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| BelongsToComponent | HasAltTitle | HasCaption | HasFigureType | HasPageName | |
|---|---|---|---|---|---|
| 002g ind16 CP | Climate policy | Regional and global abatement costs for NDCs | Policy intervention figure | File:002g ind16.png | |
| Baseline figure Agricultural economy | Agricultural economy | Global agricultural production and areas per region | Food availability measured in kcal per capita per day available for consumption, for initial situation (2010) and for the SSP scenarios (2100), globally and by region. (van Meijl et al., 2020b) | Baseline figure | File:Ercab7abaf2 hr.jpg |
| Baseline figure Air pollution and energy policies | Air pollution and energy policies | Global household access to modern fuels for cooking and heating under a baseline scenario | A few key indicators show the trends for energy security, access, air pollution under a baseline scenario. | Baseline figure | File:129x img13.png |
| Baseline figure Aquatic biodiversity | Aquatic biodiversity | Aquatic Mean Species Abundance under a baseline scenario | In a baseline scenario, aquatic biodiversity is projected to decrease further. | Baseline figure | File:102x img13.png |
| Baseline figure Atmospheric composition and climate | Atmospheric composition and climate | Greenhouse gas emissions, CO2 concentration, temperature increase and radiative forcing under baseline and climate policy scenarios | In the policy scenarios, emissions decrease strongly after 2020, while concentration levels only decrease or stabilise after 2050. Global mean temperature, due to inertia in the climate system, will not stabilise until the end of this century under the most ambitious climate policy scenario (2.6 W/m2). | Baseline figure | File:091x img13.png |
| Baseline figure Carbon cycle and natural vegetation | Carbon cycle and natural vegetation IMAGE framework summary/Earth system | Cumulative terrestrial carbon flux of long-term climate scenarios | Cumulative terrestrial carbon flux of long-term climate scenarios (Müller et al., 2016) | Baseline figure | File:600px 075g img13.png |
| Baseline figure Climate policy | Climate policy | Greenhouse gas emissions under baseline scenarios and pledges, for Brazil | The national projection is from the National Decree No. 7390, and the WEO 2010 projection is from the World Energy Outlook (2010) of International Energy Agency. | Baseline figure | File:122x img13.png |
| Baseline figure Crops and grass | Crops and grass | Relative change in decadal mean production according to the GGC models, with and without CO2 fertilization effect | The effect of climate change on crop yields strongly depends on the effect of CO2 fertilisation, also represented in LPJmL. Lines show means across several climate scenarios; adopted from Rosenzweig et al. (2014). | Baseline figure | File:078x img13.png |
| Baseline figure Drivers | Drivers | Population under the OECD baseline and SSP scenarios | The total global population is projected to peak and then decline in the coming century, except under the high-end assumptions (SSP3). By 2100, the population may range between the current and twice as many as in 2000 in the SSPs. The OECD Outlook assumes an intermediate population growth trajectory, close to the medium population SSP scenarios. | Baseline figure | File:142g img13.png |
| Baseline figure Ecosystem services | Ecosystem services | Numder of the seven ecosystem services sufficiently suppled, 2000 | Assessing how many of the 7 ecosystem services addressed in IMAGE (food, water, Carbon sequestration, erosion protection, pollination, pest control, flood protection, tourism) can be sufficiently supplied allows to identify hotspots of losses in ecosystem services. | Baseline figure | File:115k img13.png |
| Baseline figure Emissions | Emissions | Gloval greenhouse gas emissions and temperature changes under a baseline scenario | Future greenhouse gas emissions are mostly driven by an increase in energy use, while the relative contribution of land-use related emissions is projected to decrease. | Baseline figure | File:171x img13.png |
| Baseline figure Energy conversion | Energy conversion | Electricity production, per energy carrier under a baseline scenario | Increase in primary energy demand for electricity production is dominated by coal, despite a rapid growth of renewable energy. | Baseline figure | File:029g img13.png |
| Baseline figure Energy demand | Energy demand | Global final energy demand under a baseline scenario | Between 2010 and 2050 energy demand for transport and industry, and for natural gas and electricity contribute most to the overall increase. | Baseline figure | File:023x img13.png |
| Baseline figure Energy supply | Energy supply | Energy production per region under a baseline scenario | Over time the share of most important energy producers for different forms of energy changes. This has implications for energy security. | Baseline figure | File:036x img13.png |
| Baseline figure Flood risks | Flood risks | Flood-related damage in Bangladesh, 30-year event, based on the historic climate (1961-1990) | Inundation depth of 30-year flood scaled down to Bangladesh (left); The estimated annual damage due to floods (not only due to a 30-year event) is more concentrated when applying the land-use method compared to the population method. | Baseline figure | File:107x img13.png |
| Baseline figure Forest management | Forest management | Forest and forestry | Areas of managed forest are projected to increase in the coming decades; improved forest management, especially forest plantations, could limit the area required for wood production. | Baseline figure | File:054x img13.png |
| Baseline figure Human development | Human development | Child mortality under a baseline scenario, per cause, per region | Under a baseline scenario, the global under-five mortality rates will only reach the level of the Millenium Development goals by 2050. | Baseline figure | File:118x img13.png |
| Baseline figure IMAGE framework introduction | Human development indicators under the baseline scenario | The baseline scenario also shows a decline in population without access to safe drinking water, sanitation and modern energy. In all cases, the improvement is too slow compared to policy ambitions. | File:017x img13.png | ||
| Baseline figure Land degradation | Land degradation | Water erosion sensitivity of global land areas under baseline and sustainability scenarios | Under baseline conditions, the risk of high and very high water-induced erosion increases strongly up until 2050. Under the sustainability scenario (PBL, 2012), most of the increase under the baseline scenario is avoided by the combined effect of less land conversion and less climatic change. | Baseline figure | File:163g img13.png |
| Baseline figure Land-use allocation | Land-use allocation | Distribution of land systems | Natural land conversion in selected SSP scenarios for the 2020-2100 period (van Vuuren et al., 2021) | Baseline figure | File:Capture.PNG |
| Baseline figure Livestock systems | Livestock systems | Global grass consumption under a baseline scenario | Despite a shift towards compound feed, global grass consumption in livestock systems is projected to increase (PBL, 2012). | Baseline figure | File:063g img13.png |
| Baseline figure Nutrients | Nutrients | Soil nitrogen budget per region | The nitrogen soil budgets in Northern America, Europe, Russia and Central Asia, Japan and Oceania are stable or decreasing after 2005, they are projected to strongly increase in many other regions in a baseline scenario. | Baseline figure | File:147g img13.png |
| Baseline figure Terrestrial biodiversity | Terrestrial biodiversity | Pressures driving global biodiversity loss under a baseline scenario | Land-use change and encroachment are projected to remain the most important drivers of biodiversity loss, but climate change will also become a significant pressure. | Baseline figure | File:099g img13.png |
| Baseline figure Water | Water | Global water demand and water stress under a baseline scenario | As a result of increasing water demand and climate change, the number of people living under water stress is projected to increase (top, OECD 2012), and more regions might face a reduction in crop production due to irrigation water shortage (bottom, Biemans 2012). | Baseline figure | File:082x img13.png |
| Baseline figure Water II | IMAGE framework summary/Earth system | Regions vulnerable to crop production losses due to irrigation water shortage | Regions vulnerable to crop production losses due to shortages in irrigation water (Biemans, 2012). | Baseline figure | File:084k img13.png |
| Big Flowchart | the complete framework flowchart | The Big Flowchart provides an overview of the IMAGE framework, its model components, drivers, variables and data flows. | Flowchart | File:BigFlowchart.png | |
| Core model venn diagram | Computer models overview | Venn diagram core model | Venn diagram of models used in IMAGE framework | Other type of figure | File:Core model.png |
| ElementSummary Description | Detailed description page example | Summary of elements in Detailed description page | Other type of figure | File:Description v2.png | |
| ElementSummary Introduction | Introduction page example | Summary of elements in Introduction page | Other type of figure | File:Introduction v2.png | |
| ElementSummary Policy Issues | Policy issues page example | Summary of elements in Policy issues page | Other type of figure | File:PolicyIssues v2.png | |
| ElementSummary References | All reference page example | Summary of elements in All reference page | Other type of figure | File:References v2.png | |
| ElementSummary Uncertainties | Data uncertainties and limitations page example | Summary of elements in Data uncertainties and limitations page | Other type of figure | File:Uncertainties v2.png | |
| Figure1 IMAGE framework introduction | IAM models distinguished by their level of detail in economic aspects (horizontal) and biophysical/technical aspects (vertical ). | IAM models distinguished by their level of detail in economic aspects (horizontal) and biophysical/technical aspects (vertical ). | Other type of figure | File:002s img13.png | |
| Figure1 IMAGE framework summary | Summary of framework figure1 | Trends in population and income. | Other type of figure | File:007x img13.png | |
| Figure2 IMAGE framework summary | Energy supply and demand | Global primary energy supply in baseline and sustainability scenarios | Trends in world energy use, with and without climate policy. | Other type of figure | File:009x img13.png |
| Figure3 IMAGE framework summary | Global primary energy supply in baseline and sustainability scenarios | Trends in world energy use, with and without climate policy. | Other type of figure | File:011x img13.png | |
| Figure4 IMAGE framework summary | Global geenhouse gas emissions and temperature changes | Changes in emissions under baseline (trend scenario) and 2ºC scenario (challenge pathways) | Other type of figure | File:013x img13.png | |
| Figure6 IMAGE framework summary | Human development indicators in baseline scenario | Human development indicators | Other type of figure | File:017x img13.png | |
| Flowchart Agricultural economy | Agricultural economy | MAGNET- the agro-economic model in IMAGE 3.0 | Flowchart Agricultural economy. See also the Input/Output Table on the introduction page. | Flowchart | File:045x img13.png |
| Flowchart Air pollution and energy policies | Air pollution and energy policies | Linkages between goals and measures for energy access, energy security, climate change and air pollution | Flowchart Air pollution and energy policies. Linkages between components of the IMAGE system, energy policy objectives and possible policy measures. | Flowchart | File:128s img13.png |
| Flowchart Aquatic biodiversity | Aquatic biodiversity | GLOBIO model for aquatic ecosystems | Flowchart Aquatic biodiversity. See also the Input/Output Table on the introduction page. | Flowchart | File:101s img13.png |
| Flowchart Atmospheric composition and climate | Atmospheric composition and climate | Atmospheric composition and climate model (based on MAGICC 6.0) in IMAGE 3.0 | Flowchart Atmospheric composition and climate. See also the Input/Output Table on the introduction page. | Flowchart | File:090s img13.png |
| Flowchart Carbon cycle and natural vegetation | Carbon cycle and natural vegetation | Carbon cycle and natural vegetation module of LPJmL, in IMAGE 3.0 | Flowchart Carbon cycle and natural vegetation. See also the Input/Output Table on the introduction page. | Flowchart | File:073s img13.png |
| Flowchart Climate policy | Climate policy | FAIR, the climate policy model in IMAGE 3.0 | Flowchart Climate policy. See also the Input/Output Table on the introduction page. | Flowchart | File:121s img13.png |
| Flowchart Crops and grass | Crops and grass | Crop and grass module of LPJmL, in IMAGE 3.0 | Flowchart Crops and grass. See also the Input/Output Table on the introduction page. | Flowchart | File:077s img13.png |
| Flowchart Drivers | Drivers | Scenario development and model drivers for IMAGE 3.0 | Flowchart Drivers. Model drives are inferred from scenario storylines taking into account external data sources, such as time series, cross-sector data, and literature sources. | Flowchart | File:020s img13.png |
| Flowchart Ecosystem services | Ecosystem services | Ecosystem Services model in IMAGE 3.0 | Flowchart Ecosystem services. See also the Input/Output Table on the introduction page. | Flowchart | File:114s img13.png |
| Flowchart Emissions | Emissions | Emission module of IMAGE 3.0 | Flowchart Emissions. See also the Input/Output Table on the introduction page. Anthropogenic sources, for natural sources see Table 5.2.2. More detail on inputs and outputs, and how they link to other IMAGE components is presented at the end of this section (Emission table). | Flowchart | File:148s img13.png |
| Flowchart Energy conversion | Energy conversion | TIMER model, electricity module | Flowchart Energy conversion. See also the Input/Output Table on the introduction page. | Flowchart | File:028s img13.png |
| Flowchart Energy demand | Energy demand | TIMER model, energy demand module | Some sectors are represented in a generic way as shown here, the sectors transport, residential and heavy industry are modelled in specific modules. | Flowchart | File:022s img13.png |
| ... further results | |||||
| FrameworkElementType | |
|---|---|
| Agricultural economy | pressure component |
| Air pollution and energy policies | response component |
| Aquatic biodiversity | impact component |
| Atmospheric composition and climate | state component |
| Carbon cycle and natural vegetation | state component |
| Climate policy | response component |
| Crops and grass | state component |
| Drivers | driver component |
| Ecosystem services | impact component |
| Emissions | interaction component |
| Energy conversion | pressure component |
| Energy demand | pressure component |
| Energy supply | pressure component |
| Flood risks | impact component |
| Forest management | pressure component |
| Human development | impact component |
| Land and biodiversity policies | response component |
| Land cover and land use | interaction component |
| Land degradation | impact component |
| Land-use allocation | pressure component |
| Livestock systems | |
| Nutrients | state component |
| Terrestrial biodiversity | impact component |
| Water | state component |
