Editing SC 3 How do mosquito born diseases emerge and what are trends

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'''<span style="color: #BBCE00">Scientific domain</span>'''
 
'''<span style="color: #BBCE00">Scientific domain</span>'''
 
* ''Biosphere''
 
* ''Biosphere''
 
  
 
'''<span style="color: #BBCE00">Community</span>'''
 
'''<span style="color: #BBCE00">Community</span>'''
 
* ''Data Service Provision''
 
* ''Data Service Provision''
 
* ''Data Usage''
 
* ''Data Usage''
 
  
 
'''<span style="color: #BBCE00">Behavior</span>'''
 
'''<span style="color: #BBCE00">Behavior</span>'''
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'''<span style="color: #BBCE00">Objective and Impact</span>'''
 
'''<span style="color: #BBCE00">Objective and Impact</span>'''
  
The scientific vision of the project is to enable more efficient management of mosquito borne diseases, and nuisance mosquitoes. We expect that our efforts will lead to implementation of tools that can be used by researchers and authorities to predict the appearance of different mosquito species and outbreaks of associated diseases in real time. More specifically, we aim to develop [[File:Information.jpg|16px]] distribution models that better predict presence and abundance of mosquitoes based on landscape features, climate and weather, in order to run more cost efficient surveillance and (ii) models that more precisely predict potential outbreak areas of mosquito-borne diseases based on mosquito distribution and epidemiological parameters.
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The scientific vision of the project is to enable more efficient management of mosquito borne diseases, and nuisance mosquitoes. We expect that our efforts will lead to implementation of tools that can be used by researchers and authorities to predict the appearance of different mosquito species and outbreaks of associated diseases in real time. More specifically, we aim to develop (информация) distribution models that better predict presence and abundance of mosquitoes based on landscape features, climate and weather, in order to run more cost efficient surveillance and (ii) models that more precisely predict potential outbreak areas of mosquito-borne diseases based on mosquito distribution and epidemiological parameters.
 
 
The technical vision of the project is to develop semi-automated workflows that import hydrological and biological data from the Swedish LifeWatch infrastructure ([https://www.svenskalifewatch.se www.svenskalifewatch.se]) into a collaborative modeling environment provided by the BioVeL portal ([http://portal.biovel.eu {+}] [http://portal.biovel.eu/+ <span style="color: #222222">http://portal.biovel.eu/+</span>]), with the possibility to outsource computational intense calculations to an HPC infrastructure such as the EGI ([https://www.egi.eu/ www.egi.eu]).
 
  
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The technical vision of the project is to develop semi-automated workflows that import hydrological and biological data from the Swedish LifeWatch infrastructure ([https://www.svenskalifewatch.se www.svenskalifewatch.se]) into a collaborative modeling environment provided by the BioVeL portal ([http://portal.biovel.eu {+}] http://portal.biovel.eu/+), with the possibility to outsource computational intense calculations to an HPC infrastructure such as the EGI ([https://www.egi.eu/ www.egi.eu]).
  
 
'''<span style="color: #BBCE00">Challenges</span>'''
 
'''<span style="color: #BBCE00">Challenges</span>'''
  
 
The scientists involved in this case may only see the advantage of the RIs if there is a proper support service in place, which helps them to understand and use the services offered by the RIs. Without the support services, the researchers will be likely to develop and use their own and local solutions.
 
The scientists involved in this case may only see the advantage of the RIs if there is a proper support service in place, which helps them to understand and use the services offered by the RIs. Without the support services, the researchers will be likely to develop and use their own and local solutions.
 
  
 
'''<span style="color: #BBCE00">Detailed scenarios</span>'''
 
'''<span style="color: #BBCE00">Detailed scenarios</span>'''
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This is just a first suggestion for a 'basic scenario' that could be developed with the help of this science case:
 
This is just a first suggestion for a 'basic scenario' that could be developed with the help of this science case:
  
[[File:Worddav0c44865b5111f4f6fa4c554de31e1245.png]]
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Image: https://confluence.egi.eu/download/attachments/6225959/worddav0c44865b5111f4f6fa4c554de31e1245.png
  
 
'''<span style="color: #BBCE00">Technical status and requirements</span>'''
 
'''<span style="color: #BBCE00">Technical status and requirements</span>'''
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Component 3 - EGI services for ecological niche modeling. The EGI currently has a number of popular BioVeL services deployed. These services are stable and frequently used for complex calculations across many species, climate scenarios, parameter setting, etc. For the current science case it is not necessary to add/ improve these services, but important to maintain the current service portfolio for ecological modeling.
 
Component 3 - EGI services for ecological niche modeling. The EGI currently has a number of popular BioVeL services deployed. These services are stable and frequently used for complex calculations across many species, climate scenarios, parameter setting, etc. For the current science case it is not necessary to add/ improve these services, but important to maintain the current service portfolio for ecological modeling.
 
  
 
'''<span style="color: #BBCE00">Implementation plan and timetable</span>'''
 
'''<span style="color: #BBCE00">Implementation plan and timetable</span>'''
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* support staff will be offered through SwedishLifeWatch
 
* support staff will be offered through SwedishLifeWatch
 
* no budget available from ENVRIplus
 
* no budget available from ENVRIplus
 
  
 
'''<span style="color: #BBCE00">Expected output and evaluation of output</span>'''
 
'''<span style="color: #BBCE00">Expected output and evaluation of output</span>'''
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== <span style="color: #BBCE00">External Links</span> ==
 
== <span style="color: #BBCE00">External Links</span> ==
  
# ENVRI+ ActiveCollab SC_3 notebook: [https://envriplus.manageprojects.com/projects/wp9-service-validation-and-deployment-1/notebooks/648 {+}][https://envriplus.manageprojects.com/projects/wp9-service-validation-and-deployment-1/notebooks/648+ <span style="color: #222222">https://envriplus.manageprojects.com/projects/wp9-service-validation-and-deployment-1/notebooks/648+</span>]
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# ENVRI+ ActiveCollab SC_3 notebook: [https://envriplus.manageprojects.com/projects/wp9-service-validation-and-deployment-1/notebooks/648 {+}]https://envriplus.manageprojects.com/projects/wp9-service-validation-and-deployment-1/notebooks/648+
  
  
 
[[Category:Use Cases]]
 
[[Category:Use Cases]]

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