Your search keyword '"Carval, D."' showing total 30 results

1. Spatial organisation of habitats in agricultural plots affects per-capita predator effect on conservation biological control: An individual based modelling study

Author

Collard, B., Tixier, P., Carval, D., Lavigne, C., and Delattre, T.

Published

2018

2. Transboundary cooperation and Mechanisms for Maritime Spatial Planning implementation. SIMNORAT Project

Author

Gómez-Ballesteros, M. (María), Cervera-Núñez, C. (Cristina), Campillos-Llanos, M. (Mónica), Quintela, A., Sousa, L., Márcia Marques, M., Lopes Alves, F., Virto C. M., Neil Alloncle, N, Sala, P., Capote, A. L., Simao, A. P., Costa, A., Carval, D., Bailly, D., Nys, C., and Henry, S.

Subjects

Maritime Spatial Planning, Sede Central IEO, Medio Marino

Abstract

El proyecto SIMNORAT, Supporting Implementation of Maritime Spatial Planning in the Northern European Atlantic region (SIMNORAT), fue un proyecto cofundado por la UE de ordenación del espacio marítimo desarrollado en la región atlántica. Los objetivos del proyecto eran apoyar a los Estados miembros (EM) para aplicar la Directiva 2014/89/UE del Parlamento Europeo y del Consejo, de 23 de julio de 2014, por la que se establece un marco para la ordenación del espacio marítimo (OEM); y poner en marcha y llevar a cabo iniciativas concretas y transfronterizas de OEM entre los EM participantes en el proyecto (España, Francia y Portugal). Para desarrollar y probar aspectos de la ordenación del espacio marítimo con el fin de elaborar directrices y recomendaciones útiles en un contexto transfronterizo, las autoridades competentes de los países también participaron en el proyecto. Los resultados de SIMNORAT, como el desarrollo de una metodología conceptual para la ordenación del espacio marítimo transfronterizo, el análisis de las herramientas y los datos aplicados en el proceso de ordenación del espacio marítimo, la evaluación de las demandas y tendencias espaciales de los sectores marítimos, y la participación de las partes interesadas, ayudaron a identificar las mejores prácticas en los aspectos científicos, técnicos y sociales de la ordenación del espacio marítimo para una cooperación eficaz, especialmente en las áreas de estudio de casos transfronterizos, para mejorar la aplicación de la Directiva sobre ordenación del espacio marítimo en cada país con esfuerzos de colaboración y una visión común. Esto, a su vez, puede apoyar la creación del marco adecuado para desarrollar una economía azul sostenible en la región, gestionando el sistema socioecológico asociado en un entorno cambiante.

Published

2022

3. SIMNORAT - Data Management Guidance Document (D12)

Author

Carval, D., Jarno, R., Quintela, A., Costa, A.C., Simão, A.P., Carval, D., Alves, F., Marques, J.M., Sousa, L., Marques, M., and Jarno, R.

Subjects

Northern European Atlantic, Maritime Spatial Planning, MSP, Inspire, SIMNORAT, Data Management

Abstract

Component 1: Supporting Implementation of MSP Sub-component 1.3.3: Data Information requirements for MSP The implementation of Maritime Spatial Planning (MSP), defined in the MSP Directive 2014/89/EU requires high quality maritime spatial data and information. Data sharing is favored by Maritime Spatial Data Infrastructures (MSDI). This type of infrastructure improves access to data and provides information on the MSP policies implemented in the neighbouring countries. MSDIs contribute to enable access to data and information. It is a basis for discussion and exchange and promotes cross-border cooperation. This report aims to transfer the knowledge built in the SIMNORAT project context, related to MSP transboundary data sharing. It also analyses the opportunities and limits of data interoperability improvement activities undertaken, at each steps of the data management process: - Information flow: collection, publication and dissemination - Understand: production of metadata - Represent: displaying the datasets - Enhance: explain and enrich the information, This report was produced as part of SIMNORAT Project (Grant Agreement N0. EASME/EMFF/2015/1.2.1.3/03/SI2.742089). Competition for maritime space – for renewable energy equipment, aquaculture and other uses – has highlighted the need to manage our waters more coherently. Maritime spatial planning (MSP) works across borders and sectors to ensure human activities at sea take place in an efficient, safe and sustainable way. That is why the European Parliament and the Council have adopted a legislation to create a common framework for maritime spatial planning in Europe. The Directive 2014/89/EU of the European Parliament and of the Council of 23 July 2014 (said Maritime Spatial Planning Directive) establishes a framework in order to reduce conflicts between sectors and create synergies between different activities, to encourage investment – by creating predictability, transparency and clearer rules, to increase cross-border cooperation – between EU countries to develop energy grids, shipping lanes, pipelines, submarine cables and other activities, but also to develop coherent networks of protected areas, and to protect the environment – through early identification of impact and opportunities for multiple use of space. The SIMNORAT project (Supporting Implementation of Maritime Spatial Planning in the Northern European Atlantic) is an EU/DG Mare co-funded cross-border project. It was launched on 1st of January 2017 and involves Portugal, Spain and France, while these countries had just designated their Competent Authorities and transposed the Maritime Spatial Planning (MSP) Directive. SIMNORAT aims to support the implementation of the MSP Directive in the waters of Portugal, Spain and France, as well as to establish cross-border cooperation mechanisms between these Member States, to contribute to the coherence of their marine spatial plans to be established in 2021. The action ran until 31st of January 2019 and was based on a partnership of public bodies of the countries and one international organisation. It was composed of UAVR, CEDEX, IEO, AFB, CEREMA, Shom, and CPMR. Shom acted as coordinator. The objectives of the SIMNORAT project were addressed through a variety of activities and desktop or case studies. They are dedicated to identifying the methodology steps, and explore the challenges and opportunities of the MSP implementation in the Northern European Atlantic, including thus related to transboundary issues (Ecosystem based approach, marine policies, OSPAR Convention, Land Sea Interactions, geographical scale of the plans, data interoperability, tools to support MSP). The project led to a multiplicity of outputs including overviews of MSP relevant information related to the countries and on more focus areas, to a number of interviews and meetings where stakeholder views were collected to feed the reasoning, and to guidelines and good practices to be shared at a national and transnational level with marine stakeholders, scientific as well as planners, administrations and authorities. In addition, SIMNORAT permitted a lot of progression internally in the countries and regarding transboundary cooperation. It led to establish and develop new dialogues and to connect the technical or scientific actors, the stakeholders, the administrations of the countries of a same sea basin, and the administrations within the countries, including the representative of Regions. It allowed to better understand Maritime Spatial Planning mechanisms, to share knowledge and as such reached to build capacities, which is of importance as there is such a need in the Atlantic area compared to more Northern countries. The project also permitted to address topics which have never been addressed before. The involvement of France and Spain in SIMNORAT and in the EU-DG Mare sister projects SIMWESTMED and SIMCelt was useful for them to develop a global vision with their neighbours in the Western Mediterranean. At the end of this exercise, it is stated the need of pursuing the work and dialogue in particular through common tools, but at this stage, the SIMNORAT project has constituted a common knowledge and background. Disclaimer: The contents and conclusions of this report, including the maps and figures were developed by the participating partners with the best available knowledge at the time. They do not necessarily reflect the national governments' positions and are not official documents, nor data. The European Commission or Executive Agency for Small and Medium sized Enterprises is not responsible for any use that may be made of the information it contains.

Published

2019

4. SIMNORAT - Analysis of Data needs and existing gaps (D11)

Author

Jarno, R., Carval, D., Quintela, A., Costa, A.C., Simão, A.P., Carval, D., Alves, F., Marques, J.M., Sousa, L., Marques, M., and Jarno, R.

Subjects

Northern European Atlantic, Maritime Spatial Planning, MSP, Inspire, data gaps, data needs, SIMNORAT, Data Management

Abstract

Component 1: Supporting Implementation of MSP Sub-component 1.3.3: Data Information requirements for MSP The Analysis of Data Needs and Existing Gaps – Specifically Relating to Transboundary Working report is an intermediary document related to the SIMNORAT action on data exchanges. It provides an initial overview on the data arrangements in Portugal, Spain and France. This initial information analysis is aimed to guide the implementation of activities to enhance data exchanges between countries in the SIMNORAT context. The report analyses the current state of data needs and gaps for MSP in the countries involved in the project, in order to highlight the challenges and opportunities associated with data and information in the region. It identifies where (portals, infrastructures...) and how (accessibility, interoperability...) relevant data for MSP is available and to what extent it can be improved (assets and barriers) ; it is based on an inventory of existing data, data portals, projects and tools established according to the knowledge of the partnership., This report was produced as part of SIMNORAT Project (Grant Agreement N0. EASME/EMFF/2015/1.2.1.3/03/SI2.742089). Competition for maritime space – for renewable energy equipment, aquaculture and other uses – has highlighted the need to manage our waters more coherently. Maritime spatial planning (MSP) works across borders and sectors to ensure human activities at sea take place in an efficient, safe and sustainable way. That is why the European Parliament and the Council have adopted a legislation to create a common framework for maritime spatial planning in Europe. The Directive 2014/89/EU of the European Parliament and of the Council of 23 July 2014 (said Maritime Spatial Planning Directive) establishes a framework in order to reduce conflicts between sectors and create synergies between different activities, to encourage investment – by creating predictability, transparency and clearer rules, to increase cross-border cooperation – between EU countries to develop energy grids, shipping lanes, pipelines, submarine cables and other activities, but also to develop coherent networks of protected areas, and to protect the environment – through early identification of impact and opportunities for multiple use of space. The SIMNORAT project (Supporting Implementation of Maritime Spatial Planning in the Northern European Atlantic) is an EU/DG Mare co-funded cross-border project. It was launched on 1st of January 2017 and involves Portugal, Spain and France, while these countries had just designated their Competent Authorities and transposed the Maritime Spatial Planning (MSP) Directive. SIMNORAT aims to support the implementation of the MSP Directive in the waters of Portugal, Spain and France, as well as to establish cross-border cooperation mechanisms between these Member States, to contribute to the coherence of their marine spatial plans to be established in 2021. The action ran until 31st of January 2019 and was based on a partnership of public bodies of the countries and one international organisation. It was composed of UAVR, CEDEX, IEO, AFB, CEREMA, Shom, and CPMR. Shom acted as coordinator. The objectives of the SIMNORAT project were addressed through a variety of activities and desktop or case studies. They are dedicated to identifying the methodology steps, and explore the challenges and opportunities of the MSP implementation in the Northern European Atlantic, including thus related to transboundary issues (Ecosystem based approach, marine policies, OSPAR Convention, Land Sea Interactions, geographical scale of the plans, data interoperability, tools to support MSP). The project led to a multiplicity of outputs including overviews of MSP relevant information related to the countries and on more focus areas, to a number of interviews and meetings where stakeholder views were collected to feed the reasoning, and to guidelines and good practices to be shared at a national and transnational level with marine stakeholders, scientific as well as planners, administrations and authorities. In addition, SIMNORAT permitted a lot of progression internally in the countries and regarding transboundary cooperation. It led to establish and develop new dialogues and to connect the technical or scientific actors, the stakeholders, the administrations of the countries of a same sea basin, and the administrations within the countries, including the representative of Regions. It allowed to better understand Maritime Spatial Planning mechanisms, to share knowledge and as such reached to build capacities, which is of importance as there is such a need in the Atlantic area compared to more Northern countries. The project also permitted to address topics which have never been addressed before. The involvement of France and Spain in SIMNORAT and in the EU-DG Mare sister projects SIMWESTMED and SIMCelt was useful for them to develop a global vision with their neighbours in the Western Mediterranean. At the end of this exercise, it is stated the need of pursuing the work and dialogue in particular through common tools, but at this stage, the SIMNORAT project has constituted a common knowledge and background. Disclaimer: The contents and conclusions of this report, including the maps and figures were developed by the participating partners with the best available knowledge at the time. They do not necessarily reflect the national governments' positions and are not official documents, nor data. The European Commission or Executive Agency for Small and Medium sized Enterprises is not responsible for any use that may be made of the information it contains.

Published

2019

5. SIMWESTMED - Interactions between uses, between uses and environment, including cumulative impacts. Review of evaluation methods carried out in France, Spain and Italy - Western Mediterranean Sea (R18)

Author

Gimard, A., Quemmerais, F., Alloncle, N., Bliard, F., Farella, G., Sarretta, A., Barbanti, A., Menegon, S., Bassan, N., Gissi, E., Manea, E., Musco, F., Murciano, C., Lloret, A., Cervera-Núñez, C., Campillos-Llanos, M., Gómez-Ballesteros, M., Carval, D., Loyer, S., Meyer, P., Reux, S., Giret, O., Moirano, C., Alloncle, N., Barbanti, A., Bassan, N., Bliard, F., Campillos-Llanos, M., Carval, D., Cervera-Núñez, C., Farella, G., Gimard, A., Giret, O., Gissi, E., Gómez-Ballesteros, M., Quemmerais, F., Lloret, A., Loyer, S., Manea, E., Menegon, S., Meyer, P., Moirano, C., Murciano, C., Musco, F., Reux, S., and Sarretta, A.

Subjects

Western Mediterranean, SIMWESTMED, evaluation, Maritime Spatial Planning, MSP, Cummulative effects

Abstract

Component:1.3.4. Tools and methods supporting MSP process Sub-component: 1.3.4.1 Interactions between uses and between uses and environment, including cumulative impacts. - Interactions between uses, between uses and environment, including cumulative impacts. Review of evaluation methods carried out in France, Spain and Italy - Western Mediterranean Sea MSP as a process, must be based on a strong and shared knowledge of planned areas. Distribution of each activities and there needs have to be evaluated as well as location of species and habitats, associated with a good comprehension of ecosystems functionalities. Moreover, the understanding of how human and ecological components of the system interact is crucial. This concerns both interaction between various maritime uses (conflict or synergies) and between uses and environment (pressures and impacts). Here, we focus on approaches seeking to evaluate and map effects of human activities in marine ecosystems. Various tools and approaches have been developed throughout the world to do so. Their use as source of information to feed MSP is a ongoing question. This report aims to detail and compare the mains characteristics of the tools developed in SIMWESTMED countries. A better comprehension of divergence between approaches is a step toward an increased transboundary coherence for MSP processes., This report/document was produced as part of the SIMWESTMED Project (Grant Agreement N0. EASME/EMFF/2015/1.2.1.3/02/SI2.742101). PROJECT: Supporting Implementation of Maritime Spatial Planning in the Western Mediterranean region (SIMWESTMED) Competition for maritime space – for renewable energy equipment, aquaculture and other uses – has highlighted the need to manage our waters more coherently. Maritime spatial planning (MSP) works across borders and sectors to ensure human activities at sea take place in an efficient, safe and sustainable way. That is why the European Parliament and the Council have adopted a legislation to create a common framework for maritime spatial planning in Europe. The Directive 2014/89/EU of the European Parliament and of the Council of 23 July 2014 (said Maritime Spatial Planning Directive) establishes a framework in order to reduce conflicts between sectors and create synergies between different activities, to encourage investment – by creating predictability, transparency and clearer rules, to increase cross-border cooperation – between EU countries to develop energy grids, shipping lanes, pipelines, submarine cables and other activities, but also to develop coherent networks of protected areas, and to protect the environment – through early identification of impact and opportunities for multiple use of space. The SIMWESTMED project (Supporting Implementation of Maritime Spatial Planning in the Western Mediterranean region) is an EU/DG Mare co-funded cross-border project. It was launched on 1st of January 2017 and involves Spain, France, Italy and Malta, while these countries had just designated their Competent Authorities and transposed the Maritime Spatial Planning (MSP) Directive. SIMWESTMED aims to support the implementation of the MSP Directive in the waters of Spain, France, Italy and Malta, as well as to establish cross-border cooperation mechanisms between these Member States, to contribute to the coherence of their marine spatial plans to be established by 2021. The action ran until 31st of December 2018 and was based on a partnership of public bodies of the countries and two international organisations. It was composed of CEDEX, IEO, AFB, CEREMA, Shom, CORILA and its affiliated entities IUAV and CNR-ISMAR, MIT, IMELS, PA, CPMR, UNEP-MAP and its affiliated entity UNEP-MAP/PAP-RAC. Shom acted as coordinator. The objectives of the SIMWESTMED project were addressed through a variety of activities and desktop or case studies. They are dedicated to identifying the methodology steps, and explore the challenges and opportunities of the MSP implementation in the Western Mediterranean area, including thus related to transboundary issues (Ecosystem based approach, marine policies, Barcelona Convention, Land Sea Interactions, geographical scale of the plans, data interoperability, tools to support MSP). The project led to a multiplicity of outputs including overviews of MSP relevant information related to the countries and on more focus areas, to a number of interviews and meetings where stakeholder views were collected to feed the reasoning, and to guidelines and good practices to be shared at a national and transnational level with marine stakeholders, scientists as well as planners, administrations and authorities. In addition, SIMWESTMED permitted a lot of progression internally in the countries and regarding transboundary cooperation. It led to establish and develop new dialogues and to connect the technical or scientific actors, the stakeholders, the administrations of the countries of a same sea basin, and the administrations within the countries, including the representative of Regions. It allowed to better understand Maritime Spatial Planning mechanisms, to share knowledge and as such reached to build capacities, which is of importance as there is such a need in the Mediterranean area compared to more Northern countries. The project also permitted to address topics which have never been addressed before. The involvement of some countries in SIMWESTMED and in the EU-DG Mare "brother" projects SUPREME, SIMNORAT and SIMCelt was useful for them to develop a global vision with their neighbours through the East and West side of the Mediterranean and in the Atlantic sea basin. At the end of this exercise, it is stated the need of pursuing the work and dialogue in particular through common tools, but at this stage, the SIMWESTMED has constituted a common knowledge and background. Disclaimer: The contents and conclusions of this report, including the maps and figures, do not imply the expression of any opinion or endorsement of the participating partners concerning the legal status of any country, territory, area, city or area or of its authorities, or concerning the delimitation of its frontiers or boundaries. The depiction and use of boundaries, geographic names and related data shown on maps included in this report are not warranted to be error free nor do they imply official endorsement or acceptance by any of the participating partners. This report is a working document and may rely on data from sources external to the SIMWESTMED project Consortium and, in addition to this, it may contain some information gaps. Neither the European Commission or Executive Agency for Small and Medium-sized Enterprises nor UN Environment/MAP Barcelona Convention Secretariat may be held responsible for any use that may be made of the information contained in this report.

Published

2019

6. SIMWESTMED - Cumulative Effects Assessment using DESEASION - In the Var County area, France (R19)

Author

Loyer, S. and Carval, D.

Subjects

Western Mediterranean, SIMWESTMED, CEA, Maritime Spatial Planning, MSP, Case study, Var, DESEASION

Abstract

Component: C 1.3 Support for Member States' implementation of Maritime Spatial Planning Sub‐component: C 1.3.6. Establish Case Studies on Approaches to MSP Implementation Deliverable: Var Case Study The knowledge of the marine environment is a baseline for the implementation of Maritime Spatial Planning. It is of major importance to understand the complex interactions between activities and environment, and within activities, in order to organize activities while taking into account the needs of an economical development, and of a good ecological status. The use of the decision tool named “DESEASION” was tested during the project SIMWESTMED, in the Var Case Study, to implement and spatialize a rules-based system based on pressures and impacts models. DESEASION tool is a hosting platform integrating GIS functions, in which scientific can implement evaluation models. As the tool is in a development phase, the main challenge was to confront it to a real case study. This factsheet provides a brief description of the steps of cumulative impacts evaluation using DESEASION, starting from data taken from www.medtrix.com, and models coming from used came from Holon et al.,2015. In this first attempt and facing to the difficulty of dataset collection, this test is limited to 3 anthropogenic pressures (agriculture, anchoring, urbanization) occurring in the Var region in France and one ecosystem (Posidonia seagrass), in GIS format files., This report/document was produced as part of the SIMWESTMED Project (Grant Agreement N0. EASME/EMFF/2015/1.2.1.3/02/SI2.742101). PROJECT: Supporting Implementation of Maritime Spatial Planning in the Western Mediterranean region (SIMWESTMED) Competition for maritime space – for renewable energy equipment, aquaculture and other uses – has highlighted the need to manage our waters more coherently. Maritime spatial planning (MSP) works across borders and sectors to ensure human activities at sea take place in an efficient, safe and sustainable way. That is why the European Parliament and the Council have adopted a legislation to create a common framework for maritime spatial planning in Europe. The Directive 2014/89/EU of the European Parliament and of the Council of 23 July 2014 (said Maritime Spatial Planning Directive) establishes a framework in order to reduce conflicts between sectors and create synergies between different activities, to encourage investment – by creating predictability, transparency and clearer rules, to increase cross-border cooperation – between EU countries to develop energy grids, shipping lanes, pipelines, submarine cables and other activities, but also to develop coherent networks of protected areas, and to protect the environment – through early identification of impact and opportunities for multiple use of space. SIMWESTMED project (Supporting Implementation of Maritime Spatial Planning in the Western Mediterranean region) is a EU/DG Mare co-funded cross-border project. It was launched on 1st of January 2017 and involves Spain, France, Italy and Malta, while these countries had just designated their Competent Authorities and transposed the Maritime Spatial Planning (MSP) Directive. SIMWESTMED aims to support the implementation of the MSP Directive in the waters of Spain, France, Italy and Malta, as well as to establish cross-border cooperation mechanisms between these Member States, to contribute to the coherence of their marine spatial plans to be established in 2021. The action ran until 31st of December 2018 and was based on a partnership of public bodies of the countries and two international organisations. It was composed of CEDEX, IEO, AFB, CEREMA, Shom, CORILA and its affiliated entities IUAV and CNR-ISMAR, MIT, IMELS, PA, CPMR, UNEP-MAP and its affiliated entity UNEP-MAP/PAP-RAC. Shom acted as coordinator. The objectives of SIMWESTMED project were addressed through a variety of activities and desktop or case studies. They are dedicated to identify the methodology steps, and explore the challenges and opportunities of the MSP implementation in the Western Mediterranean area, including thus related to transboundary issues (Ecosystem based approach, marine policies, Barcelona Convention, Land Sea Interactions, geographical scale of the plans, data interoperability, tools to support MSP). The project led to a multiplicity of outputs including overviews of MSP relevant information related to the countries and on more focus areas, to a number of interviews and meetings where stakeholder views were collected to feed the reasoning, and to guidelines and good practices to be shared at a national and transnational level with marine stakeholders, scientific as well as planners, administrations and authorities. In addition, SIMWESTMED permitted a lot of progression internally in the countries and regarding transboundary cooperation. It led to establish and develop new dialogues and to connect the technical or scientific actors, the stakeholders, the administrations of the countries of a same sea basin, and the administrations within the countries, including the representative of Regions. It allowed to better understand Maritime Spatial Planning mechanisms, to share knowledge and as such reached to build capacities, which is of importance as there is such a need in the Mediterranean area compared to more North countries. The project also permitted to address topics which have never been before. The involvement of some countries in SIMWESTMED and in the EU-DG Mare "brother" projects SUPREME, SIMNORAT and SIMCelt was useful for them to develop a global vision with their neighbours through the East and West side of the Mediterranean and in the Atlantic sea basin. At the end of this exercise, it is stated the need of pursuing the work and dialogue in particular through common tools, but at this stage, the SIMWESTMED has constituted a common knowledge and background. Disclaimer: The contents and conclusions of this report, including the maps and figures, do not imply the expression of any opinion on the part of the participating partners concerning the legal status of any country, territory, area, city or area or of its authorities, or concerning the delimitation of its frontiers or boundaries. The depiction and use of boundaries, geographic names and related data shown on maps included in this report are not warranted to be error free nor do they imply official endorsement or acceptance by any of the participating partners. This report is a working document and may rely on data from sources external to the SIMWESTMED project Consortium and, in addition to this, it may contain some information gaps. Neither the European Commission or Executive Agency for Small and Medium-sized Enterprises nor UN Environment/MAP Barcelona Convention Secretariat may be held responsible for any use that may be made of the information contained in this report.

Published

2019

7. SIMNORAT - Interactions between uses, between uses and environment, including cumulative impacts. Review of evaluation methods carried out in France, Spain and Portugal (D13)

Author

Gimard, A., Quemmerais, F., Alloncle, N., Carval, D., Loyer, S., Meyer, P., Reux, S., Quintela, A., Fernandes, M.L., Marques, M., Sousa, L., Alves, F.L., Gómez-Ballesteros, M., Murciano, C., Lloret, A., Nunez, C., Bliard, F., Giret, O., and Dalleau, C.

Subjects

Northern European Atlantic, CEA, Maritime Spatial Planning, evaluation methods, MSP, SIMNORAT, cumulative impacts

Abstract

Component: 1.3.4. Tools and methods supporting MSP process Sub-component: 1.3.4.1 Interactions between uses and between uses and environment, including cumulative impacts. MSP as a process must be based on a strong and shared knowledge of planned areas. Distribution of each activity and their needs have to be evaluated as well as location of species and habitats, associated with a good comprehension of ecosystems functionalities. The focus has been done on approaches seeking to evaluate and map effects of human activities in marine ecosystems. Various tools and approaches have been developed throughout the world to do so (like examples in France and Portugal). Their use as source of information to feed MSP is an ongoing question. This action aims to detail and compare the mains caracteristics of the tools developed in SIMNORAT countries. A better comprehension of divergence between approaches is a step toward an increased transboundary coherence for MSP processes., This report was produced as part of SIMNORAT Project (Grant Agreement N0. EASME/EMFF/2015/1.2.1.3/03/SI2.742089). Competition for maritime space – for renewable energy equipment, aquaculture and other uses – has highlighted the need to manage our waters more coherently. Maritime spatial planning (MSP) works across borders and sectors to ensure human activities at sea take place in an efficient, safe and sustainable way. That is why the European Parliament and the Council have adopted a legislation to create a common framework for maritime spatial planning in Europe. The Directive 2014/89/EU of the European Parliament and of the Council of 23 July 2014 (said Maritime Spatial Planning Directive) establishes a framework in order to reduce conflicts between sectors and create synergies between different activities, to encourage investment – by creating predictability, transparency and clearer rules, to increase cross-border cooperation – between EU countries to develop energy grids, shipping lanes, pipelines, submarine cables and other activities, but also to develop coherent networks of protected areas, and to protect the environment – through early identification of impact and opportunities for multiple use of space. The SIMNORAT project (Supporting Implementation of Maritime Spatial Planning in the Northern European Atlantic) is an EU/DG Mare co-funded cross-border project. It was launched on 1st of January 2017 and involves Portugal, Spain and France, while these countries had just designated their Competent Authorities and transposed the Maritime Spatial Planning (MSP) Directive. SIMNORAT aims to support the implementation of the MSP Directive in the waters of Portugal, Spain and France, as well as to establish cross-border cooperation mechanisms between these Member States, to contribute to the coherence of their marine spatial plans to be established in 2021. The action ran until 31st of January 2019 and was based on a partnership of public bodies of the countries and one international organisation. It was composed of UAVR, CEDEX, IEO, AFB, CEREMA, Shom, and CPMR. Shom acted as coordinator. The objectives of the SIMNORAT project were addressed through a variety of activities and desktop or case studies. They are dedicated to identifying the methodology steps, and explore the challenges and opportunities of the MSP implementation in the Northern European Atlantic, including thus related to transboundary issues (Ecosystem based approach, marine policies, OSPAR Convention, Land Sea Interactions, geographical scale of the plans, data interoperability, tools to support MSP). The project led to a multiplicity of outputs including overviews of MSP relevant information related to the countries and on more focus areas, to a number of interviews and meetings where stakeholder views were collected to feed the reasoning, and to guidelines and good practices to be shared at a national and transnational level with marine stakeholders, scientific as well as planners, administrations and authorities. In addition, SIMNORAT permitted a lot of progression internally in the countries and regarding transboundary cooperation. It led to establish and develop new dialogues and to connect the technical or scientific actors, the stakeholders, the administrations of the countries of a same sea basin, and the administrations within the countries, including the representative of Regions. It allowed to better understand Maritime Spatial Planning mechanisms, to share knowledge and as such reached to build capacities, which is of importance as there is such a need in the Atlantic area compared to more Northern countries. The project also permitted to address topics which have never been addressed before. The involvement of France and Spain in SIMNORAT and in the EU-DG Mare sister projects SIMWESTMED and SIMCelt was useful for them to develop a global vision with their neighbours in the Western Mediterranean. At the end of this exercise, it is stated the need of pursuing the work and dialogue in particular through common tools, but at this stage, the SIMNORAT project has constituted a common knowledge and background. Disclaimer: The contents and conclusions of this report, including the maps and figures were developed by the participating partners with the best available knowledge at the time. They do not necessarily reflect the national governments' positions and are not official documents, nor data. The European Commission or Executive Agency for Small and Medium sized Enterprises is not responsible for any use that may be made of the information it contains.

Published

2019

8. SIMNORAT - State-of-play of MSP directive implementation process - Focus on the role of the regions (D2)

Author

Périssé, D., Guennal, L., and Carval, D.

Subjects

Northern European Atlantic, Maritime Spatial Planning, MSP, directive implementation, EU Directive 2014/89/UE, MSP Directive, SIMNORAT, State-of-play

Abstract

Component: C1.2 Development of Cooperation on transboundary MSP Sub-component: C1.2.2 Analysis of the Maritime Spatial Planning Process The Directive establishing a framework for maritime spatial planning was adopted on 23 July 2014, it commits Member States to define a planning strategy and develop maritime spatial plans by 2021. In doing so, EU Member States must adhere to a series of principles, including consultation of the relevant authorities. This paper will describe the state of play of MSP implementation in the European Union and especially within the three countries of the SIMNORAT project being France, Spain, Portugal together with regional implications. To complement this state-of-play, this paper will address the role of the regions in the implementation process of the Directive and will analyse their concerns and proposed solutions. EU Coastal regional authorities can be considered as indispensable actors in the development and management of human activities at sea, in link with their regulatory powers, scope of competencies, and actions. The stakes of the Directive are in that sense of high importance for many regions whose economy is largely based on the maritime sector., This report was produced as part of SIMNORAT Project (Grant Agreement N0. EASME/EMFF/2015/1.2.1.3/03/SI2.742089). The project: Competition for maritime space – for renewable energy equipment, aquaculture and other uses – has highlighted the need to manage our waters more coherently. Maritime spatial planning (MSP) works across borders and sectors to ensure human activities at sea take place in an efficient, safe and sustainable way. That is why the European Parliament and the Council have adopted a legislation to create a common framework for maritime spatial planning in Europe. The Directive 2014/89/EU of the European Parliament and of the Council of 23 July 2014 (said Maritime Spatial Planning Directive) establishes a framework in order to reduce conflicts between sectors and create synergies between different activities, to encourage investment – by creating predictability, transparency and clearer rules, to increase cross-border cooperation – between EU countries to develop energy grids, shipping lanes, pipelines, submarine cables and other activities, but also to develop coherent networks of protected areas, and to protect the environment – through early identification of impact and opportunities for multiple use of space. The SIMNORAT project (Supporting Implementation of Maritime Spatial Planning in the Northern European Atlantic) is an EU/DG Mare co-funded cross-border project. It was launched on 1st of January 2017 and involves Portugal, Spain and France, while these countries had just designated their Competent Authorities and transposed the Maritime Spatial Planning (MSP) Directive. SIMNORAT aims to support the implementation of the MSP Directive in the waters of Portugal, Spain and France, as well as to establish cross-border cooperation mechanisms between these Member States, to contribute to the coherence of their marine spatial plans to be established in 2021. The action ran until 31st of January 2019 and was based on a partnership of public bodies of the countries and one international organisation. It was composed of UAVR, CEDEX, IEO, AFB, CEREMA, Shom, and CPMR. Shom acted as coordinator. The objectives of the SIMNORAT project were addressed through a variety of activities and desktop or case studies. They are dedicated to identifying the methodology steps, and explore the challenges and opportunities of the MSP implementation in the Northern European Atlantic, including thus related to transboundary issues (Ecosystem based approach, marine policies, OSPAR Convention, Land Sea Interactions, geographical scale of the plans, data interoperability, tools to support MSP). The project led to a multiplicity of outputs including overviews of MSP relevant information related to the countries and on more focus areas, to a number of interviews and meetings where stakeholder views were collected to feed the reasoning, and to guidelines and good practices to be shared at a national and transnational level with marine stakeholders, scientific as well as planners, administrations and authorities. In addition, SIMNORAT permitted a lot of progression internally in the countries and regarding transboundary cooperation. It led to establish and develop new dialogues and to connect the technical or scientific actors, the stakeholders, the administrations of the countries of a same sea basin, and the administrations within the countries, including the representative of Regions. It allowed to better understand Maritime Spatial Planning mechanisms, to share knowledge and as such reached to build capacities, which is of importance as there is such a need in the Atlantic area compared to more Northern countries. The project also permitted to address topics which have never been addressed before. The involvement of France and Spain in SIMNORAT and in the EU-DG Mare sister projects SIMWESTMED and SIMCelt was useful for them to develop a global vision with their neighbours in the Western Mediterranean. At the end of this exercise, it is stated the need of pursuing the work and dialogue in particular through common tools, but at this stage, the SIMNORAT project has constituted a common knowledge and background. Disclaimer: The contents and conclusions of this report, including the maps and figures were developed by the participating partners with the best available knowledge at the time. They do not necessarily reflect the national governments' positions and are not official documents, nor data. The European Commission or Executive Agency for Small and Medium sized Enterprises is not responsible for any use that may be made of the information it contains.

Published

2019

9. SIMWESTMED - State-of-play of the Maritime Spatial Planning Directive Implementation process - Focus on the role of the Regions (R2)

Author

Périssé, D., Guennal, L., Ritters, L.-A., Carval, D., and Lochet, C.

Subjects

Western Mediterranean, SIMWESTMED, Maritime Spatial Planning, MSP, MSP implementation, State-of-play, cross-border

Abstract

Component: C1.2 Development of cooperation on transboundary MSP Sub-component: C.1.2.2 Analysis of the Maritime Spatial Planning Process The Directive establishing a framework for maritime spatial planning was adopted on 23 July 2014, it commits Member States to define a planning strategy and develop maritime spatial management plans by 2021. In doing so, EU Member States must adhere to a series of principles, including consultation of the relevant authorities. This paper will describe the state of play of MSP implementation in the European Union and especially within the four countries of the SIMWESTMED project being France, Italy, Malta and Spain, together with regional implications. In a second part, this paper will indeed address the role of the regions in the implementation process of the Directive and will analyse their concerns and proposed solutions. EU Coastal regional authorities can be considered as indispensable actors in the development and management of human activities at sea, in link with their regulatory powers, scope of competencies, and actions. The stakes of the Directive are in that sense of high importance for many regions whose economy is largely based on the maritime sector., This report/document was produced as part of the SIMWESTMED Project (Grant Agreement N0. EASME/EMFF/2015/1.2.1.3/02/SI2.742101). PROJECT: Supporting Implementation of Maritime Spatial Planning in the Western Mediterranean region (SIMWESTMED) Competition for maritime space – for renewable energy equipment, aquaculture and other uses – has highlighted the need to manage our waters more coherently. Maritime spatial planning (MSP) works across borders and sectors to ensure human activities at sea take place in an efficient, safe and sustainable way. That is why the European Parliament and the Council have adopted a legislation to create a common framework for maritime spatial planning in Europe. The Directive 2014/89/EU of the European Parliament and of the Council of 23 July 2014 (said Maritime Spatial Planning Directive) establishes a framework in order to reduce conflicts between sectors and create synergies between different activities, to encourage investment – by creating predictability, transparency and clearer rules, to increase cross-border cooperation – between EU countries to develop energy grids, shipping lanes, pipelines, submarine cables and other activities, but also to develop coherent networks of protected areas, and to protect the environment – through early identification of impact and opportunities for multiple use of space. The SIMWESTMED project (Supporting Implementation of Maritime Spatial Planning in the Western Mediterranean region) is an EU/DG Mare co-funded cross-border project. It was launched on 1st of January 2017 and involves Spain, France, Italy and Malta, while these countries had just designated their Competent Authorities and transposed the Maritime Spatial Planning (MSP) Directive. SIMWESTMED aims to support the implementation of the MSP Directive in the waters of Spain, France, Italy and Malta, as well as to establish cross-border cooperation mechanisms between these Member States, to contribute to the coherence of their marine spatial plans to be established by 2021. The action ran until 31st of December 2018 and was based on a partnership of public bodies of the countries and two international organisations. It was composed of CEDEX, IEO, AFB, CEREMA, Shom, CORILA and its affiliated entities IUAV and CNR-ISMAR, MIT, IMELS, PA, CPMR, UNEP-MAP and its affiliated entity UNEP-MAP/PAP-RAC. Shom acted as coordinator. The objectives of the SIMWESTMED project were addressed through a variety of activities and desktop or case studies. They are dedicated to identifying the methodology steps, and explore the challenges and opportunities of the MSP implementation in the Western Mediterranean area, including thus related to transboundary issues (Ecosystem based approach, marine policies, Barcelona Convention, Land Sea Interactions, geographical scale of the plans, data interoperability, tools to support MSP). The project led to a multiplicity of outputs including overviews of MSP relevant information related to the countries and on more focus areas, to a number of interviews and meetings where stakeholder views were collected to feed the reasoning, and to guidelines and good practices to be shared at a national and transnational level with marine stakeholders, scientists as well as planners, administrations and authorities. In addition, SIMWESTMED permitted a lot of progression internally in the countries and regarding transboundary cooperation. It led to establish and develop new dialogues and to connect the technical or scientific actors, the stakeholders, the administrations of the countries of a same sea basin, and the administrations within the countries, including the representative of Regions. It allowed to better understand Maritime Spatial Planning mechanisms, to share knowledge and as such reached to build capacities, which is of importance as there is such a need in the Mediterranean area compared to more Northern countries. The project also permitted to address topics which have never been addressed before. The involvement of some countries in SIMWESTMED and in the EU-DG Mare "brother" projects SUPREME, SIMNORAT and SIMCelt was useful for them to develop a global vision with their neighbours through the East and West side of the Mediterranean and in the Atlantic sea basin. At the end of this exercise, it is stated the need of pursuing the work and dialogue in particular through common tools, but at this stage, the SIMWESTMED has constituted a common knowledge and background. Disclaimer: The contents and conclusions of this report, including the maps and figures, do not imply the expression of any opinion or endorsement of the participating partners concerning the legal status of any country, territory, area, city or area or of its authorities, or concerning the delimitation of its frontiers or boundaries. The depiction and use of boundaries, geographic names and related data shown on maps included in this report are not warranted to be error free nor do they imply official endorsement or acceptance by any of the participating partners. This report is a working document and may rely on data from sources external to the SIMWESTMED project Consortium and, in addition to this, it may contain some information gaps. Neither the European Commission or Executive Agency for Small and Medium-sized Enterprises nor UN Environment/MAP Barcelona Convention Secretariat may be held responsible for any use that may be made of the information contained in this report.

Published

2019

10. SIMWESTMED - Analysis of data needs and existing gaps (R16)

Author

Abjean, M. and Carval, D.

Subjects

Western Mediterranean, SIMWESTMED, Maritime Spatial Planning, MSP, data gaps, data needs, INSPIRE

Abstract

Component 1: Supporting Implementation of MSP Sub-component 1.3.3: Data and Information requirements for MSP The Analysis of Data Needs and Existing Gaps – Specifically Relating to Transboundary Working report is an intermediary document related to the SIMWESTMED action on data exchanges. It provides an initial overview on the data arrangements in the Western Mediterranean. This initial information analysis is aimed to guide the implementation of activities to enhance data exchanges between countries in the SIMWESTMED context. The report analyses the current state of data needs and gaps for MSP in the Western Mediterranean in order to highlight the challenges and opportunities associated with data and information in the region. It identifies where (portals, infrastructures...) and how (accessibility, interoperability...) relevant data for MSP is available and to what extent it can be improved (assets and barriers) ; it is based on an inventory of existing data, data portals, projects and tools established according to the knowledge of the partnership., This report/document was produced as part of the SIMWESTMED Project (Grant Agreement N0. EASME/EMFF/2015/1.2.1.3/02/SI2.742101). PROJECT: Supporting Implementation of Maritime Spatial Planning in the Western Mediterranean region (SIMWESTMED) Competition for maritime space – for renewable energy equipment, aquaculture and other uses – has highlighted the need to manage our waters more coherently. Maritime spatial planning (MSP) works across borders and sectors to ensure human activities at sea take place in an efficient, safe and sustainable way. That is why the European Parliament and the Council have adopted a legislation to create a common framework for maritime spatial planning in Europe. The Directive 2014/89/EU of the European Parliament and of the Council of 23 July 2014 (said Maritime Spatial Planning Directive) establishes a framework in order to reduce conflicts between sectors and create synergies between different activities, to encourage investment – by creating predictability, transparency and clearer rules, to increase cross-border cooperation – between EU countries to develop energy grids, shipping lanes, pipelines, submarine cables and other activities, but also to develop coherent networks of protected areas, and to protect the environment – through early identification of impact and opportunities for multiple use of space. The SIMWESTMED project (Supporting Implementation of Maritime Spatial Planning in the Western Mediterranean region) is an EU/DG Mare co-funded cross-border project. It was launched on 1st of January 2017 and involves Spain, France, Italy and Malta, while these countries had just designated their Competent Authorities and transposed the Maritime Spatial Planning (MSP) Directive. SIMWESTMED aims to support the implementation of the MSP Directive in the waters of Spain, France, Italy and Malta, as well as to establish cross-border cooperation mechanisms between these Member States, to contribute to the coherence of their marine spatial plans to be established by 2021. The action ran until 31st of December 2018 and was based on a partnership of public bodies of the countries and two international organisations. It was composed of CEDEX, IEO, AFB, CEREMA, Shom, CORILA and its affiliated entities IUAV and CNR-ISMAR, MIT, IMELS, PA, CPMR, UNEP-MAP and its affiliated entity UNEP-MAP/PAP-RAC. Shom acted as coordinator. The objectives of the SIMWESTMED project were addressed through a variety of activities and desktop or case studies. They are dedicated to identifying the methodology steps, and explore the challenges and opportunities of the MSP implementation in the Western Mediterranean area, including thus related to transboundary issues (Ecosystem based approach, marine policies, Barcelona Convention, Land Sea Interactions, geographical scale of the plans, data interoperability, tools to support MSP). The project led to a multiplicity of outputs including overviews of MSP relevant information related to the countries and on more focus areas, to a number of interviews and meetings where stakeholder views were collected to feed the reasoning, and to guidelines and good practices to be shared at a national and transnational level with marine stakeholders, scientists as well as planners, administrations and authorities. In addition, SIMWESTMED permitted a lot of progression internally in the countries and regarding transboundary cooperation. It led to establish and develop new dialogues and to connect the technical or scientific actors, the stakeholders, the administrations of the countries of a same sea basin, and the administrations within the countries, including the representative of Regions. It allowed to better understand Maritime Spatial Planning mechanisms, to share knowledge and as such reached to build capacities, which is of importance as there is such a need in the Mediterranean area compared to more Northern countries. The project also permitted to address topics which have never been addressed before. The involvement of some countries in SIMWESTMED and in the EU-DG Mare "brother" projects SUPREME, SIMNORAT and SIMCelt was useful for them to develop a global vision with their neighbours through the East and West side of the Mediterranean and in the Atlantic sea basin. At the end of this exercise, it is stated the need of pursuing the work and dialogue in particular through common tools, but at this stage, the SIMWESTMED has constituted a common knowledge and background. Disclaimer: The contents and conclusions of this report, including the maps and figures, do not imply the expression of any opinion or endorsement of the participating partners concerning the legal status of any country, territory, area, city or area or of its authorities, or concerning the delimitation of its frontiers or boundaries. The depiction and use of boundaries, geographic names and related data shown on maps included in this report are not warranted to be error free nor do they imply official endorsement or acceptance by any of the participating partners. This report is a working document and may rely on data from sources external to the SIMWESTMED project Consortium and, in addition to this, it may contain some information gaps. Neither the European Commission or Executive Agency for Small and Medium-sized Enterprises nor UN Environment/MAP Barcelona Convention Secretariat may be held responsible for any use that may be made of the information contained in this report.

Published

2019

11. SIMWESTMED - Data management guidance document (R17)

Author

Abjean, M. and Carval, D.

Subjects

Western Mediterranean, SIMWESTMED, Maritime Spatial Planning, MSP, data portal, INSPIRE, SDI

Abstract

Component 1: Supporting Implementation of MSP Sub-component 1.3.3: Data Management Guidance Document. The implementation of Maritime Spatial Planning (MSP), defined in the MSP Directive 2014/89/EU requires high quality maritime spatial data and information. Data sharing is favored by Maritime Spatial Data Infrastructures (MSDI). This type of infrastructure improves access to data and provides information on the MSP policies implemented in the neighbouring countries. MSDIs contribute to enable access to data and information. It is a basis for discussion and exchange and promotes cross-border cooperation. This report aims to transfer the knowledge built in the SIMWESTMED project context, related to MSP transboundary data sharing. It also analyses the opportunities and limits of data interoperability improvement activities undertaken, at each steps of the data management process: - Information flow: collection, publication and dissemination - Understand: production of metadata - Represent: displaying the datasets - Enhance: explain and enrich the information, This report/document was produced as part of the SIMWESTMED Project (Grant Agreement N0. EASME/EMFF/2015/1.2.1.3/02/SI2.742101). PROJECT: Supporting Implementation of Maritime Spatial Planning in the Western Mediterranean region (SIMWESTMED) Competition for maritime space – for renewable energy equipment, aquaculture and other uses – has highlighted the need to manage our waters more coherently. Maritime spatial planning (MSP) works across borders and sectors to ensure human activities at sea take place in an efficient, safe and sustainable way. That is why the European Parliament and the Council have adopted a legislation to create a common framework for maritime spatial planning in Europe. The Directive 2014/89/EU of the European Parliament and of the Council of 23 July 2014 (said Maritime Spatial Planning Directive) establishes a framework in order to reduce conflicts between sectors and create synergies between different activities, to encourage investment – by creating predictability, transparency and clearer rules, to increase cross-border cooperation – between EU countries to develop energy grids, shipping lanes, pipelines, submarine cables and other activities, but also to develop coherent networks of protected areas, and to protect the environment – through early identification of impact and opportunities for multiple use of space. The SIMWESTMED project (Supporting Implementation of Maritime Spatial Planning in the Western Mediterranean region) is an EU/DG Mare co-funded cross-border project. It was launched on 1st of January 2017 and involves Spain, France, Italy and Malta, while these countries had just designated their Competent Authorities and transposed the Maritime Spatial Planning (MSP) Directive. SIMWESTMED aims to support the implementation of the MSP Directive in the waters of Spain, France, Italy and Malta, as well as to establish cross-border cooperation mechanisms between these Member States, to contribute to the coherence of their marine spatial plans to be established by 2021. The action ran until 31st of December 2018 and was based on a partnership of public bodies of the countries and two international organisations. It was composed of CEDEX, IEO, AFB, CEREMA, Shom, CORILA and its affiliated entities IUAV and CNR-ISMAR, MIT, IMELS, PA, CPMR, UNEP-MAP and its affiliated entity UNEP-MAP/PAP-RAC. Shom acted as coordinator. The objectives of the SIMWESTMED project were addressed through a variety of activities and desktop or case studies. They are dedicated to identifying the methodology steps, and explore the challenges and opportunities of the MSP implementation in the Western Mediterranean area, including thus related to transboundary issues (Ecosystem based approach, marine policies, Barcelona Convention, Land Sea Interactions, geographical scale of the plans, data interoperability, tools to support MSP). The project led to a multiplicity of outputs including overviews of MSP relevant information related to the countries and on more focus areas, to a number of interviews and meetings where stakeholder views were collected to feed the reasoning, and to guidelines and good practices to be shared at a national and transnational level with marine stakeholders, scientists as well as planners, administrations and authorities. In addition, SIMWESTMED permitted a lot of progression internally in the countries and regarding transboundary cooperation. It led to establish and develop new dialogues and to connect the technical or scientific actors, the stakeholders, the administrations of the countries of a same sea basin, and the administrations within the countries, including the representative of Regions. It allowed to better understand Maritime Spatial Planning mechanisms, to share knowledge and as such reached to build capacities, which is of importance as there is such a need in the Mediterranean area compared to more Northern countries. The project also permitted to address topics which have never been addressed before. The involvement of some countries in SIMWESTMED and in the EU-DG Mare "brother" projects SUPREME, SIMNORAT and SIMCelt was useful for them to develop a global vision with their neighbours through the East and West side of the Mediterranean and in the Atlantic sea basin. At the end of this exercise, it is stated the need of pursuing the work and dialogue in particular through common tools, but at this stage, the SIMWESTMED has constituted a common knowledge and background. Disclaimer: The contents and conclusions of this report, including the maps and figures, do not imply the expression of any opinion or endorsement of the participating partners concerning the legal status of any country, territory, area, city or area or of its authorities, or concerning the delimitation of its frontiers or boundaries. The depiction and use of boundaries, geographic names and related data shown on maps included in this report are not warranted to be error free nor do they imply official endorsement or acceptance by any of the participating partners. This report is a working document and may rely on data from sources external to the SIMWESTMED project Consortium and, in addition to this, it may contain some information gaps. Neither the European Commission or Executive Agency for Small and Medium-sized Enterprises nor UN Environment/MAP Barcelona Convention Secretariat may be held responsible for any use that may be made of the information contained in this report.

Published

2019

12. Associated cultivated plants in tomato cropping systems structure arthropod communities and increase the Helicoverpa armigera regulation.

Author

Dassou, A.G., Vodouhè, S.D., Bokonon-Ganta, A., Goergen, G., Chailleux, A., Dansi, A., Carval, D., and Tixier, P.

Subjects

CULTIVATED plants, HELICOVERPA armigera, CROPS, CROPPING systems, PLANT diversity, TOMATOES, TOMATO farming

Abstract

Cultivating plant mixtures is expected to provide a higher productivity and a better control of pests and diseases. The structure of the arthropod community is a major driver of the magnitude of natural pest regulations. With the aim of optimizing pest management, a study was carried out to determine the effect of the cropping system type (tomato mono-cropping vs. mixed-cropping) on the diversity and abundance of arthropods from three trophic groups (herbivores, omnivores, predators) and the abundance of Helicoverpa armigera. Therefore, the diversity of cultivated plants and arthropod communities was assessed within tomato fields from 30 farmer's fields randomly selected in South of Benin. Results showed that the arthropod abundance was significantly higher in mixed-cropping systems compared with mono-cropping systems, although the crop type did not alter significantly the arthropod diversity, evenness, and richness. At the level of taxa, the abundances of generalist predators including ants (Pheidole spp., and Paltothyreus tarsatus) and spiders (Araneus spp. and Erigone sp.) were significantly higher in mixed fields than in mono-crop fields. Then, the abundances of omnivore-predator trophic groups have a negative significant effect on the H. armigera abundance. This study allowed better understanding of how plant diversity associated to tomato fields structures arthropod's food webs to finally enhance the ecological management of H. armigera. [ABSTRACT FROM AUTHOR]

Published

2019

13. Spatiotemporal population dynamics of the banana rind thrips, Elixothrips brevisetis ( Bagnall) ( Thysanoptera: Thripidae).

Author

Carval, D., Cotté, V., Notaro, M., Ryckewaert, P., and Tixier, P.

Subjects

*BANANA diseases & pests, *INSECT pest control, *INSECT ecology, *INSECT populations, *THRIPS, *ENTOMOLOGY

Abstract

The understanding of how environmental factors and agricultural practices affect population dynamics of insect pests is necessary for pest management. Here, we provide insight into the ecology of the banana rind thrips Elixothrips brevisetis (Bagnall) (Thysanoptera: Thripidae) by collecting and analysing a spatiotemporal database of population estimates in Martinique (West French Indies). We assessed the influence of climatic variables (which were rainfall and temperature) and biotic variables (which were banana and three weed species) on the adult thrips abundance for different components of the banana plant (sucker, mother plant and bunch) and evaluated the effect of thrips abundance and standard bunch covers on damages. The abundance of thrips on the sucker, the mother plant, and the bunch was significantly related to the abundance on neighbouring banana plants, and spatial autocorrelation indicated that E. brevisetis dispersed for only short distances. The number of thrips on the mother plant and on the bunch was positively related to the number of thrips on the sucker, suggesting that the thrips may disperse from the sucker to the mother plant and then to the bunch. The abundance of thrips on the sucker increased with sucker height and was positively correlated with the mean daily rainfall during the 17 days before sampling; the length of that period might correspond with the time required for an individual to complete its life cycle. Covered bunches had 98% fewer thrips than non-covered bunches, and the damage caused by thrips was linearly related to the number of thrips present between the 2nd and 4th week after flowering. Finally, we found that the presence of Alocasia cucullata, Dieffenbachia seguine and Peperomia pellucida is significantly related with a decrease in thrips abundance on banana plants, suggesting the use of these weeds as potential trap plants. [ABSTRACT FROM AUTHOR]

Published

2015

14. Effect of environment and fallow period on Cosmopolites sordidus population dynamics at the landscape scale.

Author

Duyck, P.-F., Dortel, E., Vinatier, F., Gaujoux, E., Carval, D., and Tixier, P.

Subjects

INSECT pests, BANANA root borer, PEST control, COSMOPOLITES

Abstract

Understanding how the population dynamics of insect pests are affected by environmental factors and agricultural practices is important for pest management. To investigate how the abundance of the banana weevil, Cosmopolites sordidus (Coleoptera: Curculionidae), is related to environmental factors and the length of the fallow period in Martinique, we developed an extensive data set (18,130 observations of weevil abundance obtained with pheromone traps plus associated environmental data) and analysed it with generalized mixed-effects models.At the island scale, C. sordidus abundance was positively related to mean temperature and negatively related to mean rainfall but was not related to soil type. The number of insects trapped was highest during the driest months of the year. Abundance of C. sordidus decreased as the duration of the preceding fallow period increased.The latter finding is inconsistent with the view that fallow-generated decomposing banana tissue is an important resource for larvae that leads to an increase in the pest population. The results are consistent with the view that fallows, in association with pheromone traps, are effective for the control of the banana weevil. [ABSTRACT FROM AUTHOR]

Published

2012

15. Transboundary cooperation and mechanisms for Maritime Spatial Planning implementation. SIMNORAT project.

Author

Gómez-Ballesteros, M., Cervera - Núñez, C., Campillos-Llanos, M., Quintela, A., Sousa, L., Marques, M., Alves, F.L., Murciano, C., Alloncle, N., Sala, P., Lloret, A., Simão, A.P., Costa, A.C., Carval, D., Bailly, D., Nys, C., Sybill, H., and Dilasser, J.

Subjects

OCEAN zoning, MARINE resources, ENVIRONMENTAL degradation, COOPERATION

Abstract

Maritime Spatial Planning (MSP) is gaining importance as a new process for the governance of seas and oceans, as maritime nations exercise greater management over their territorial waters and, in many cases, over exclusive economic zones that span a larger area. The purpose of this planning is to reverse the environmental degradation of the seas and facilitate the sustainable use of marine resources, both for mature uses such as fishing and navigation, and for emergent uses, including renewable energies and mariculture. In Europe, the Directive 2014/89/EU of the European Parliament and of the Council of 23 July 2014 establishing a framework for maritime spatial planning oblige coastal Member States to develop maritime spatial plans at the latest by 31st March 2021. To help in that process, countries have at their disposal a set of existing instruments, including research projects, supporting guidelines, recommendations and sets of tools and data, as the SIMNORAT project, co-funded by the EC – DG Maritime Affairs and Fisheries (DG MARE). This paper presents best practices developed in this project on technical, scientific, and social aspects of MSP to overcome barriers of MSPD implementation testing effective cooperation on transboundary areas and providing a set of cross-cutting MSP related recommendations to foster collaborative efforts and to improve the overall transboundary dimension of the MSP Directive. [ABSTRACT FROM AUTHOR]

Published

2021

16. SIMWESTMED - Most appropriate geographical scale for MSP at national scale (R6)

Author

Dilasser, J., Sala, P., CERVERA-NUNEZ, C., Bassan, N., Campillos-Llanos, M.., Carval, D., Cervera-Nuñez, C., Dilasser, J., Ganne, M., Giret, O., Gomez-Ballesteros, M., Sala, P., and Stavros, A.

Subjects

Western Mediterranean, SIMWESTMED, ecosystem-based management, MSP, cross-border, Maritime Spatial Planning, geographical scale, EBA

Abstract

Component: 1.3.1 Conceptual methodology Sub-component: 1.3.1.5 Most appropriate geographical scale for MSP at national scale The scale issue is particularly of concern for the MSP directive implementation process and its transboundary issues: What is the most appropriate scale for their MSP plans? Do they have to define different plans based on different geographical scales? If so, what would be their articulation? If not, for instance, is it enough to carry out the plan at national or marine basin scale with some focus areas? Moreover, what would be the plan boundaries once the scale is defined? If this step is not well conducted in a MSP process, it could lead to the failure of the plan, as a consequence of a mismatch between ecological scale and social/management scale (Cumming et al., 2006) and respective boundaries. For instance, the management boundaries often match administrative boundaries (for political purposes), which do not generally correspond to the boundaries of a single ecosystem. Indeed, an administrative region often encompasses multiple ecosystems, of different sizes and sometimes only some parts of an ecosystem. Besides, analysing phenomena whether environmental or socio-economic only within the administrative boundaries could lead to misunderstanding of these phenomena in as much as the latter could be broader. The literature review conducted during the SIMWESTMED project highlighted some general principles to bear in mind to ensure that the most appropriate geographical scale is used to maximise the efficiency of a plan., This report/document was produced as part of the SIMWESTMED Project (Grant Agreement N0. EASME/EMFF/2015/1.2.1.3/02/SI2.742101). PROJECT: Supporting Implementation of Maritime Spatial Planning in the Western Mediterranean region (SIMWESTMED) Competition for maritime space – for renewable energy equipment, aquaculture and other uses – has highlighted the need to manage our waters more coherently. Maritime spatial planning (MSP) works across borders and sectors to ensure human activities at sea take place in an efficient, safe and sustainable way. That is why the European Parliament and the Council have adopted a legislation to create a common framework for maritime spatial planning in Europe. The Directive 2014/89/EU of the European Parliament and of the Council of 23 July 2014 (said Maritime Spatial Planning Directive) establishes a framework in order to reduce conflicts between sectors and create synergies between different activities, to encourage investment – by creating predictability, transparency and clearer rules, to increase cross-border cooperation – between EU countries to develop energy grids, shipping lanes, pipelines, submarine cables and other activities, but also to develop coherent networks of protected areas, and to protect the environment – through early identification of impact and opportunities for multiple use of space. The SIMWESTMED project (Supporting Implementation of Maritime Spatial Planning in the Western Mediterranean region) is an EU/DG Mare co-funded cross-border project. It was launched on 1st of January 2017 and involves Spain, France, Italy and Malta, while these countries had just designated their Competent Authorities and transposed the Maritime Spatial Planning (MSP) Directive. SIMWESTMED aims to support the implementation of the MSP Directive in the waters of Spain, France, Italy and Malta, as well as to establish cross-border cooperation mechanisms between these Member States, to contribute to the coherence of their marine spatial plans to be established by 2021. The action ran until 31st of December 2018 and was based on a partnership of public bodies of the countries and two international organisations. It was composed of CEDEX, IEO, AFB, CEREMA, Shom, CORILA and its affiliated entities IUAV and CNR-ISMAR, MIT, IMELS, PA, CPMR, UNEP-MAP and its affiliated entity UNEP-MAP/PAP-RAC. Shom acted as coordinator. The objectives of the SIMWESTMED project were addressed through a variety of activities and desktop or case studies. They are dedicated to identifying the methodology steps, and explore the challenges and opportunities of the MSP implementation in the Western Mediterranean area, including thus related to transboundary issues (Ecosystem based approach, marine policies, Barcelona Convention, Land Sea Interactions, geographical scale of the plans, data interoperability, tools to support MSP). The project led to a multiplicity of outputs including overviews of MSP relevant information related to the countries and on more focus areas, to a number of interviews and meetings where stakeholder views were collected to feed the reasoning, and to guidelines and good practices to be shared at a national and transnational level with marine stakeholders, scientists as well as planners, administrations and authorities. In addition, SIMWESTMED permitted a lot of progression internally in the countries and regarding transboundary cooperation. It led to establish and develop new dialogues and to connect the technical or scientific actors, the stakeholders, the administrations of the countries of a same sea basin, and the administrations within the countries, including the representative of Regions. It allowed to better understand Maritime Spatial Planning mechanisms, to share knowledge and as such reached to build capacities, which is of importance as there is such a need in the Mediterranean area compared to more Northern countries. The project also permitted to address topics which have never been addressed before. The involvement of some countries in SIMWESTMED and in the EU-DG Mare "brother" projects SUPREME, SIMNORAT and SIMCelt was useful for them to develop a global vision with their neighbours through the East and West side of the Mediterranean and in the Atlantic sea basin. At the end of this exercise, it is stated the need of pursuing the work and dialogue in particular through common tools, but at this stage, the SIMWESTMED has constituted a common knowledge and background. Disclaimer: The contents and conclusions of this report, including the maps and figures, do not imply the expression of any opinion or endorsement of the participating partners concerning the legal status of any country, territory, area, city or area or of its authorities, or concerning the delimitation of its frontiers or boundaries. The depiction and use of boundaries, geographic names and related data shown on maps included in this report are not warranted to be error free nor do they imply official endorsement or acceptance by any of the participating partners. This report is a working document and may rely on data from sources external to the SIMWESTMED project Consortium and, in addition to this, it may contain some information gaps. Neither the European Commission or Executive Agency for Small and Medium-sized Enterprises nor UN Environment/MAP Barcelona Convention Secretariat may be held responsible for any use that may be made of the information contained in this report.

Published

2019

17. SIMWESTMED - Relationship between LSI and ICZM (R5)

Author

Ramieri, E., Bocci, M., Marković, M., Castellani, C., Addis, D., Mourmouris, A., Barbanti, A., Farella, G., Sarretta, A., Campillos-Llanos, M., Cervera Nunez, C., Gómez-Ballesteros, M., Bassan, N., Gissi, E., Innocenti, A., Manea, E., Musco, F., Braida, M., Celli, A., Montanaro, O., Borg, M., Carval, D., Barić, B., and Pavasović, S.

Subjects

Western Mediterranean, SIMWESTMED, ICZM, Maritime Spatial Planning, MSP, cross-border, LSI

Abstract

Component: C 1.3 Support for Member States' implementation of Maritime Spatial Planning Sub‐component: C 1.3.1 Develop and propose a conceptual methodology for transboundary MSP in the Western MED, with operational details on selected aspects C 1.3.1.4 Relationship between LSI and ICZM This document aims to provide a methodological guideline for LSI analysis within MSP, also exploring how such analysis can be embedded in the wider ICZM context. In this perspective, this document intends to support MSP planners with a possible operative framework for the LSI analysis, identifying specific actions to be carried out in close connections with the maritime spatial planning process. Finally, with specific regard to addressing the MSP Directive requirements, the ultimate scope of this document is to provide some guidance on how to (re)organize topics, information and effort, including those eventually already available from formal or informal processes (e.g. ICZM). In addition to this introduction, the document includes other 5 chapters. Based on the analysis of the available literature, chapter 2 provides the description of some key concepts for LSI analysis, including its definition (section 2.1), different possible categorization of LSI typologies (section 2.2), and criteria that might delimitate the area of LSI analysis (section 2.3). Chapter 3 illustrates examples of LSI definitions included in the national legislation and of interactions considered particularly relevant in the countries participating to the SIMWESTMED project. Chapter 4 reflects on the step-by-step methodological guideline to perform LSI analysis within the MSP process, as proposed within SUPREME project. Links between LSI and MSP are in detail explored in chapter 5, which also discusses how outcome of the LSI analysis can be transferred in the ICZM context, referring in particular to the ICZM Protocol, as well as in other planning processes. Finally, chapter 6 provides some reflections on LSI analysis coming from the pilot cases implemented by SIMWESTMED project., This report/document was produced as part of the SIMWESTMED Project (Grant Agreement N0. EASME/EMFF/2015/1.2.1.3/02/SI2.742101). PROJECT: Supporting Implementation of Maritime Spatial Planning in the Western Mediterranean region (SIMWESTMED) Competition for maritime space – for renewable energy equipment, aquaculture and other uses – has highlighted the need to manage our waters more coherently. Maritime spatial planning (MSP) works across borders and sectors to ensure human activities at sea take place in an efficient, safe and sustainable way. That is why the European Parliament and the Council have adopted a legislation to create a common framework for maritime spatial planning in Europe. The Directive 2014/89/EU of the European Parliament and of the Council of 23 July 2014 (said Maritime Spatial Planning Directive) establishes a framework in order to reduce conflicts between sectors and create synergies between different activities, to encourage investment – by creating predictability, transparency and clearer rules, to increase cross-border cooperation – between EU countries to develop energy grids, shipping lanes, pipelines, submarine cables and other activities, but also to develop coherent networks of protected areas, and to protect the environment – through early identification of impact and opportunities for multiple use of space. The SIMWESTMED project (Supporting Implementation of Maritime Spatial Planning in the Western Mediterranean region) is an EU/DG Mare co-funded cross-border project. It was launched on 1st of January 2017 and involves Spain, France, Italy and Malta, while these countries had just designated their Competent Authorities and transposed the Maritime Spatial Planning (MSP) Directive. SIMWESTMED aims to support the implementation of the MSP Directive in the waters of Spain, France, Italy and Malta, as well as to establish cross-border cooperation mechanisms between these Member States, to contribute to the coherence of their marine spatial plans to be established by 2021. The action ran until 31st of December 2018 and was based on a partnership of public bodies of the countries and two international organisations. It was composed of CEDEX, IEO, AFB, CEREMA, Shom, CORILA and its affiliated entities IUAV and CNR-ISMAR, MIT, IMELS, PA, CPMR, UNEP-MAP and its affiliated entity UNEP-MAP/PAP-RAC. Shom acted as coordinator. The objectives of the SIMWESTMED project were addressed through a variety of activities and desktop or case studies. They are dedicated to identifying the methodology steps, and explore the challenges and opportunities of the MSP implementation in the Western Mediterranean area, including thus related to transboundary issues (Ecosystem based approach, marine policies, Barcelona Convention, Land Sea Interactions, geographical scale of the plans, data interoperability, tools to support MSP). The project led to a multiplicity of outputs including overviews of MSP relevant information related to the countries and on more focus areas, to a number of interviews and meetings where stakeholder views were collected to feed the reasoning, and to guidelines and good practices to be shared at a national and transnational level with marine stakeholders, scientists as well as planners, administrations and authorities. In addition, SIMWESTMED permitted a lot of progression internally in the countries and regarding transboundary cooperation. It led to establish and develop new dialogues and to connect the technical or scientific actors, the stakeholders, the administrations of the countries of a same sea basin, and the administrations within the countries, including the representative of Regions. It allowed to better understand Maritime Spatial Planning mechanisms, to share knowledge and as such reached to build capacities, which is of importance as there is such a need in the Mediterranean area compared to more Northern countries. The project also permitted to address topics which have never been addressed before. The involvement of some countries in SIMWESTMED and in the EU-DG Mare "brother" projects SUPREME, SIMNORAT and SIMCelt was useful for them to develop a global vision with their neighbours through the East and West side of the Mediterranean and in the Atlantic sea basin. At the end of this exercise, it is stated the need of pursuing the work and dialogue in particular through common tools, but at this stage, the SIMWESTMED has constituted a common knowledge and background. Disclaimer: The contents and conclusions of this report, including the maps and figures, do not imply the expression of any opinion or endorsement of the participating partners concerning the legal status of any country, territory, area, city or area or of its authorities, or concerning the delimitation of its frontiers or boundaries. The depiction and use of boundaries, geographic names and related data shown on maps included in this report are not warranted to be error free nor do they imply official endorsement or acceptance by any of the participating partners. This report is a working document and may rely on data from sources external to the SIMWESTMED project Consortium and, in addition to this, it may contain some information gaps. Neither the European Commission or Executive Agency for Small and Medium-sized Enterprises nor UN Environment/MAP Barcelona Convention Secretariat may be held responsible for any use that may be made of the information contained in this report.

Published

2019

18. First report of black leaf streak disease in bananas caused by Pseudocercospora fijiensis on Mauritius island.

Author

Vally V, Jouen E, Pecheur B, Carval D, De Lapeyre L, Teycheney PY, Roussel V, Fabre S, Pages C, Adreit H, Carlier J, and Rieux A

Abstract

Pseudocercospora fijiensis, the causal agent of the black leaf streak disease of bananas (plants in the genus Musa) (BLSD), is considered to be the major economic threat to export-banana cultivation (de Bellaire, Fouré, Abadie, & Carlier, 2010). The disease has a worldwide distribution throughout the humid tropical regions and has been previously reported in the Southwestndian Ocean (SWIO) area: in 1993 in Mayotte and Comoros islands (DR Jones & Mourichon, 1993), in 2000 in Madagascar (Jones, 2003; Rivas, Zapater, Abadie, & Carlier, 2004) and in 2018 in Reunion Island (Rieux et al., 2019). In Mauritius, the presence of Pseudocercospora fijiensis was suspected in 1996 (Soomary & Benimadhu, 1998) but has never been confirmed, as symptoms could have been confounded with Pseudocercospora musae or Pseudocercospora eumusae, two causal agents of others leaf spot diseases of banana which were previously described in Mauritius in 1959 (Orieux & Felix, 1968) and 2000 (Carlier, Zapater, Lapeyre, Jones, & Mourichon, 2000), respectively. In March 2022, typical BLSD symptoms were observed at relatively low prevalence in a Cavendish crop located in the "Balance John" area (site S1 on Fig. S1-A) of Mauritius island. Typical early symptoms (stages 2) were 1- to 4-mm long brown streaks at the abaxial leaf surface, and typical older streaks (stages 3 and 4) were also observed (Fig. S1-B). These symptoms were mixed with symptoms of ELSD caused by P. eumusae. Since both species cannot be clearly distinguished only on the description of symptoms, conidial sporulation on stages 2 was checked in the laboratory (Ngando et al., 2015) since P. eumusae does not produce conidia on these young stages. In April 2022, banana leaves bearing symptoms of leaf spot diseases were collected in 7 different sites (Fig. S1-A). All leaf fragments were sent to the CIRAD laboratories where molecular diagnosis was performed following the protocol developed by Arzanlou et al. (2007). In brief, genomic DNA was extracted from ground leaf fragments displaying symptoms using the DNeasy® Plant Mini Kit (Qiagen®, Courtaboeuf, France). At each site, a total of 6 lesions cut from 6 different leaves were pooled. The DNA extracts were added as templates for real-time PCR assay designed to specifically detect the presence of P. fijiensis, P. musae and P. eumusae using MFbf/MFbrtaq/MFbp, MEbf/MEbrtaq/FMep and MMbf/Mmbrtaq/FMep primers and probes, respectively (Arzanlou et al., 2007). Both positive and negative controls were included in the assay and every sample reaction was duplicated. P. fijiensis was detected from 2 out of 7 sites (S2 and S7, see Fig.S2-B). P. eumusae was detected at all sites while P. musae was found in one site only (S6). Interestingly, our results also showed coinfection by P. fijiensis - P. eumusae & P. musae - P. eumusae on several sites. The presence of P. fijiensis was further confirmed by several investigations performed on conidia isolated from S2 samples including i) morphological observations of conidia displaying P. fijiensis type description (Pérez-Vicente, Carreel, Roussel, Carlier, & Abadie (2021), Fig. S2-A), ii) DNA sequencing of 16S ribosomal gene with ITS1 & ITS4 primers (GenBank accessions Nos. OR515818-OR515810) with BLAST results displaying percentages of identity > 99.70% with type strains and iii) Koch's postulates were fulfilled by artificial inoculation of detached leaf pieces as described in Pérez-Vicente, Carreel, Roussel, Carlier, & Abadie (2021) (Fig. S2-D). In brief, for the artificial inoculation, symptoms obtained after inoculation of both a strain isolated in Mauritius (S2-MAU) and a positive control (T+) were compared and shown to be typical of P. fijiensis species for the 3 replicates. To the best of our knowledge, this is the first official report of P. fijiensis and BLSD in Mauritius Island. This revelation holds significant importance for both the agricultural and scientific communities, shedding light on the potential spread and impact of this devastating pathogen in previously unaffected regions. From a global perspective, this discovery underscores the interconnectedness of agricultural ecosystems and the need for vigilance in monitoring and responding to emerging plant diseases in an increasingly interconnected world (Vega et al. 2022). Future investigations will be required to monitor the spread of BLSD on the island, describe the genetic structure of populations and identify routes of invasion at the SWOI scale.

Published

2023

19. Caught on camera: Field imagery reveals the unexpected importance of vertebrates for biological control of the banana weevil (Cosmopolites sordidus Col. Curculionidae).

Author

Tresson P, Tixier P, Puech W, Abufera B, Wyvekens A, and Carval D

Subjects

Animals, Larva, Mice, Reunion, Vertebrates, Musa, Weevils physiology

Abstract

Understanding of ecological interactions is necessary for the application of biological control. Banana is the second most produced fruit worldwide and the banana weevil (Cosmopolites sordidus) is the most important pest of banana and plantain. Its biological control remains challenging because of the robustness and cryptic behaviour of the adult and the hidden development of larval stages. Researchers therefore tend to favour conservation biological control of this pest. The commonly used methods for measuring the effects of natural enemies on the regulation of this pest focus on invertebrates and may underestimate the role of vertebrates on biological control. Using cameras, we recorded the predation of sentinel adult weevils in banana plots in La Réunion island that differed in weevil infestation levels and in animal biodiversity. To facilitate image analysis, we used background subtraction to isolate moving parts of image sequences and thus detect predators and predation events. Our cameras recorded only vertebrates as predators of adult banana weevils. The most important predator appeared to be the Asian shrew (Suncus murinus), which was responsible for 67% of the predation events. Other predators included the house mouse (Mus musculus), the oriental garden lizard (Calotes versicolor), and the guttural toad (Sclerophrys gutturalis). The exact time of predation events were determined from the images metadata. It was thus possible to identify predator foraging periods that coincided with activity of adult weevils. Our results confirm that images provide useful information for biological and ecological studies. Along with other recent studies, our results suggest that the role of vertebrates in biological control may be underestimated. Based on these results, we advocate for several management implications such as the installation of hedges, grasslands, and ponds to favour these vertebrate predators of the banana weevil, possibly also favouring other vertebrate and invertebrate natural enemies., Competing Interests: The authors have declared that no competing interests exist.

Published

2022

20. Assessing the effect of complex ground types on ground-dwelling arthropod movements with video monitoring: Dealing with concealed movements under a layer of plant residues.

Author

Collard B, Tixier P, Carval D, Lavigne C, and Delattre T

Abstract

Understanding the effect of ground types on foraging movements of ground-dwelling arthropods is a key step to managing their spatial distribution as required for successful conservation biological control. Indeed, fine movements at the centimeter scale can strongly influence the foraging ability of pest predators. However, because radio frequency identification or harmonic tracking techniques are not yet suitable for small species and video tracking focuses on uniform and light backgrounds, foraging movements have rarely been studied in relation to ground types. We present a method to track a ground-dwelling arthropod (the earwig Euborellia caraibea ) at night, walking on two contrasted ground types: bare soil and soil partly covered with a stratum of banana plant residues allowing individuals to hide periodically. The tracking of individuals within these ground types was achieved by infrared light, tagging individuals, video treatments, and semi-automatic cleaning of trajectories. We tested different procedures to obtain segments with identical durations to quantify speeds and sinuosities. These procedures were characterized by the junction time gap between trajectory fragments, the rediscretization time of trajectories, and whether or not to use interpolation to fill in missing points in the trajectories. Earwigs exhibited significantly slower and more sinuous movements on soil with banana plant residues than on bare soil. Long time gaps for trajectory junction, extended rediscretization times, and interpolation were complementary means to integrate concealed movements in the trajectories. The highest slowdown in plant residues was detected when the procedure could account for longer periods under the residues. These results suggest that earwigs spent a significant amount of time concealed by the residues. Additionally, the residues strongly decreased the earwigs' movement. Since the technical solutions presented in this study are inexpensive, easy to set up, and replicate, they represent valuable contributions to the emerging field of video monitoring., Competing Interests: The authors declare no conflicts of interest., (© 2022 The Authors. Ecology and Evolution published by John Wiley & Sons Ltd.)

Published

2022

21. Ecological Regulation of Black Leaf Streak Disease Driven by Plant Richness in Banana Agroecosystems.

Author

Poeydebat C, Carval D, Tixier P, Daribo MO, and De Bellaire LL

Subjects

Agriculture, Ascomycota pathogenicity, Costa Rica, Musa genetics, Plant Leaves microbiology, Ascomycota physiology, Biodiversity, Musa microbiology, Plant Diseases microbiology

Abstract

Black leaf streak disease (BLSD), caused by the fungus Mycosphaerella fijiensis, is an important threat to banana production. Although its control relies on costly and unsustainable use of fungicides, ecological regulation of BLSD linked to field-scale plant diversity has received little attention. We monitored banana phytometers in plots in banana-based fields where no fungicides were applied. Within each plot, we measured plant richness in three strata, canopy openness, necrotic leaf removal, Musa abundance and richness. We quantified ecological regulation of five BLSD parameters (inoculum sources, spore abundance, lesion density, incubation time, and the area under the disease progression curve) and identified, using structural equation modeling, the characteristics of the plant community and the mechanisms likely responsible for the regulation. Regulation occurred, but most effectively before lesion formation, and was mainly related to plant richness between 1.5 and 5m high. A barrier effect, rather than a dilution effect, more likely limited spore abundance. Our results support the hypothesis that the potential effects of plant richness on leaf-scale microclimate variability and on the diversity of epiphyllic microorganisms are involved in the regulation of incubation time and lesion density. Field-scale management of plant diversity may be a promising lever to foster ecological regulation of BLSD.

Published

2018

22. Vegetation structure of plantain-based agrosystems determines numerical dominance in community of ground-dwelling ants.

Author

Dassou AG, Tixier P, Dépigny S, and Carval D

Abstract

In tropics, ants can represent an important part of animal biomass and are known to be involved in ecosystem services, such as pest regulation. Understanding the mechanisms underlying the structuring of local ant communities is therefore important in agroecology. In the humid tropics of Africa, plantains are cropped in association with many other annual and perennial crops. Such agrosystems differ greatly in vegetation diversity and structure and are well-suited for studying how habitat-related factors affect the ant community. We analysed abundance data for the six numerically dominant ant taxa in 500 subplots located in 20 diversified, plantain-based fields. We found that the density of crops with foliage at intermediate and high canopy strata determined the numerical dominance of species. We found no relationship between the numerical dominance of each ant taxon with the crop diversity. Our results indicate that the manipulation of the densities of crops with leaves in the intermediate and high strata may help maintain the coexistence of ant species by providing different habitat patches. Further research in such agrosystems should be performed to assess if the effect of vegetation structure on ant abundance could result in efficient pest regulation., Competing Interests: The authors declare there are no competing interests.

Published

2017

23. Dataset on the regulation of banana weevil abundance and corm damage associated with plant richness and the ground-dwelling arthropods' food web.

Author

Poeydebat C, Tixier P, De Bellaire LL, and Carval D

Abstract

The data presented in this article are related to the research article entitled "Plant richness enhances banana weevil regulation in a tropical agroecosystem by affecting a multitrophic food web " [1]. It provides information about plant species richness, weevil corm damage and the abundance of different arthropod groups, including the banana weevil and its potential natural enemies and alternative preys.

Published

2017

24. Balancing competition for resources with multiple pest regulation in diversified agroecosystems: a process-based approach to reconcile diversification and productivity.

Author

Poeydebat C, Carval D, de Lapeyre de Bellaire L, and Tixier P

Abstract

Agroecosystem plant diversification can enhance pest biological regulation and is a promising alternative to pesticide application. However, the costs of competition for resources between plants may exceed the benefits gained by pest regulation. To disentangle the interactions between pest regulation and competition, we developed a generic process-based approach that accounts for the effects of an associated plant and leaf and root pests on biomass production. We considered three crop-plant associations that differ in competition profiles, and we simulated biomass production under wide ranges of both pest regulation rates and resources' availability. We analyzed outputs to quantify the pest regulation service level that would be required to attain monoculture yield and other production goals. Results showed that pest regulation requirements were highly dependent on the profile of resource interception of the associated plant and on resources' availability. Pest regulation and the magnitude of competition between plants interacted in determining the balance between nitrogen and radiation uptake by the crop. Our findings suggest that productivity of diversified agroecosystems relative to monoculture should be optimized by assembling plants whose characteristics balance crops' resource acquisition. The theoretical insights from our study draw generic rules for vegetation assemblage to optimize trade-offs between pest regulation and production. Our findings and approach may have implications in understanding, theorizing and implementing agroecosystem diversification. By its generic and adaptable structure, our approach should be useful for studying the effects of diversification in many agroecosystems.

Published

2016

25. Dominance in a ground-dwelling ant community of banana agroecosystem.

Author

Carval D, Cotté V, Resmond R, Perrin B, and Tixier P

Abstract

In tropical ecosystems, ants represent a substantial portion of the animal biomass and contribute to various ecosystem services, including pest regulation and pollination. Dominant ant species are known to determine the structure of ant communities by interfering in the foraging of other ant species. Using bait and pitfall trapping experiments, we performed a pattern analysis at a fine spatial scale of an ant community in a very simplified and homogeneous agroecosystem, that is, a single-crop banana field in Martinique (French West Indies). We found that the community structure was driven by three dominant species ( Solenopsis geminata , Nylanderia guatemalensis , and Monomorium ebeninum ) and two subdominant species ( Pheidole fallax and Brachymyrmex patagonicus ). Our results showed that dominant and subdominant species generally maintained numerical dominance at baits across time, although S. geminata , M. ebeninum , and B. patagonicus displayed better abilities to maintain dominance than P. fallax and N. guatemalensis . Almost all interspecific correlations between species abundances, except those between B. patagonicus and N. guatemalensis , were symmetrically negative, suggesting that interference competition prevails in this ground-dwelling ant community. However, we observed variations in the diurnal and nocturnal foraging activity and in the daily occurrence at baits, which may mitigate the effect of interference competition through the induction of spatial and temporal niche partitioning. This may explain the coexistence of dominant, subdominant, and subordinate species in this very simplified agroecosystem, limited in habitat structure and diversity.

Published

2016

26. Dataset on the abundance of ants and Cosmopolites sordidus damage in plantain fields with intercropped plants.

Author

Dassou AG, Carval D, Dépigny S, Fansi G, and Tixier P

Abstract

The data presented in this article are related to the research article entitled "Ant abundance and Cosmopolites sordidus damage in plantain fields as affected by intercropping" (A.G. Dassou, D. Carval, S. Dépigny, G.H Fansi, P. Tixier, 2015) [1]. This article describes how associated crops maize (Zea mays), cocoyam (Xanthosoma sagittifolium) and bottle gourd (Lagenaria siceraria) intercropped in the plantain fields in Cameroun modify ant community structure and damages of banana weevil Cosmopolites sordidus. The field data set is made publicly available to enable critical or extended analyzes.

Published

2016

27. Data on the abundance of the banana weevil Cosmopolites sordidus and of the earwig Euborellia caraibea in bare soil and cover crop plots.

Author

Carval D, Resmond R, Achard R, and Tixier P

Abstract

The data presented in this article are related to the research article entitled "Cover cropping reduces the abundance of the banana weevil Cosmopolites sordidus but does not reduce its damage to the banana plants" (Carval et al., in press) [1]. This article describes how the abundance of the banana weevil, Cosmopolites sordidus, and the abundance of the earwig Euborellia caraibea were affected by the addition of a cover crop. The field data set is made publicly available to enable critical or extended analyzes.

Published

2016

28. Local and neighboring patch conditions alter sex-specific movement in banana weevils.

Author

Carval D, Perrin B, Duyck PF, and Tixier P

Abstract

Understanding the mechanisms underlying the movements and spread of a species over time and space is a major concern of ecology. Here, we assessed the effects of an individual's sex and the density and sex ratio of conspecifics in the local and neighboring environment on the movement probability of the banana weevil, Cosmopolites sordidus. In a "two patches" experiment, we used radiofrequency identification tags to study the C. sordidus movement response to patch conditions. We showed that local and neighboring densities of conspecifics affect the movement rates of individuals but that the density-dependent effect can be either positive or negative depending on the relative densities of conspecifics in local and neighboring patches. We demonstrated that sex ratio also influences the movement of C. sordidus, that is, the weevil exhibits nonfixed sex-biased movement strategies. Sex-biased movement may be the consequence of intrasexual competition for resources (i.e., oviposition sites) in females and for mates in males. We also detected a high individual variability in the propensity to move. Finally, we discuss the role of demographic stochasticity, sex-biased movement, and individual heterogeneity in movement on the colonization process.

Published

2015

29. A unified model for the coevolution of resistance, tolerance, and virulence.

Author

Carval D and Ferriere R

Subjects

Animals, Drug Tolerance, Host-Parasite Interactions, Immune Tolerance, Parasites physiology, Population Dynamics, Virulence, Biological Evolution, Models, Biological, Parasites genetics

Abstract

We present a general host-parasite model that unifies previous theory by investigating the coevolution of virulence, resistance, and tolerance, with respect to multiple physiological, epidemiological, and environmental parameters. Four sets of new predictions emerge. First, compared to virulence coevolving with resistance or tolerance, three-trait coevolution promotes more virulence and less tolerance, and broadens conditions under which pure defenses evolve. Second, the cost and efficiency of virulence and the epidemiological rates are the key factors of virulence coevolving with resistance and tolerance. Maximum virulence evolves for intermediate infection rate, at which coevolved levels of resistance and tolerance are both high. The influence of host and parasite background mortalities is strong on the evolution of defenses and weak on the coevolution of virulence. Third, evolutionary correlations between defenses can switch sign along single-parameter gradients. The evolutionary trade-off between resistance and tolerance may coevolve with virulence that either increases or decreases monotonically, depending on the underlying parameter gradient. Fourth, despite global attractiveness and stability of coevolutionary equilibria, not-so-rare and not-so-small mutations can beget large variation in virulence and defenses around equilibrium, in the form of transient "evolutionary spikes." Implications for evolutionary management of infections are discussed and directions for future research are outlined., (© 2010 The Author(s). Journal compilation © 2010 The Society for the Study of Evolution.)

Published

2010

30. Kin discrimination and altruism in the larvae of a solitary insect.

Author

Lizé A, Carval D, Cortesero AM, Fournet S, and Poinsot D

Subjects

Animals, Larva physiology, Species Specificity, Altruism, Coleoptera physiology, Feeding Behavior physiology

Abstract

Kin selection theory predicts altruism between related individuals, which requires the ability to recognize kin from non-kin. In insects, kin discrimination associated with altruistic behaviour is well-known in clonal and social species but in very few solitary insects. Here, we report that the solitary larvae of a non-social insect Aleochara bilineata Gyll. (Coleoptera; Staphylinidae) show kin discrimination and sibling-directed altruistic behaviour. Larvae superparasitize more frequently the hosts parasitized by non-kin individuals than those hosts parasitized by siblings. Kin discrimination probably occurs by self-referent phenotype matching, where an individual compares its own phenotype with that of a non-familiar related individual, a mechanism rarely demonstrated in animals. The label used to recognize kin from non-kin corresponds to substances contained in the plug placed on the hosts by the resident larvae during the parasitization process. Kin competition induced by a limited larval dispersion may have favoured the evolution of kin recognition in this solitary species.

Published

2006