Bibliographies thématiques / Ecosystem-based

Littérature scientifique sur le sujet « Ecosystem-based »

Auteur : Grafiati
Publié le 13 avril 2024

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Articles de revues sur le sujet "Ecosystem-based"

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Gray, Steven A., et Rebecca Jordan. « Ecosystem-Based Angling : Incorporating Recreational Anglers Into Ecosystem-Based Management ». Human Dimensions of Wildlife 15, no 4 (14 juillet 2010) : 233–46. http://dx.doi.org/10.1080/10871209.2010.490972.

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Slocombe, D. Scott. « Implementing Ecosystem-Based Management ». BioScience 43, no 9 (octobre 1993) : 612–22. http://dx.doi.org/10.2307/1312148.

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van Noordwijk, Meine. « Agroforestry-Based Ecosystem Services ». Land 10, no 8 (22 juillet 2021) : 770. http://dx.doi.org/10.3390/land10080770.

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Agroforestry, land use at the agriculture-forestry interface that implies the presence of trees on farms and/or farmers in forests, has a history that may be as old as agriculture, but as an overarching label and topic of formal scientific analysis, it is in its fifth decade [...]
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Radmannia, Sepideh, et Milad Naderzad. « IoT-based electrosynthesis ecosystem ». Internet of Things 3-4 (octobre 2018) : 46–51. http://dx.doi.org/10.1016/j.iot.2018.08.001.

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Bliss, John, Greg Aplet, Cate Hartzell, Peggy Harwood, Paul Jahnige, David Kittredge, Stephan Lewandowski et Mary Lou Soscia. « Community-Based Ecosystem Monitoring ». Journal of Sustainable Forestry 12, no 3-4 (20 février 2001) : 143–67. http://dx.doi.org/10.1300/j091v12n03_07.

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Caddy, John F. « A Minority View on Ecosystem-Based Management and Ecosystem-Based Fisheries Management ». Ocean Yearbook Online 24, no 1 (19 juin 2010) : 171–84. http://dx.doi.org/10.1163/22116001-02401009.

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Caddy, John F. « A Minority View on Ecosystem-Based Management and Ecosystem-Based Fisheries Management ». Ocean Yearbook Online 24, no 1 (1 janvier 2010) : 171–84. http://dx.doi.org/10.1163/22116001-90000059.

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Caddy, John F. « A Minority View on Ecosystem-Based Management and Ecosystem-Based Fisheries Management ». Ocean Yearbook Online 24, no 1 (2010) : 171–84. http://dx.doi.org/10.1163/22116001-92400009.

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Kirkfeldt, Trine Skovgaard. « An ocean of concepts : Why choosing between ecosystem-based management, ecosystem-based approach and ecosystem approach makes a difference ». Marine Policy 106 (août 2019) : 103541. http://dx.doi.org/10.1016/j.marpol.2019.103541.

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Kirkman, SP, L. Blamey, T. Lamont, JG Field, G. Bianchi, JA Huggett, L. Hutchings et al. « Spatial characterisation of the Benguela ecosystem for ecosystem-based management ». African Journal of Marine Science 38, no 1 (mars 2016) : 7–22. http://dx.doi.org/10.2989/1814232x.2015.1125390.

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Thèses sur le sujet "Ecosystem-based"

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Wilson, Gregory B. « Ecosystem-Based Management of the Lake Erie Ecosystem : A Survey-Based Approach to Assessment of Management Needs ». Kent State University / OhioLINK, 2011. http://rave.ohiolink.edu/etdc/view?acc_num=kent1302202900.

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Hefnawy, Ahmed. « Lifecycle-based Modeling of Smart City Ecosystem ». Thesis, Lyon, 2018. http://www.theses.fr/2018LYSE2014.

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Le développement, l'exploitation et la maintenance des systèmes urbains intelligents sont des tâches très complexes et impliquent de nombreux acteurs de différentes disciplines et domaines. Dans la plupart des cas, ces systèmes se trouvent à différentes phases de conception, de déploiement et d'exploitation, c'est-à-dire à différentes phases de leur cycle de vie. Par conséquent, les concepts de gestion du cycle de vie sont très importants pour mieux gérer le développement des villes intelligentes en tant qu'écosystème complet à travers les différentes phases du cycle de vie. Cet argument est étayé par les résultats de notre enquête sur les villes intelligentes, où les informations récoltées des parties prenantes interrogées prouvent la pertinence d’une approche cycle de vie pour répondre aux neuf préoccupations identifiées; non alignement sur les objectifs stratégiques, échec réglementaire au niveau des différentes phases, retard dans le «time to market», processus disjoints, partage des connaissances et traçabilité des données difficiles, échange inefficace de données/informations; et utilisation inefficace et inefficiente des infrastructures. Pour répondre aux préoccupations mentionnées ci-dessus, cette thèse propose l'application des éléments fondamentaux du cycle de vie aux villes intelligentes, ce qui nécessite l'introduction de la notion de temps dans la modélisation urbaine intelligente en ajoutant le point de vue « cycle de vie » comme nouvelle dimension de leurs architectures multicouches. L'approche proposée comprend deux éléments. Le premier est le modèle tridimensionnel qui permet aux développeurs de villes intelligentes d'envisager trois points de vue : les couches de l'architecture, le temps (phases du cycle de vie) et les domaines. Le deuxième correspond à la notion d'interaction qui permet l'intégration entre les systèmes de gestion du cycle de vie et les plateformes IoT. Cette approche est validée à travers un cas d'utilisation d’un système de stationnement intelligent « Smart Parking », proposé dans le cadre de la Coupe du Monde™ de la FIFA 2022. Le système de stationnement intelligent proposé est stratégiquement aligné sur les objets Smart Qatar et relie toutes les parties prenantes concernées à travers les différentes phases du cycle de vie. Pour assurer l'interopérabilité sémantique, le système de stationnement intelligent utilise les normes DATEX II pour les données statiques et dynamiques liées au stationnement. Enfin, le cas d'utilisation met l'accent sur l'intégration entre les données liées au cycle de vie et les données IoT à travers l'interaction entre un système de cycle de vie Aras Innovator® (construction de nomenclatures, gestion de configurations, etc.) et une plate-forme d’implémentation de référence IoT O-MI/O-DF (publication peer-to-peer, découverte d'informations liées au stationnement sous une forme agrégée)
Smart city system development, operation and maintenance are very complex tasks and involve numerous stakeholders from different disciplines and domains. In most cases, these systems are at different phases of design, deployment and operation, i.e. at different phases of lifecycle. Hence, lifecycle management concepts are very important to better manage smart city development as a complete ecosystem across different phases of lifecycle. This argument is supported by the findings of our smart city survey, where the information gathered from interviewed stakeholders proves the relevance of a lifecycle approach to address the identified nine concerns; non-alignment to strategic objectives, regulatory failure at different phases, delay in “time to market”, disjointed processes, difficult knowledge sharing and data traceability, inefficient and delayed exchange of data/ information, and inefficient and ineffective use of infrastructure.To address the abovementioned concerns, this thesis proposes the application of lifecycle management concepts in smart cities, which requires the introduction of the time notion to smart city modeling by adding the lifecycle viewpoint as a new dimension to the multi-layered architecture. The proposed smart city lifecycle-based approach consists of two components. First, the three-dimensional model that enables smart city developers to consider three viewpoints: Architecture Layers, Time (Lifecycle Phases), and Domains. Second, the interaction approach that enables integration between lifecycle management systems and IoT platforms. This approach is validated through a use-case of Smart Parking System, proposed as part of the FIFA World Cup™ 2022. The proposed smart parking system is strategically aligned to Smart Qatar objectives and connects all relevant stakeholders across the different lifecycle phases. To ensure semantic interoperability, the smart parking system uses the DATEX II standards for static and dynamic parking related data. Finally, the use-case focuses on the integration between lifecycle related data and IoT data through the interaction between Aras Innovator® lifecycle system (BoM construction, configuration management, etc.) and the O-MI/O-DF IoT Reference Implementation Platform (peer-to-peer publication and discovery of parking-related information in an aggregated form)
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Gunasekara, Sandya Nishanthi. « Governance of the bay of Bengal large marine ecosystem through ecosystem-based fisheries management ». Thesis, Queensland University of Technology, 2021. https://eprints.qut.edu.au/213832/1/Sandya%20Nishanthi_Gunasekara_Thesis.pdf.

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This thesis assessed the current prospect for implementing an ecosystem-based management for fisheries (EBFM) in the Bay of Bengal Large Marine Ecosystem from national and regional level perspectives. A central result of the study is that the governance concept had been defined and used imprecisely in the literature. The way the different elements constitute EBFM revealed that both Bay of Bengal LME countries and existing regional fisheries organisations are unlikely to satisfy all the elements on the EBM checklist. The study also observes that the Bay of Bengal countries do not share a common understanding of EBFM.
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Miller, Chase Allen. « Towards a Web-Based, Big Data, Genomics Ecosystem ». Thesis, Boston College, 2014. http://hdl.handle.net/2345/bc-ir:104052.

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Thesis advisor: Gabor T. Marth
Rapid advances in genome sequencing enable a wide range of biological experiments on a scale that was until recently restricted to large genome centers. However, the analysis of the resulting vast genomic datasets is time-consuming, unintuitive and requires considerable computational expertise and costly infrastructure. Collectively, these factors effectively exclude many bench biologists from genome-scale analyses. Web-based visualization and analysis libraries, frameworks, and applications were developed to empower all biological researchers to easily, interactively, and in a visually driven manner, analyze large biomedical datasets that are essential for their research, without bioinformatics expertise and costly hardware
Thesis (PhD) — Boston College, 2014
Submitted to: Boston College. Graduate School of Arts and Sciences
Discipline: Biology
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Hyun, Karen Hae-Myung. « Ecosystem-based management in the Colorado River Delta / ». View online ; access limited to URI, 2008. http://0-digitalcommons.uri.edu.helin.uri.edu/dissertations/AAI3314442.

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Prieß, Malte [Verfasser]. « Surrogate-Based Optimization for Marine Ecosystem Models / Malte Prieß ». Kiel : Universitätsbibliothek Kiel, 2012. http://d-nb.info/1025371062/34.

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Marcianò, Pietro. « Aquaculture in Lake Storsjön : an ecosystem services based investigation ». Thesis, Mittuniversitetet, Avdelningen för ekoteknik och hållbart byggande, 2015. http://urn.kb.se/resolve?urn=urn:nbn:se:miun:diva-25543.

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The purpose of this thesis is to investigate if the application of the ecosystem services concept can provide decision makers and stakeholders with additional relevant information for decisions regarding establishing of aquaculture on a local level, using the Lake Storsjön as a case study. In order to provide this knowledge, three different tasks are carried out within this thesis: the identification of the main ecosystem services provided by Lake Storsjön, the understanding of ecosystem services that will be affected by the expansion of aquaculture and the identification of the services that will be used for a possible expansion of the aquaculture sector. The CICES methodology (Common International Classification of Ecosystem Services) is used to identify the ecosystem services provided by Lake Storsjön. The understanding of the affected ecosystem services is carried out with the use of a Delphi-inspired approach. The identification of the services required for the establishment of aquaculture is driven by a cross-reference matrix. Lake Storsjön provides thirty-nine out of the fifty-nine ecosystem services included in the CICES. About half of these will be effected by environmental impacts connected to operations of ecosystem management required by aquaculture expansion, mostly with a low or medium degree of impact. An increase in the implementation of aquaculture might cause detrimental trade-offs with these ecosystem services: “Wild animals”, “Genetic materials from all biota“, “Disease control”, “Maintaining nursery populations and habitats” and “Filtration/dilution/sequestration/storage/accumulation by ecosystem”. An expansion of the aquaculture sector requires seven of the ecosystem services provided by Lake Storsjön. The vital services for this process are: “Surface water for non-drinking purposes”, “Filtration/dilution/sequestration/storage/accumulation by ecosystem” and “Chemical condition of freshwater”. These services have to be safeguarded and maintained in order to guarantee adequate conditions for an expansion of this sector. At the same time the expansion of aquaculture supports the service “Animals from in situ aquaculture”. The benefits connected to the implementation of aquaculture shall be economically assessed and compared to the actual economic value delivered by the other ecosystem services in order to further understand the positives and negatives outcomes of aquaculture expansion in an ecosystem services perspective. This is considered to be a relevant step for strategic and decision making processes concerning aquaculture expansion in Lake Storsjön. In addition to the economic perspective, it seems that the most relevant factor when discussing planning and development processes towards ecosystem services is the importance of not overshooting the resilience ability of the ecosystem in order to ensure the accessibility of the services to future generations. This belief is recommended to be applied to Lake Storsjön in order to guarantee a conscious expansion of the aquaculture sector on a social, economic and environmental level.
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Shahidullah, AKM. « Community-Based Developmental Entrepreneurship : Linking Microfinance with Ecosystem Services ». International Journal of Development and Sustainabilty, 2 (3), 1703-1722, 2013. http://hdl.handle.net/1993/31836.

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This research examined whether microfinance-assisted developmental mechanisms can integrate ecological objectives alongside social and economic ones—thus promoting sustainability. The specific focus was to test the ability of microenterprises operated by community-entrepreneurs in supporting local ecosystem services. To this end, the research: elucidated the nature and dynamics of linkages between communities and the local ecosystems with the lens of coupled social-ecological systems, i.e. illustrated ecological modernization of microenterprises in a developing country context; tested how community-based enterprises transform upon application of green microfinance strategy; and then recognized how social learning is promoted through such community-based intervention mechanisms, e.g. microfinance. The research used case study and participatory approaches. The case study comprised two components: i) a green microfinance program, and ii) communities in a riparian, and a wetland ecosystem in Bangladesh engaged in entrepreneurship. The major tools that the study employed for data collections were: household surveys, participatory land -use surveys, semi-structured interviews, key informant interviews, focus group discussions, multi-stakeholder workshops, field observations, and document reviews. The research findings reveal that the green microfinance strategy, in the short and medium terms, catalyzes entrepreneurial and social innovations, and combine the embedded economic and social objectives of the classic microfinance with the new ecological objectives towards sustainability. The strategy applied by Microfinance Institution (MFI) and adopted by community enterprises transformed the ventures—helping them to go green and reducing greenhouse gas emission. Besides, the partnerships that occur between non-governmental organization (NGO) and community-based organization (CBO) in the process of implementing developmental programs—result social learning and innovations in the communities. The research review found grassroots developmental initiatives as an evolving phenomenon over time. With this view, and with its observation through this cross-sectional study, the research proposes a framework entitled ‘community-based developmental enterprise (CBDE)’. The framework proposes community level entrepreneurial ventures, associated NGO-MFIs, CBOs and other development partners to consider ecosystem services and wellbeing components in entrepreneurial design and actions.
October 2016
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Maarstoel, Marte Nogva. « ‘Grounding' ecosystem-based adaptation in the Western Cape Province ». Master's thesis, Faculty of Science, 2021. http://hdl.handle.net/11427/32765.

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Ecosystem-based adaptation (EbA) advocates that well-functioning ecosystems are critical for building resilience and supporting society's adaptation to the adverse impacts of climate change. The National Department of Environmental Affairs, Fisheries and Forestry in South Africa has decided to mainstream EbA into its climate response actions, developing a strategy and set of guidelines to steer implementation. However, little work has been done to grasp different actors' perspectives and understandings of EbA, its implementation and how to link EbA to existing related projects and programmes that focus on natural resource management and ecological restoration. This research presents findings from a qualitative study in the Western Cape that sought to investigate what EbA means ‘on the ground' and how it can be actioned. The objectives for this research were to 1) unpack how government actors in the Western Cape relate to, understand and give meaning to EbA in their specific and existing work contexts and how they relate EbA to other concepts such as green infrastructure, restoration and various forms of natural resource management (NRM); 2) explore the concerns and challenges encountered and what support is needed to implement EbA within each actor's sector; and 3) interpret what the findings mean for future conceptualization, and promotion of EbA mainstreaming in the Western Cape. Semi-structured interviews with 19 government officials and participant observation at EbA related events in South Africa were the main methods used in the research. Findings suggest that despite some conceptual confusion related to EbA, EbA can be ‘grounded based on the three spheres EbA explicitly builds on; namely biodiversity and ecosystem conservation, climate change adaptation and socio-economic benefits. That said, the study also found that practitioners might struggle to successfully address climate change as one of the critical areas of EbA, due to the difficulties of integrating climate change science and projections into projects. In addition, three challenges were identified that relate to funding availability, silo mentality and the mismatch between short-term objectives and decision making in government, and the need for long-term thinking and planning. Increased climate change understanding together with effective demonstration and the use of applicable language that relates to what the different actors are already doing can help improve EbA uptake and mainstreaming, as well as address the challenges related to conceptual confusion, funding, silo mentality and short-term thinking.
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Haggan, Nigel. « Becoming indigenous : measurable and immeasurable values in ecosystem-based management ». Thesis, University of British Columbia, 2012. http://hdl.handle.net/2429/43132.

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This dissertation follows the trajectory of fisheries management in British Columbia from a period prior to European contact when Aboriginal people encountered limits, learned to live within them and indeed enhance productivity of lands and waters. The diversity of ecological contexts and human experience created a rich diversity of eco-social-spiritual communities, sustained by the interweaving of scientific, economic, social, spiritual and aesthetic values. Since then, fisheries managed primarily for commodity value have depleted marine life, while the growth of other economic sectors has transformed ‘fisheries’ from a mainstay of culture and existence to a tiny fraction of BC’s economy as measured by GDP. Globally, depletion and chronic undervaluing have prompted leading marine scientists, conservationists and others to call for a sea or ocean ethic. A literature review reveals a strong public demand for inclusion of immeasurable values between the lines of the ecological economics literature and in declarations from leading scientists and world religions, but there is no coherent way to implement it. A research project using Q methodology indicates that the public demand for inclusion of a spiritual dimension holds for a wide cross-section of people engaged in the governance, management and use of BC’s marine environment. The dissertation outlines a concept of the secular sacred based on a spirituality of dedicated attention to relationships. Dedicated attention confers the knowledge to enhance relationships that contribute to flourishing and unravel those that are destructive. The secular sacred can draw on the moral authority of science to report objectively on large-scale relationships, the moral authority of Aboriginal and local people at local scale, the moral authority of ordinary people committed to flourishing of people, species and places, the moral authority of religion in terms of gratitude, generosity, compassion, love and justice and the moral authority of artists who can represent complexity and tension and point ways to sustainability which words cannot. Drawing on multiple sources of knowledge and authority without belonging to any of them, the secular sacred opens the door to transformative change in and beyond British Columbia.
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Livres sur le sujet "Ecosystem-based"

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O’Higgins, Timothy G., Manuel Lago et Theodore H. DeWitt, dir. Ecosystem-Based Management, Ecosystem Services and Aquatic Biodiversity. Cham : Springer International Publishing, 2020. http://dx.doi.org/10.1007/978-3-030-45843-0.

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Desbonnet, Alan, et Barry A. Costa-Pierce, dir. Science for Ecosystem-based Management. New York, NY : Springer New York, 2008. http://dx.doi.org/10.1007/978-0-387-35299-2.

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Peiris, Kapila. Ecosystem based indigenous water management. Colombo : National Science Foundation, 2008.

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Wondolleck, Julia M., et Steven L. Yaffee. Marine Ecosystem-Based Management in Practice. Washington, DC : Island Press/Center for Resource Economics, 2017. http://dx.doi.org/10.5822/978-1-61091-800-8.

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Mukherjee, Mahua, et Rajib Shaw, dir. Ecosystem-Based Disaster and Climate Resilience. Singapore : Springer Singapore, 2021. http://dx.doi.org/10.1007/978-981-16-4815-1.

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Belgrano, Andrea, et Charles W. Fowler, dir. Ecosystem-Based Management for Marine Fisheries. Cambridge : Cambridge University Press, 2009. http://dx.doi.org/10.1017/cbo9780511973956.

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1974-, Leslie Heather, dir. Ecosystem-based management for the oceans. Washington, D.C : Island Press, 2009.

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K, Meffe Gary, dir. Ecosystem management : Adaptive, community-based conservation. Washington, D.C : Island Press, 2002.

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Link, Jason S. Ecosystem-based fisheries management : Confronting tradeoffs. Cambridge : Cambridge University Press, 2010.

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Arreguín-Sánchez, Francisco. Holistic Approach to Ecosystem-Based Fisheries Management. Cham : Springer International Publishing, 2022. http://dx.doi.org/10.1007/978-3-030-96847-2.

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Chapitres de livres sur le sujet "Ecosystem-based"

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Matso, Kalle. « Ecosystem-Based Management ». Dans Encyclopedia of Estuaries, 232–36. Dordrecht : Springer Netherlands, 2015. http://dx.doi.org/10.1007/978-94-017-8801-4_41.

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Imhoff, Daniel, et Christina Badaracoo. « Ecosystem-Based Agriculture ». Dans The Farm Bill, 183–88. Washington, DC : Island Press/Center for Resource Economics, 2019. http://dx.doi.org/10.5822/978-1-61091-975-3_22.

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Mukherjee, Mahua, et Jeevan Madapala. « Ecosystem-based Drought Management ». Dans Drought Risk Management in South and South-East Asia, 312–52. B1/I-1 Mohan Cooperative Industrial Area, Mathura Road New Delhi 110 044 : SAGE Publications Pvt Ltd, 2020. http://dx.doi.org/10.4135/9789353885649.n14.

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Russell, Marc, Charles Rhodes, George Van Houtven, Paramita Sinha, Katherine Warnell et Matthew C. Harwell. « Ecosystem-Based Management and Natural Capital Accounting ». Dans Ecosystem-Based Management, Ecosystem Services and Aquatic Biodiversity, 149–63. Cham : Springer International Publishing, 2020. http://dx.doi.org/10.1007/978-3-030-45843-0_8.

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Delacámara, Gonzalo, Timothy G. O’Higgins, Manuel Lago et Simone Langhans. « Ecosystem-Based Management : Moving from Concept to Practice ». Dans Ecosystem-Based Management, Ecosystem Services and Aquatic Biodiversity, 39–60. Cham : Springer International Publishing, 2020. http://dx.doi.org/10.1007/978-3-030-45843-0_3.

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O’Higgins, Timothy G., Theodore H. DeWitt et Manuel Lago. « Using the Concepts and Tools of Social Ecological Systems and Ecosystem Services to Advance the Practice of Ecosystem-Based Management ». Dans Ecosystem-Based Management, Ecosystem Services and Aquatic Biodiversity, 3–14. Cham : Springer International Publishing, 2020. http://dx.doi.org/10.1007/978-3-030-45843-0_1.

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Sharpe, Leah M., Connie L. Hernandez et Chloe A. Jackson. « Prioritizing Stakeholders, Beneficiaries, and Environmental Attributes : A Tool for Ecosystem-Based Management ». Dans Ecosystem-Based Management, Ecosystem Services and Aquatic Biodiversity, 189–211. Cham : Springer International Publishing, 2020. http://dx.doi.org/10.1007/978-3-030-45843-0_10.

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Robinson, Leonie A., et Fiona E. Culhane. « Linkage Frameworks : An Exploration Tool for Complex Systems in Ecosystem-Based Management ». Dans Ecosystem-Based Management, Ecosystem Services and Aquatic Biodiversity, 213–33. Cham : Springer International Publishing, 2020. http://dx.doi.org/10.1007/978-3-030-45843-0_11.

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Lewis, Nathaniel S., Darryl E. Marois, Chanda J. Littles et Richard S. Fulford. « Projecting Changes to Coastal and Estuarine Ecosystem Goods and Services—Models and Tools ». Dans Ecosystem-Based Management, Ecosystem Services and Aquatic Biodiversity, 235–53. Cham : Springer International Publishing, 2020. http://dx.doi.org/10.1007/978-3-030-45843-0_12.

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McKane, Robert B., Allen F. Brookes, Kevin S. Djang, Jonathan J. Halama, Paul B. Pettus, Bradley L. Barnhart, Marc Russell, Kellie B. Vache et John P. Bolte. « An Integrated Multi-Model Decision Support Framework for Evaluating Ecosystem-Based Management Options for Coupled Human-Natural Systems ». Dans Ecosystem-Based Management, Ecosystem Services and Aquatic Biodiversity, 255–74. Cham : Springer International Publishing, 2020. http://dx.doi.org/10.1007/978-3-030-45843-0_13.

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Actes de conférences sur le sujet "Ecosystem-based"

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Khanna, Abhirup, et Ravi Tomar. « IoT based interactive shopping ecosystem ». Dans 2016 2nd International Conference on Next Generation Computing Technologies (NGCT). IEEE, 2016. http://dx.doi.org/10.1109/ngct.2016.7877387.

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Ivanova, Antonina, Galina Momcheva, Ralitsa Zhekova, Eleonora Tankova et Stoyan Pavlov. « Sustainability of research-based ecosystem ». Dans “TOPICAL ISSUES OF THERMOPHYSICS, ENERGETICS AND HYDROGASDYNAMICS IN THE ARCTIC CONDITIONS” : Dedicated to the 85th Birthday Anniversary of Professor E. A. Bondarev. AIP Publishing, 2022. http://dx.doi.org/10.1063/5.0100707.

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Yan, Jun-Yu, Yu-Heng Hsieh et Shyan-Ming Yuan. « Blockchain Based E-portfolio Ecosystem ». Dans 2023 IEEE 6th International Conference on Knowledge Innovation and Invention (ICKII). IEEE, 2023. http://dx.doi.org/10.1109/ickii58656.2023.10332664.

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Puri, Vikram, Aman Kataria, Sita Rani et Piyush Kumar Pareek. « DLT Based Smart Medical Ecosystem ». Dans 2023 International Conference on Network, Multimedia and Information Technology (NMITCON). IEEE, 2023. http://dx.doi.org/10.1109/nmitcon58196.2023.10276204.

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Mandal, Rubi, Umakant Sawant, Jayesh Bangar, Tushar Shinde et Pranav Sonawane. « Cloud Based Secured Hospital Ecosystem ». Dans 2023 International Conference on Advanced Computing Technologies and Applications (ICACTA). IEEE, 2023. http://dx.doi.org/10.1109/icacta58201.2023.10392586.

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Palani, U., Sure Sai Mahesh, D. Vasanthi et D. Sathish Kumar. « Ethereum blockchain based healthcare Industry ecosystem ». Dans 2020 7th International Conference on Smart Structures and Systems (ICSSS). IEEE, 2020. http://dx.doi.org/10.1109/icsss49621.2020.9202232.

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Dong, Hai, Farookh Khadeer Hussain et Elizabeth Chang. « Ontology-Based Digital Ecosystem Conceptual Representation ». Dans Third International Conference on Autonomic and Autonomous Systems (ICAS'07). IEEE, 2007. http://dx.doi.org/10.1109/conielecomp.2007.91.

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Strannegard, Claes, Niklas Engsner, Jesper Eisfeldt, John Endler, Amanda Hansson, Rasmus Lindgren, Petter Mostad et al. « Ecosystem Models Based on Artificial Intelligence ». Dans 2022 Swedish Artificial Intelligence Society Workshop (SAIS). IEEE, 2022. http://dx.doi.org/10.1109/sais55783.2022.9833026.

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Linthaluek, Siwaporn, Panita Wannapiroon et Prachyanun Nilsook. « Gamification Ecosystem for Research-based Learning ». Dans 2021 6th International STEM Education Conference (iSTEM-Ed). IEEE, 2021. http://dx.doi.org/10.1109/istem-ed52129.2021.9625144.

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Okey, T. A., et G. A. Harrington. « Criteria for Designing Ecosystem-Based, Experimental Management : Bottom Trawling and the Bering Sea Ecosystem ». Dans Ecosystem Approaches for Fisheries Management. Alaska Sea Grant, University of Alaska Fairbanks, 1999. http://dx.doi.org/10.4027/eafm.1999.32.

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Rapports d'organisations sur le sujet "Ecosystem-based"

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Walz, Yvonne, Florence Nick, Oscar Higuera Roa, Udo Nehren et Zita Sebesvari. Coherence and Alignment among Sustainable Land Management, Ecosystem-based Adaptation, Ecosystem-based Disaster Risk Reduction and Nature-based Solutions. United Nations University - Institute for Environment and Human Security, novembre 2021. http://dx.doi.org/10.53324/mwgp9896.

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Approaches integrating environmental management practices have been gaining importance in recent years. Sustainable Land Management (SLM), Ecosystem-based Adaptation (EbA), Ecosystem-based disaster Risk Reduction (Eco-DRR) and Nature-based Solutions (NbS) are widely applied approaches that tackle certain drivers of challenges such as food insecurity, water scarcity, decline in biodiversity and threats to livelihoods, while also considering both human well-being and ecosystem functions and services. Better understanding the similarities, differences and relationships between these approaches helps to improve efficiency in implementation and leverage synergies. By shedding more light on where these approaches align, investments in land-based solutions in response to different types of environmental challenges can be more effectively designed to achieve multiple targets. In response to the United Nations Convention to Combat Desertification (UNCCD) decision 19/COP.14 paragraph 4, the main objective of this report is to understand and elaborate upon the characteristics of SLM, EbA, Eco-DRR and NbS. The report begins with an overview of the historical backgrounds and origins of SLM, EbA, Eco-DRR and NbS. Despite differences in their specific goals and targeted benefits, all approaches aim for the support of biodiversity, land-based ecosystems and ecosystem services and functions, and employ measures to conserve, restore and sustainably use land to support ecosystem services and functions, including SLM technologies. Furthermore, irrespective of their different goals, the projects developed under any approach can generate comparable co-benefits, especially due to their support of biodiversity. The capacity for all these approaches to deliver multiple co-benefits means that projects of each approach can directly contribute to implementing the specific goals of the other approaches as well. Thus, multiple global and national targets, frameworks, strategies and conventions which call for the implementation of one or more of these approaches, can benefit from this report by avoiding duplication and reducing the overall investments necessary to achieve the set targets and goals. This is critical for achieving the ambitious Agenda 2030, including voluntary land degradation neutrality (LDN) targets and climate action under the Paris Agreement. It will also be the case for the post-2020 global biodiversity framework currently under development. The added value that will come from optimizing the links among these approaches extends from national policymakers to the practitioners of SLM, EbA and Eco-DRR projects, which all share the ultimate goal of sustainable development. To capture the coherence and alignment among these approaches, their similarities and differences have been summarized in a conceptual framework. The framework has been designed to help practitioners understand the specific goals of each approach, and to link these to the relevant global and national targets, frameworks, strategies and conventions, which can support monitoring and evaluation as well as reporting processes. The synergies among these approaches are further illustrated based on three case studies in order to demonstrate opportunities for leveraging multiple co-benefits and targets at implementation level irrespective of the different objectives under each. The results of this assessment demonstrate that activities under one approach can be beneficial to achieve the specific goals of other approaches with little additional effort. It is essential for policymakers, project developers and practitioners to recognize that. This is key to the achievement of sustainable development.
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El Fassi, Marai, Larissa Stiem-Bhatia, Ana Victoria Rodríguez et María Amalia Porta. People-Nature Alliances. Enabling Ecosystem-based Adaptation in Guatemala. TMG Research gGmbH, octobre 2020. http://dx.doi.org/10.35435/2.2020.1.

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D’Souza, Marcella, Arjuna Srinidhi, Shreya Banerjee, Abha Indurkar, Eshwer Kale, Larissa Stiem-Bhatia et Naman Gupta. Scaling Ecosystem-based Adaptation to Climate Change in Maharashtra, India. TMG Research gGmbH, mai 2020. http://dx.doi.org/10.35435/1.2020.1.

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Stiem-Bhatia, Larissa, Devaraj de Condappa, Arjuna Srinidhi, Marcella D’Souza, Dada Dadas et Crispino Lobo. From Watershed Development to Ecosystem-based Adaptation - A journey to systemic resilience. TMG Research gGmbH, mars 2021. http://dx.doi.org/10.35435/2.2021.1.

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Harris, J. R., D. Lemkow, D. F. Wright et H. Falck. Modelling mineral potential for the Greater Nahanni Ecosystem using GIS-based analytical methods. Natural Resources Canada/ESS/Scientific and Technical Publishing Services, 2007. http://dx.doi.org/10.4095/224561.

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Burton, G. A., Bart Chadwick, Gunther Rosen et Marc Greenberg. Sediment Ecosystem Assessment Protocol (SEAP) : An Accurate and Integrated Weight-of-Evidence Based System. Fort Belvoir, VA : Defense Technical Information Center, janvier 2011. http://dx.doi.org/10.21236/ada539945.

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Venticinque, Eduardo, Bruce Forsberg, Ronaldo Barthem, Paulo Petry, Laura Hess, Armando Mercado, Carlos Cañas, Mariana Montoya, Carlos Durigan et Michael Goulding. An New GIS-Based River Basin Framework for Aquatic Ecosystem Conservation in the Amazon. Wildlife Conservation Society, 2021. http://dx.doi.org/10.19121/2021.report.40050.

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Grehan, A. J., et J M Roberts. ATLAS : a trans-Atlantic assessment and deep-water ecosystem-based spatial management plan for Europe. Natural Resources Canada/ESS/Scientific and Technical Publishing Services, 2017. http://dx.doi.org/10.4095/305851.

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Anderson, Elizabeth P. Hydropower Development and Ecosystem Services in Central America. Inter-American Development Bank, mars 2013. http://dx.doi.org/10.18235/0009088.

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This paper provides an overview of the characteristics of Central American rivers and related freshwater ecosystem services, discusses trends in hydropower development and known environmental and social consequences, and offers suggestions for finding a balance between hydropower and the protection of other freshwater ecosystem services, based on experiences from the region.
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Kotula, Hannah. Valuing forest ecosystem services in New Zealand. Motu Economic and Public Policy Research, novembre 2022. http://dx.doi.org/10.29310/wp.2022.11.

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Society depends on services and benefits provided by ecosystems. Yet, many of our actions affect ecosystems in ways that undermine long-term human wellbeing. Although ecosystems provide many services to society, many of these services are not accounted for in land-use decisions. The concept of “ecosystem services” offers a framework for understanding our dependence on nature and can encourage decision makers to consider broader impacts of land-use decisions beyond short-term economic rewards. Furthermore, economic valuation of ecosystem services offers a potential strategy for including the value of ecosystem services in decision making. Here I describe several ecosystem service frameworks and outline how these frameworks can inform land-use decisions, with a particular focus on those involving forests. I then describe methods for valuing ecosystem services. Following this, I provide examples relating to forest ecosystem services and draw conclusions based on existing valuation studies in New Zealand. My intention is to convey how an ecosystem service approach could be used in New Zealand to capture benefits provided by ecosystems that are often not accounted for in land-use decisions.
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