{"help": "https://canwin-datahub.ad.umanitoba.ca/data/en/api/3/action/help_show?name=package_show", "success": true, "result": {"Identifier": "10.1109/IHTC65087.2025.11216324", "PublicationYear": "2025", "Publisher": "Institute of Electrical and Electronics Engineers (IEEE)", "ResourceType": "conference publication", "Rights": "Other (Not Open)", "Version": "1.0", "author": null, "author_email": null, "citation": "C. Herbert, W. Chan, Y. Campbell, L. D. Plessis, V. Dearborn and D. Isleifson, \"Building Capacity through Technology: CanWIN\u2019s Role in Supporting Indigenous Science,\" 2025 IEEE International Humanitarian Technology Conference (IHTC), Edmonton, AB, Canada, 2025, pp. 140-144, doi: 10.1109/IHTC65087.2025.11216324. keywords: {Knowledge engineering;Climate change;Ethics;Ecosystems;Decision making;Buildings;Collaboration;Watersheds;Freshwater;Portals;data portal;data sharing;environmental data;climate change;water management strategies;water vulnerability;water governance},", "creator_user_id": "c3ad971e-75e0-4e57-b825-8ed25f306937", "descriptionType": "Abstract", "id": "b2f4d688-ebf8-4377-b21e-e4f2dc272a35", "isopen": false, "language": "English", "licenceType": "Restricted", "license_id": null, "license_title": null, "maintainer": null, "maintainer_email": null, "metadata_created": "2025-09-24T17:24:01.982079", "metadata_modified": "2025-12-02T18:24:25.408286", "name": "build-capac-canwin-indig-sci", "notes": "Addressing the challenges posed by climate change in recent decades, particularly in Arctic and freshwater ecosystems,\r\nrequires integrating diverse datasets across disciplines, cultures, and political boundaries. Although Canada has invested\r\nsignificantly in research infrastructure, much of its environmental data continues to be fragmented and difficult to access. The\r\nCanadian Watershed Information Network (CanWIN) provides a decentralized open-access platform that fosters research collaboration and knowledge sharing. By implementing CARE and FAIR principles and best practices for data stewardship,\r\nCanWIN enables ethical and transparent data sharing, supporting reconciliation efforts with Indigenous communities and\r\nenhancing evidence-based decision-making in response to climate and environmental change. An example project in collaboration with the Manitoba Metis Federation is highlighted.\r\n\r\n**NOTE:** This is the accepted version of this publication. The final version includes an additional author - Lex duPlessis from Link Digital. \r\n\r\n\u00a9 2025 IEEE.  Personal use of this material is permitted.  Permission from IEEE must be obtained for all other uses, in any current or future media, including reprinting/republishing this material for advertising or promotional purposes, creating new collective works, for resale or redistribution to servers or lists, or reuse of any copyrighted component of this work in other works.", "num_resources": 1, "num_tags": 7, "organization": {"id": "9e21f6b6-d13f-4ba2-a379-fd962f507071", "name": "ceos", "title": "Centre for Earth Observation Science", "type": "organization", "description": "The Centre for Earth Observation Science (CEOS) was established in 1994 with a mandate to research, preserve and communicate knowledge of Earth system processes using the technologies of Earth Observation Science. Research is multidisciplinary and collaborative seeking to understand the complex interrelationships between elements of Earth systems, and how these systems will likely respond to climate change. Although researchers have worked in many regions, the Arctic marine system has always been a unifying focus of activity.\r\n\r\nIn 2012, CEOS, along with the Greenland Climate Research Centre (GCRC, Nuuk, Greenland) and the Arctic Research Centre (ARC, Aarhus, Denmark) established the Arctic Science Partnership, thereby integrating academic and research initiatives.\r\n\r\nAreas of existing research activity are divided among key themes:\r\n\r\nArctic Anthropology/Paleoclimatology: LiDAR scanning and digital site preservation, archaeo-geophysics, permafrost degredation, lithic morphometrics, zooarchaeology, proxy studies, paleodistribution of sea ice, landscape learning, Paleo-Eskimo culture, Thule Inuit culture, ethnographic analogy, traditional knowledge, climate change and northern heritage resource management.\r\n\r\nAtmospheric Studies/Meteorology: Boundary layer, precipitation, clouds, storms and extreme weather, circulation, eddy correlations, polar vortex, climate, teleconnections, geophysical fluid dynamics, flux and energy budgets, ocean-sea ice-atmosphere interface, radiative transfer, ice albedo feedback, cloud radiative forcing, pCO2. \r\n\r\nBiogeochemistry: Organic carbon, greenhouse gases, bubbles, Ikaite, carbonate chemistry, CO2 fluxes, mercury and other trace metals, minerals, hydrocarbons, brine processes, otolith microchemistry, sediments, biomarkers. \r\n\r\nContaminants: Mercury, trace metals, PAHs, source, transport, transformation, pathways, bioaccumulations, marine ecosystems, marine chemistry. \r\nEarth Observation Science: Active and passive microwave, LiDAR, EM induction, spatial-temporal analysis, forward and inverse scattering models, complex permittivity, ocean colour, ocean surface roughness, NIR, TIR, satellite telemetry, GPS. Ice-Associated Biology: Biophysical processes, primary production; ice algae, ice microbiology, bio-optics, under-ice phytoplankton. \r\n\r\nInland Lakes and Waters: Hydrologic connectivity, watershed systems, sediment transport, nutrient transport, contaminants, landscape processes, remote sensing, freshwater-marine coupling. Marine Mammals: Seals, whales, habitat, conservation, satellite telemetry, distribution, population studies, prey behaviour, bioacoustics.\r\n\r\nModelling: Simulation of sea ice and oceanic regional processes, Nucleus for European Modelling of the Ocean (NEMO), ice-ocean modelling and interactions, hind cast simulations and projections for sea ice state and ocean variables based on CMIP5 scenarios and MIROC5 forcing, validation.\r\n\r\nOceanography: Circulation, temperature, in-flow and out-flow shelves, water dynamics, microturbulence, Beaufort Gyre, eddy correlations.\r\n\r\nSea Ice Geophysics:Thermodynamic and dynamic processes, extreme ice features and hazards, snow, ridges, polynyas.\r\n\r\nTraditional and Local Knowledge: Indigenous cultures, Inuit, Inuvialuit, oral history, toponomy, mobility and settlement, hunting, food security, sea ice use, community-based research, community-based monitoring, two ways of knowing.", "image_url": "2021-11-13-003953.952874UMLogoHORZ.jpg", "created": "2017-07-21T13:15:49.935872", "is_organization": true, "approval_status": "approved", "state": "active"}, "owner_org": "9e21f6b6-d13f-4ba2-a379-fd962f507071", "private": false, "related_datasets": [], "related_programs": [], "rightsIdentifier": "other-closed", "rightsIdentifierScheme": "SPDX", "rightsSchemeURI": "https://spdx.org/licenses", "schemeURI": "", "state": "active", "subjectScheme": "", "theme": ["d5c57e39-a747-4085-ba9c-3cfb44f9d5ef", "8f8cd877-b037-4b1a-b928-f86d9e093741"], "title": "Building Capacity through Technology: CanWIN\u2019s Role in Supporting Indigenous Science", "type": "publication", "url": null, "version": null, "Author": [{"affiliation": "Centre for Earth Observation Science - University of Manitoba", "creatorName": "Herbert, Claire", "email": "claire.herbert@umanitoba.ca", "nameIdentifier": "0000-0003-2724-4200", "nameIdentifierScheme": "ORCID", "nameType": "Personal", "schemeURI": "http://orcid.org/"}, {"affiliation": "Centre for Earth Observation Science - University of Manitoba", "creatorName": "Chan,Wayne", "email": "wayne.chan@umanitoba.ca", "nameIdentifier": "", "nameType": "Personal"}, {"affiliation": "Centre for Earth Observation Science - University of Manitoba", "creatorName": "Campbell, Yanique", "email": "yanique.campbell@umanitoba.ca", "nameIdentifier": "", "nameType": "Personal"}, {"affiliation": "Centre for Earth Observation Science - University of Manitoba", "creatorName": "Dearborn, Victoria", "email": "victoria.dearborn@umanitoba.ca", "nameIdentifier": "", "nameType": "Personal"}, {"affiliation": "Centre for Earth Observation Science - University of Manitoba", "creatorName": "Isleifson, Dustin", "email": "dustin.isleifson@umanitoba.ca", "nameIdentifier": "0000-0002-9349-8076", "nameIdentifierScheme": "ORCID", "nameType": "Personal", "schemeURI": "http://orcid.org/"}], "resources": [{"cache_last_updated": null, "cache_url": null, "created": "2025-09-24T17:46:14.127058", "datastore_active": false, "datastore_contains_all_records_of_source_file": false, "description": "This is the accepted version of this paper. The Final submitted paper will be linked into this submission site when available.", "format": "PDF", "hash": "", "id": "12dcc704-1633-43c6-827f-71d6fceb1c53", "last_modified": "2025-09-24T17:46:14.042807", "metadata_modified": "2025-09-24T17:47:50.333463", "mimetype": "application/pdf", "mimetype_inner": null, "name": "Building Capacity through Technology: CanWIN\u2019s Role in Supporting Indigenous Science", "package_id": "b2f4d688-ebf8-4377-b21e-e4f2dc272a35", "position": 0, "resCategory": "documents", "resource_type": null, "size": 7098930, "state": "active", "url": "https://canwin-datahub.ad.umanitoba.ca/data/dataset/b2f4d688-ebf8-4377-b21e-e4f2dc272a35/resource/12dcc704-1633-43c6-827f-71d6fceb1c53/download/canwin_ieee_accepted_2025herbert-paper.pdf", "url_type": "upload"}], "tags": [{"display_name": "Climate Change", "id": "2e175042-13d0-463c-962b-904946e476df", "name": "Climate Change", "state": "active", "vocabulary_id": null}, {"display_name": "data portal", "id": "8a2c77d6-8fe9-4407-96ce-69b13bbc2906", "name": "data portal", "state": "active", "vocabulary_id": null}, {"display_name": "data sharing", "id": "08f6389d-3d42-4908-8b0c-3b504c04262c", "name": "data sharing", "state": "active", "vocabulary_id": null}, {"display_name": "environmental data", "id": "1c664fb6-d152-4839-b62d-c0754c493676", "name": "environmental data", "state": "active", "vocabulary_id": null}, {"display_name": "water governance", "id": "0d39bd21-1752-435a-8918-6e74db857367", "name": "water governance", "state": "active", "vocabulary_id": null}, {"display_name": "water management strategies", "id": "cd3e1cc6-ba43-4121-8204-037ac7cb6cd5", "name": "water management strategies", "state": "active", "vocabulary_id": null}, {"display_name": "water vulnerability", "id": "83177b35-9bad-4c3b-a161-c52628124371", "name": "water vulnerability", "state": "active", "vocabulary_id": null}], "groups": [], "relationships_as_subject": [], "relationships_as_object": []}}