katherine calvin ipcc

Science 333, 988993 (2011). 9, 28532880 (2016). Natl Acad. Katherine Calvin. K Calvin, B Bond-Lamberty, L Clarke, J Edmonds, J Eom, C Hartin, S Kim, . Change 5, 519527 (2015). Nat. Sellers Global Environmental Change Mid-Career Award, Eos, 101, https://doi.org/10.1029/2020EO140820. Get the most important science stories of the day, free in your inbox. EEP-02001 (Ecofys, 2004). Katherine Calvin - Wikiwand Meinshausen, M. et al. Im also honored to be the third awardee, following the amazing Jim Randerson and Markus Reichstein. Diese Seite wurde zuletzt am 13. Thank you, Corinne, for nominating me! Katherine Calvin Honored for Early Career Exceptional Achievement Fujimori, S. et al. Katherine Calvin, Pacific Northwest National Laboratory, College Park, Md. The IPCC calibrated language uses five qualifiers to express a level of confidence: very low, low, medium, high and very high, and typeset in italics, for example, medium confidence. Commun. Pathways for balancing CO2 emissions and sinks. Sci. Implications of possible interpretations of greenhouse gas balance in the Paris Agreement. Proc. Understanding the origin of Paris Agreement emission uncertainty. IAM data were provided and checked by S. Fujimori and T.H. Environ. Scott, V., Gilfillan, S., Markusson, N., Chalmers, H. & Haszeldine, R. S. Last chance for carbon capture and storage. Publishers note: Springer Nature remains neutral with regard to jurisdictional claims in published maps and institutional affiliations. Geosci. Environ. Nat. This motion harms LGBTQ people, harms the churchs witness, and naming this as confession will have disastrous consequences for people and institutions, said one delegate to the synod who voted against the motion. 11 (Cambridge Univ. Ciao, GetReligion: Thanks, all, for my tenure. Food consumption, diet shifts and associated non-CO2 greenhouse gases from agricultural production. (WITCH-GLOBIOM); all authors provided feedback and contributed to writing the paper. Emmerling, J. et al. Energy 2, 17140 (2017). Back in the spring, we did a GetReligion podcast that was accompanied by a post with this title: "What parents (and journalists) can learn from LGBTQ debates at Calvin. 9, 19371958 (2016). Forsell, N. et al. 308329 (ADVANCE). KATHERINE V. CALVIN - apps.ipcc.ch Global Environmental Change 42, 284-296, 2017. 6, 413510 (IPCC, Cambridge Univ. Terrestrial fluxes of carbon in GCP carbon budget. 2023 American Geophysical Union. We thank the International Institute for Applied Systems Analysis (IIASA) for hosting and maintaining the SSP Scenario Database of the Integrated Assessment Modelling Consortium (IAMC), and thank P. Kolp for his reliable support with the administration of and access to scenario data, and administration of the database infrastructure. Havlk, P. et al. Calvin war 2014 Hauptautorin des Kapitels Minderung des dritten National Climate Assessment der Vereinigten Staaten. Environ. https://doi.org/10.1038/s41558-018-0091-3. Change 42, 153168 (2017). Because they stay, and at great cost. Change 42, 284296 (2016). Smith, P. et al. SSP3: AIM implementation of Shared Socioeconomic Pathways. Lett. van Vuuren, D. P. et al. Id like to thank Tony Janetos for teaching me about land and the Earth system and steering me toward more interdisciplinary research; I will always be grateful for the chats I had with him on agriculture and the Global Change Assessment Model, and sports. Joeri Rogelj. Smith, P. et al. Open Access It . Change 42, 251267 (2017). led the study design with the help of E.S., J.R., A.P., D.v.V., A.C. and J.H., wrote the first draft, performed the analysis and created the figures; J.R. and E.S. Thus, its important to note her reaction to the CRC affirmation of small-o orthodoxy, as posted on her Substack page: LGBTQ in the CRC. Read carefully, since this is powerful material on multiple levels, especially in terms of what Calvin-influenced people are thinking on other campuses. Nat. ISSN 1758-6798 (online) Diagnostic indicators for integrated assessment models of climate policy. SpaceX. Change Biol. Seit Januar 2022 ist Calvin Chefwissenschaftlerin und Senior Climate Officer der NASA. Shared Socioeconomic Pathways - Wikipedia Grassi, G. et al. Social. F.N.T. Das Komitee wurde von der National Geospatial Intelligence Agency beauftragt, verschiedene Modelle fr miteinander verbundene globale Systeme wie Wirtschaft, Politik und Umwelt zu erstellen. Reconciling global-model estimates and country reporting of anthropogenic forest CO2 sinks. Land-use futures in the shared socio-economic pathways. Schneider von Deimling, T. et al. 1 Summary of the selected components of land CO, Make greenhouse-gas accounting reliable build interoperable systems, Realization of Paris Agreement pledges may limit warming just below 2C, The policy and ecology of forest-based climate mitigation: challenges, needs, and opportunities. Mrs. Koplin, 30, is an investigator at Kern . Emissions Gap Report 2019 (United Nations Environment Programme, 2019). Potapov, P. et al. Human-caused climate change is already affecting many weather and climate extremes in every region across the globe. Lett. & Knutti, R. Implications of potentially lower climate sensitivity on climate projections and policy. 8, 035019 (2013). van Vuuren, D. P. et al. van Vuuren, D. P. et al. Rabbi Daniel Alder officiated at the Metropolitan Club. The 123-53 voteatCalvinUniversity in Grand Rapids, Michigan, caps a process begun in 2016 when a previous synod voted to form a study committee to bring a report on the biblical theology of sexuality. With that in mind, its time for this weeks Crossroads episode (CLICK HERE to tune that in), which offers an update on Calvin and tensions inside its denomination, care of a Religion News Service story with this headline: Christian Reformed Church codifies homosexual sex as sin in its declaration of faith. Actually, if you read carefully, the CRC affirmed 2,000 years of Christian teaching that (a) sex outside of marriage is a sin and (b) Christian marriages unite a man and a women. The marker quantification of the Shared Socioeconomic Pathway 2: a middle-of-the-road scenario for the 21st century. Plug-In: Updates on faith angles in America's post-Roe cultural landscape, Five big takeaways from the Southern Baptist Convention's 2023 annual meeting. ISSN 1758-678X (print). Phys. F.H. Glob. Schelhaas, M. J. et al. Clarke, L. et al. Carbon benefits from forest transitions promoting biomass expansions and thickening. Katherine Calvin is an earth scientist at the Joint Global Change Research Institute (JGCRI). Provided by the Springer Nature SharedIt content-sharing initiative, npj Climate and Atmospheric Science (2023), Nature Climate Change (Nat. Smith, P. et al. Clim. People, land and climate in a warming world, Adaptation and mitigation response options, Status and dynamics of the (global) land system, 1.1.2.1 Land ecosystems and climate change, Current patterns of land use and land cover, Key challenges related to land use change, Land system change, land degradation, desertification and food security, Food security, food systems and linkages to land-based ecosystems, Progress in dealing with uncertainties in assessing land processes in the climate system, Concepts related to risk, uncertainty and confidence, Nature and scope of uncertainties related to land use, Targeted decarbonisation relying on large land-area need, Economics of land-based mitigation pathways: Costs versus benefits of early action under uncertainty, Adaptation measures and scope for co-benefits with mitigation, Gender agency as a critical factor in climate and land sustainability outcomes, Rights-based instruments and customary norms, The interdisciplinary nature of the SRCCL, Recap of previous IPCC and other relevant reports as baselines, The effect of climate variability and change on land, Climate drivers of land form and function, Changes in global land surface air temperature, The influence of climate change on food security, Climate-driven changes in terrestrial ecosystems, Climate extremes and their impact on land functioning, Changes in extreme temperatures, heatwaves and drought, Impacts of heat extremes and drought on land, Impacts of precipitation extremes on different land cover types, Greenhouse gas fluxes between land and atmosphere, The total net flux of CO2 between land and atmosphere, Separation of the total net land flux into AFOLU fluxes and the land sink, Gross emissions and removals contributing to AFOLU emissions, Gross emissions and removals contributing to the non-anthropogenic land sink, Potential impact of mitigation on atmospheric CO, Emissions and impacts of short-lived climate forcers (SLCF) from land, Mineral dust as a short-lived climate forcer from land, Effects of past climate change on dust emissions and feedbacks, Carbonaceous aerosol precursors of short-lived climate forcers from land, Effects of past climate change on carbonaceous aerosols emissions and feedbacks, Future changes of carbonaceous aerosol emissions, BVOC precursors of short-lived climate forcers from land, Historical changes of BVOCs and contribution to climate change, Land impacts on climate and weather through biophysical and GHG effects, Impacts of historical and future anthropogenic land cover changes, Impacts of global historical land cover changes on climate, Impacts of future global land cover changes on climate, Amplifying/dampening climate changes via land responses, Effects of changes in land cover and productivity resulting from global warming, Feedbacks to climate from high-latitude land-surface changes, Feedbacks related to changes in soil moisture resulting from global warming, Non-local and downwind effects resulting from changes in land cover, Climate impacts of individual response options, Bioenergy and bioenergy with carbon capture and storage, Demand management in the food sector (diet change, waste reduction), Integrated pathways for climate change mitigation, The contribution of response options to the Paris Agreement, Plant and soil processes underlying landclimate interactions, Temperature responses of plant and ecosystem production, Water transport through soil-plant-atmosphere continuum and drought mortality, Soil microbial effects on soil nutrient dynamics and plant responses to elevated CO2, Vertical distribution of soil organic carbon, Soil carbon responses to warming and changes in soil moisture, Soil carbon responses to changes in organic matter inputs by plants, Desertification in previous IPCC and related reports, Dryland populations: Vulnerability and resilience, Processes and drivers of desertification under climate change, Processes of desertification and their climatic drivers, Anthropogenic drivers of desertification under climate change, Interaction of drivers: Desertification syndrome versus drylands development paradigm, Changes in vegetation and greenhouse gas fluxes, Desertification impacts on natural and socio-economic systems under climate change, Impacts on natural and managed ecosystems, Impacts on ecosystems and their services in drylands, Impacts on biodiversity: Plant and wildlife, Impacts on food and nutritional insecurity, Impacts on human health through dust storms, Impacts on energy infrastructure through dust storms, Impacts on transport infrastructure through dust storms and sand movement, Future vulnerability and risk of desertification, Responses to desertification under climate change, SLM technologies and practices: On-the-ground actions, Combating sand and dust storms through sand dune stabilisation, Use of halophytes for the re-vegetation of saline lands, Socio-economic responses for combating desertification under climate change, Socio-economic responses for economic diversification, Policy responses towards combating desertification under climate change, Policy responses supporting economic diversification, Limits to adaptation, maladaptation, and barriers for mitigation, Soil erosion under changing climate in drylands, No-till practices for reducing soil erosion in central Chile, Combating wind erosion and deflation in Turkey: The greening desert of Karapnar, Soil erosion in Central Asia under changing climate, The experiences of combating desertification in China, The Great Green Wall of the Sahara and the Sahel Initiative, Oases in hyper-arid areas in the Arabian Peninsula and northern Africa, Land degradation in previous IPCC reports, Sustainable land management (SLM) and sustainable forest management (SFM), The human dimension of land degradation and forest degradation, Land degradation in the context of climate change, Land degradation processes and climate change, Attribution in the case of land degradation, Indirect and complex linkages with climate change, Status and current trends of land degradation, Projections of land degradation in a changing climate, Changes in water erosion risk due to precipitation changes, Climate-induced vegetation changes, implications for land degradation, Impacts of bioenergy and technologies for CO2 removal (CDR) on land degradation, Potential scale of bioenergy and land-based CDR, Risks of land degradation from expansion of bioenergy and land-based CDR, Potential contributions of land-based CDR to reducing and reversing land degradation, Traditional biomass provision and land degradation, Impacts of climate-related land degradation on poverty and livelihoods, Relationships between land degradation, climate change and poverty, Impacts of climate-related land degradation on food security, Impacts of climate-related land degradation on migration and conflict, 4.8 Addressing land degradation in the context of climate change, 4.8.1 Actions on the ground to address land degradation, 4.8.1.1 Agronomic and soil management measures, Croplivestock interaction as an approach to managing land degradation, Local and indigenous knowledge for addressing land degradation, Reducing deforestation and forest degradation and increasing afforestation, Sustainable forest management (SFM) and CO2 removal (CDR) technologies, Barriers to implementation of sustainable land management (SLM), Perennial grains and soil organic carbon (SOC), Reversing land degradation through reforestation, South Korea case study on reforestation success, China case study on reforestation success, Role of biochar in climate change mitigation, Role of biochar in management of land degradation, Management of land degradation induced by tropical cyclones, Food security and insecurity, the food system and climate change, Food security as an outcome of the food system, Effects of climate change on food security, Status of the food system, food insecurity and malnourishment, Food systems in AR5, SR15, and the Paris Agreement, Impacts of climate change on food systems, Climate drivers important to food security, Climate change impacts on food availability, Climate change impacts on food utilisation, Adaptation options, challenges and opportunities, Autonomous, incremental, and transformational adaptation, Aquaculture, fisheries, and agriculture interactions, Impacts of food systems on climate change, Greenhouse gas emissions from food systems, Greenhouse gas emissions from croplands and soils, Greenhouse gas emissions from aquaculture, 5.4.5 Greenhouse gas emissions from inputs, processing, storage and transport, Greenhouse gas emissions associated with different diets, Mitigation options, challenges and opportunities, Greenhouse gas mitigation in croplands and soils, Greenhouse gas mitigation in livestock systems, Greenhouse gas mitigation in agroforestry, Integrated approaches to crop and livestock mitigation, Uncertainties in demand-side mitigation potential, Food loss and waste, food security, and land use, Mitigation, adaptation, food security and land use: Synergies, trade-offs and co-benefits, Land-based carbon dioxide removal (CDR) and bioenergy, Mitigation, food prices, and food security, Environmental and health effects of adopting healthy and sustainable diets. Katherine Calvin (* 20. & Fischer, E. M. A scientific critique of the two-degree climate change target. Jones, C. D. et al. IPCC's Fifth Assessment Report (AR5), the WGI and WGII contributions to AR6 and the three Special Reports in the Sixth Assessment cycle,3 as well as other UN assessments. Fricko, O. et al. International Institute for Applied Systems Analysis (IIASA), Laxenburg, Austria, Joeri Rogelj,Shinichiro Fujimori,Tomoko Hasegawa,Volker Krey,Keywan Riahi,Oliver Fricko&Petr Havlk, Institute for Atmospheric and Climate Science, ETH Zurich, Zurich, Switzerland, Potsdam Institute for Climate Impact Research (PIK), Member of the Leibniz Association, Potsdam, Germany, Alexander Popp,Gunnar Luderer,Jessica Strefler,Elmar Kriegler&Florian Humpender, Joint Global Change Research Institute, Pacific Northwest National Laboratory, College Park, MD, USA, Fondazione Eni Enrico Mattei, Milan, Italy, Johannes Emmerling,Giacomo Marangoni,Laurent Drouet&Massimo Tavoni, Centro Euro-Mediterraneo sui Cambiamenti Climatici, Milan, Italy, PBL Netherlands Environmental Assessment Agency, The Hague, The Netherlands, David Gernaat,Detlef P. van Vuuren,Jonathan Doelman,Mathijs Harmsen&Elke Stehfest, Copernicus Institute for Sustainable Development, Utrecht University, Utrecht, The Netherlands, David Gernaat,Detlef P. van Vuuren&Mathijs Harmsen, National Institute for Environmental Studies, Tsukuba, Japan, Department of Management, Economics and Industrial Engineering, Politecnico di Milano, Milan, Italy, You can also search for this author in C4MIPthe Coupled Climate-Carbon Cycle Model Intercomparison Project: experimental protocol for CMIP6. Nature 463, 747756 (2010). Press). Glob. Energy system transformations for limiting end-of-century warming to below 1.5C. What is his theology? 10, 074001 (2015). Nature Climate Change Adjusted cumulative emissions over the period until net zero for 1.5 or 2C limits are reduced by 120192GtCO2 relative to the original IAM pathways. Carbon Balance and Management Can dietary shifts provide significant benefits? Sellers Global Environmental Change Mid-Career Award this year. Shared Socio-Economic Pathways of the energy sector quantifying the narratives. LPJmL4a dynamic global vegetation model with managed land: Part IImodel evaluation. PDF Climate Change 2022 - ReliefWeb Sci. van Vuuren, D. et al. Technol. ; E.S. supported by G.C. Almut Arneth (Germany), Humberto Barbosa (Brazil), Tim Benton (United Kingdom), Katherine Calvin (The United States of America), Eduardo Calvo (Peru), Sarah Connors (United Kingdom), . Change 42, 251267 (2017). The PRIMAP-hist national historical emissions time series. Here we present a Rosetta stone adjustment to translate IAMs land-use mitigation pathways to estimates more comparable with GHG inventories. Similarly, from the other side, I hear people question why on earth LGBTQ folks would stay in places where theyre not welcome. PDF ATTACHMENT HH - Department of Energy Open Access articles citing this article. Gernaat, D. E. H. J. et al. Glob. (MESSAGE-GLOBIOM), J.S., F.H., A.P., G.L., E.K. in IPCC Special Report on Global Warming of 1.5C (eds Masson-Delmotte, V. et al.) Kates diverse background and skills make her an ideal person to lead these efforts. & House, J. I. Terminology as a key uncertainty in net land use and land cover change carbon flux estimates. Change 33, 142153 (2015). refined the draft paper, along with A.P., D.v.V., G.-J.N. Model Dev. 36 p. This Synthesis Report (SYR) of the IPCC Sixth Assessment Report (AR6) summarises the state of knowledge of climate change, its widespread impacts and risks, and climate change mitigation and adaptation. (IPCC)-Sonderberichte. PDF 6 Assessing Transformation Pathways - IPCC Scenarios towards limiting global mean temperature increase below 1.5 C. Ogle, S. M. et al. Clim. Bioenergy and climate change mitigation: an assessment. 2019 trug sie zum IPCC-Sonderbericht ber Klimawandel und Landsysteme bei. The views expressed are purely those of the writers and may not under any circumstances be regarded as stating an official position of the European Commission, FAO or any other institution. Model Dev. Yang Ou, Christopher Roney, Katherine Calvin, Jae Edmonds, Page Kyle, Kanishka Narayan, Patrick O'Rourke, Pralit Patel, Steven J. Smith .