1,823,813 research outputs found

    D5.6. Annual CONSTRAIN report 1 on adaptation and mitigation choices

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    <p><strong>Work Package:</strong> WP5</p><p><strong>Deliverable number:</strong> D5.6</p><p><strong>Deliverable title:</strong> Annual CONSTRAIN report 1 on adaptation and mitigation choices</p><p><strong>Cite as:</strong></p><p>CONSTRAIN, 2019: ZERO IN ON the remaining carbon budget and decadal warming rates. The CONSTRAIN Project Annual Report 2019. DOI: <a href="https://doi.org/10.5281/zenodo.10159679">10.5281/zenodo.10159679</a>.</p&gt

    D5.9. Annual CONSTRAIN report 4 on adaptation and mitigation choices

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    <p><strong>Work Package:</strong> WP5</p><p><strong>Deliverable number:</strong> D5.9</p><p><strong>Deliverable title:</strong> Annual CONSTRAIN report 4 on adaptation and mitigation choices</p><p><strong>Cite as:</strong></p><p>CONSTRAIN, 2022: ZERO IN ON The Critical Decade: Insights from the latest IPCC reports on the Paris Agreement, 1.5°C, and climate impacts. The CONSTRAIN Project Annual Report 2022. DOI: <a href="https://doi.org/10.5281/zenodo.10159742">10.5281/zenodo.10159742</a>.</p&gt

    D5.8. Annual CONSTRAIN report 3 on adaptation and mitigation choices

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    <p><strong>Work Package:</strong> WP5</p><p><strong>Deliverable number:</strong> D5.8</p><p><strong>Deliverable title:</strong> Annual CONSTRAIN report 3 on adaptation and mitigation choices</p><p><strong>Cite as:</strong></p><p>CONSTRAIN, 2021: ZERO IN ON: Near-term warming and our chances of staying within 1.5°C. The CONSTRAIN Project Annual Report 2021. DOI: <a href="https://doi.org/10.5281/zenodo.10159718">10.5281/zenodo.10159718</a>.</p&gt

    D5.11. Stakeholder driven and bespoke communication tools for general audience (e.g. graphic novel) on near term climate change

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    <p><strong>Work Package:</strong> WP5</p><p><strong>Deliverable number:</strong> D5.11</p><p><strong>Deliverable title:</strong> Stakeholder driven and bespoke communication tools for general audience (e.g. graphic novel) on near term climate change</p><p><strong>Short summary:</strong></p><ul><li>A graphic novel highlighting key messages around near-term climate change and the significance of the 1.5°C warming limit has been developed in collaboration with Darryl Cunningham, an award-winning cartoonist. A further piece of artwork has been completed by the graphic artists War and Peas, and another short graphic novel is still being developed for CONSTRAIN by artist Sayra Begum.</li><li>We plan to launch all three pieces simultaneously at the Lakes Comic Art Festival, along with a side event with the artists and various communications including a press release for the comic industry. Presence at one other comic festival is also planned, and a marketing strategy is being put in place to maximise the reach of the final products.</li></ul><p><strong>Cite as:</strong></p><p>CONSTRAIN, 2023. Degrees of Change: A Climate Comic. The CONSTRAIN Project. DOI: <a href="https://doi.org/10.5281/zenodo.10159810">10.5281/zenodo.10159810</a>.</p&gt

    D5.9. Annual CONSTRAIN report 4 on adaptation and mitigation choices

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    <p>The annual ZERO IN reports by the CONSTRAIN project provide information on scientific topics that are fundamental to the Paris Agreement, as well as background and context on new developments at the science-policy interface. This includes new insights into the complex processes represented in climate models and what they mean for temperature change and other climate impacts over the coming decades.</p> <p>This third report provides additional context and background on the latest IPCC report on the physical science basis of climate change (IPCC AR6 WGI)1 , and addresses important questions around how likely we are to reach 1.5°C of global temperature increase.</p&gt

    D5.10. Final CONSTRAIN summary input into the global stocktake

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    <p><strong>Work Package:</strong> WP5</p><p><strong>Deliverable number:</strong> D5.10</p><p><strong>Deliverable title:</strong> Final CONSTRAIN summary input into the global stocktake</p><p><strong>Short summary:</strong></p><ul><li>Continuous delay of stringent climate mitigation increases the possibility of an at least temporary exceedance of the 1.5°C limit of the Paris Agreement. In addition, substantial uncertainties remain regarding the exact temperature trajectories and potential reversibility of overshoots.</li><li>As part of international efforts to enhance action and increase ambition, CONSTRAIN has developed this submission to the first Global Stocktake jointly with the ESM2025 and PROVIDE projects. It considers the implications of a temporary temperature overshoot for mitigation, adaptation, and Loss and Damage, based on the latest scientific evidence. This includes, for example, consequences of increased extreme events and associated damages. The submission draws on the four CONSTRAIN Zero In reports as well as wider scientific contributions from across the CONSTRAIN consortium</li></ul><p><strong>Cite as:</strong></p><p>Nauels A., Kloenne U., Séférian R., Rogelj J. 2023. The risks of temperature overshoot: Submission to the first Global Stocktake. The CONSTRAIN Project. DOI: <a href="https://doi.org/10.5281/zenodo.10159774">10.5281/zenodo.10159774</a>.</p&gt

    D1.5. Short report on main outcomes and participating organisations of the workshop on understanding of rapid adjustment processes

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    <p><strong>Work Package:</strong> WP1</p><p><strong>Deliverable number:</strong> D1.5</p><p><strong>Deliverable title:</strong> Short report on main outcomes and participating organisations of the workshop on understanding of rapid adjustment processes</p><p><strong>Cite as:</strong></p><p>J. Quaas. 2022. CONSTRAIN Workshop on rapid adjustment: Workshop Report. The CONSTRAIN Project. DOI: <a href="https://doi.org/10.5281/zenodo.10124964">10.5281/zenodo.10124964</a>.</p&gt

    D1.2. Short report on main outcomes and participating organisations of the workshop on aerosol-cloud interactions

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    <p><strong>Summary:</strong></p><p>The Volcanic Aerosol-Cloud Interactions workshop, held at the Met Office in Exeter on the 25th - 26th April 2022, brought together scientists from both CONSTRAIN and the wider community to discuss modelled and observed aerosol-cloud interactions (ACI) perturbed by volcanic eruptions. The workshop hosted 19 participants from 9 organisations and consisted of 9 presentations varying in length from 15 to 45 minutes. These talks focused on improving our understanding of small- and large-scale ACI using both inter-model comparison and machine learning approaches.</p><p>The main aims of the workshop were: a) Assess current progress on utilising observations of volcanic eruptions to quantify aerosol-cloud interactions and model errors, b) Gather updates on the progress of current and future publications, c) Identify common elements between works which can be utilised to further them, d) Identify opportunities for future collaboration.</p><p>When complete, these results will be used to inform the CONSTRAIN community of the ability of models to replicate ACI interactions and to investigate whether this approach can be used to refine estimates of climate sensitivity.</p><p><strong>Cite as:</strong></p><p>Jordan G. and Haywood J. 2022. Volcanic Aerosol-Cloud Interactions Workshop Report. The CONSTRAIN Project. DOI: <a href="https://doi.org/10.5281/zenodo.10124612">10.5281/zenodo.10124612</a>.</p&gt

    D5.12. Online interactive infographics created such as the Climate Action Tracker, but targeting both adaptation and mitigation decisions

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    <p><strong>Work Package:</strong> WP5</p><p><strong>Deliverable number:</strong> WP5.12</p><p><strong>Deliverable title:</strong> Online interactive infographics created such as the Climate Action Tracker, but targeting both adaptation and mitigation decisions</p><p><strong>Short summary:</strong></p><ul><li>CONSTRAIN has worked with the Climate Change Tracker (https://climatechangetracker.org/) to develop a platform hosting a range of publicly available climate data. Although primarily aimed at policymakers involved in UNFCCC negotiations, this aims to provide a range of audiences with a reliable, user-friendly means of tracking and understanding climate change and its progression, placing several updated IPCC-consistent indicators of climate change in the public domain.</li><li>The dashboard initially focuses on three key indicator sets: greenhouse gas emissions, human-induced global warming, and the remaining global carbon budget, bringing together and presenting up-to-date information crucial to effective climate decision-making in a findable, accessible, traceable and reproducible way.</li><li>The dashboard provides further information on each indicator and also provides standardised application programming interfaces (APIs) and charts to embed in third-party apps and websites. In time, and with feedback from the user community, the initial set of indicators displayed by the dashboard may be expanded to include others alongside their rates of change.</li><li>Further work by CONSTRAIN, in partnership with Carbon Brief, is also producing infographics aimed at sharing understanding of how different emissions pathways will affect our chances of staying within 1.5°C global warming. We expect this to be completed in time for the COP28 summit.</li><li>See: <a href="https://climatechangetracker.org/igcc">https://climatechangetracker.org/igcc</a></li></ul><p><strong>Cite as:</strong></p><p>Schleussner C. 2023. Climate Change Tracker. The CONSTRAIN Project. Available at: <a href="https://climatechangetracker.org/igcc">https://climatechangetracker.org/igcc</a>.</p&gt

    D2.2. Short report on main outcomes and participating organisations of the workshop on frameworks for characterizing mesoscale organisation of shallow convection

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    <p><strong>Work Package:</strong> WP2</p><p><strong>Deliverable number:</strong> D2.2</p><p><strong>Deliverable title:</strong> Short report on main outcomes and participating organisations of the workshop on frameworks for characterizing mesoscale organisation of shallow convection</p><p><strong>Cite as:</strong></p><p>Stevens B., Bony S. and Siebesma P. 2021. Framework for characterizing mesoscale organisation of shallow convection. The CONSTRAIN Project. DOI: <a href="https://doi.org/10.5281/zenodo.10125097">10.5281/zenodo.10125097</a>.</p&gt
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