties and Deep Seepage Losses on Drainage Flow using DRAINMOD Debjani Deb 26 th April, 2004.
PREFER 1 st Annual Review Meeting, 5-6 Dec 2013, Milano-Italy PREFER WP3.1 - Information Support to Preparedness/Prevention Phase Product: “Daily Fire.

PREFER 1 st Annual Review Meeting, 5-6 Dec 2013, Milano-Italy PREFER WP3.1 - Information Support to Preparedness/Prevention Phase Product: “Daily Fire.
30/10/2006 MARKET BASED MECHANISMS TO FIGHT CLIMATE CHANGE Jean-François Conil-Lacoste Chief Executive Officer, Powernext SA APEX Conference October 30,

30/10/2006 MARKET BASED MECHANISMS TO FIGHT CLIMATE CHANGE Jean-François Conil-Lacoste Chief Executive Officer, Powernext SA APEX Conference October 30,
Regionial Economics and Policy Wien June 3, 2005 Economic Geography and Regional Policy Albert van der Horst Steven Brakman, Harry Garretsen Joeri Gorter,

Regionial Economics and Policy Wien June 3, 2005 Economic Geography and Regional Policy Albert van der Horst Steven Brakman, Harry Garretsen Joeri Gorter,
Wind Energy Forecaster A Web-based Wind Energy Prediction Tool Aditya Trivedi ’16 Advisor: Dr. Eric Larson.

Wind Energy Forecaster A Web-based Wind Energy Prediction Tool Aditya Trivedi ’16 Advisor: Dr. Eric Larson.
Centre for Geo-information Fieldwork: the role of validation in geo- information science RS&GIS Integration Course (GRS- 30806) Lammert Kooistra Contact:

Centre for Geo-information Fieldwork: the role of validation in geo- information science RS&GIS Integration Course (GRS ) Lammert Kooistra Contact:
Income convergence prospects in Europe: Assessing the role of human capital dynamics Jesus Crespo Cuaresma Miroslava Luchava Havettová Martin Lábaj BRATISLAVA.

Income convergence prospects in Europe: Assessing the role of human capital dynamics Jesus Crespo Cuaresma Miroslava Luchava Havettová Martin Lábaj BRATISLAVA.
© Vattenfall AB Vattenfall Perspective on Wind in Forest Jens Madsen Principal R&D Engineer, Ph.D Vattenfall Research & Development AB.

© Vattenfall AB Vattenfall Perspective on Wind in Forest Jens Madsen Principal R&D Engineer, Ph.D Vattenfall Research & Development AB.
Page 1GMES - ENSEMBLES 2008 ENSEMBLES. Page 2GMES - ENSEMBLES 2008 The ENSEMBLES Project  Began 4 years ago, will end in December 2009  Supported by.

Page 1GMES - ENSEMBLES 2008 ENSEMBLES. Page 2GMES - ENSEMBLES 2008 The ENSEMBLES Project  Began 4 years ago, will end in December 2009  Supported by.
CCU Department of Electrical Engineering National Chung Cheng University, Taiwan Impacts of Wind Power on Thermal Generation Unit Commitment and Dispatch.

CCU Department of Electrical Engineering National Chung Cheng University, Taiwan Impacts of Wind Power on Thermal Generation Unit Commitment and Dispatch.
Nynke Hofstra and Mark New Oxford University Centre for the Environment Trends in extremes in the ENSEMBLES daily gridded observational datasets for Europe.

Nynke Hofstra and Mark New Oxford University Centre for the Environment Trends in extremes in the ENSEMBLES daily gridded observational datasets for Europe.
1 Flood Hazard Analysis Session 1 Dr. Heiko Apel Risk Analysis Flood Hazard Assessment.

1 Flood Hazard Analysis Session 1 Dr. Heiko Apel Risk Analysis Flood Hazard Assessment.

Similar presentations

Ads by Google