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| Keywords | Policy Intervention | HasDescription | Component |
|---|---|---|---|
| Afforestation policies | Increasing forest area to sequester CO2 in biomass which helps to achieve stringent climate targets. | Agricultural economy | |
| Agricultural trade policies | Changes in agricultural trade policies are applied to the corresponding quota (export or import quota) or border taxes. | Agricultural economy | |
| Apply emission and energy intensity standards | Apply emission intensity standards for e.g. cars (gCO2/km), power plants (gCO2/kWh) or appliances (kWh/hour). | Energy conversion Energy demand | |
| Avoiding deforestation | Here comes description | ||
| Capacity targets | It is possible to prescribe the shares of renewables, CCS technology, nuclear power and other forms of generation capacity. This measure influences the amount of capacity installed of the technology chosen. | Energy conversion | |
| Carbon tax | A tax on carbon leads to higher prices for carbon intensive fuels (such as fossil fuels), making low-carbon alternatives more attractive. | Climate policy Energy conversion Energy demand | |
| Change in grazing intensity | Change in grazing intensity, usually more intensive. This would require better management of grasslands, including for example the use of grass-clover mixtures and fertilisers, bringing the length of the grazing season in tune with the period of grass production, and rotations. | Land-use allocation | |
| Change market shares of fuel types | Exogenously set the market shares of certain fuel types. This can be done for specific analyses or scenarios to explore the broader implications of increasing the use of, for instance, biofuels, electricity or hydrogen and reflects the impact of fuel targets. | Energy demand | |
| Change the use of electricity and hydrogen | It is possible to promote the use of electricity and hydrogen at the end-use level. | Energy conversion | |
| Changes in consumption and diet preferences | Interventions that target consumption changes or changes in dietary preferences | Agricultural economy | |
| Changes in crop and livestock production systems | General changes in crop and livestock production systems, e.g. more efficient production methods to create higher production per unit of input, or other systems like organic farming | Agricultural economy | |
| Changes in feed ration | Change in the share of grass in the feed rations of cattle, sheep and goats, usually a decrease, meaning grass will be substituted by feed crops and the livestock system will be more intensive. | Livestock systems | |
| Climate change adaptation | Adaptation to climate change reduces climate damage. The model can optimally calculate the optimal adaptation level based on marginal adaptation costs and marginal avoided damage, but an alternative adaptation level can be used as well. | Climate policy | |
| Closing the yield gap | This intervention increases actual yields (reduces the gap between potential and actual yields), usually realized by better management. | Agricultural economy | |
| Effort- or burden-sharing of emission reductions | Evaluation of burden-sharing or effort-sharing regimes. Which regions or countries should contribute, when and by how much to reduce global greenhouse gas emissions? | Climate policy | |
| Emission trading policy | Analysis of the effect of rules for trading emission credits on regional abatement costs. | Climate policy | |
| Energy tax or subsidiy | Changing the prices through energy tax or subsidy for the various energy carriers influences the choice of technology and thus the level of emissions. | Energy supply | |
| Enlarge protected areas | Increase in areas with protected status, as well the size of the areas as the numer of parks. | Land-use allocation | |
| Excluding certain technologies | Certain energy technology options can be excluded in the model for environmental, societal, and/or security reasons. | Energy conversion | |
| Expanding Reduced Impact Logging | Increasing the share of produced wood yielded with Reduced Impact Logging (RIL) practices instead of conventional logging practices. | Forest management | |
| Financing climate policy | Developed countries could provide financial resources to assist developing countries by implementation of mitigation and adaptation policies. To mobilise these funds, several mechanisms exist, of which the effect can be analysed | Climate policy | |
| Hydropower | Construction of dams and reservoirs in rivers | Aquatic biodiversity | |
| Implementation of biofuel targets | Policies to enhance the use of biofuels, especially in the transport sector. In the Agricultural economy component only 'first generation' crops are taken into account. The policy is implemented as a budget-neutral policy from government perspective, e.g. a subsidy is implemented to achieve a certain share of biofuels in fuel production and an end-user tax is applied to counterfinance the implemented subsidy. | Agricultural economy | |
| Implementation of land use planning | Application of zoning laws or cadastres, assigning areas to certain land uses. | Land-use allocation | |
| Implementation of sustainability criteria in bio-energy production | Sustainability criteria that could become binding for dedicated bio-energy production, such as the restrictive use of water-scarce or degraded areas. | Energy supply Land cover and land use | |
| Improve behaviour | Reduce the health impacts of malnutrition and inadequate access to safe drinking water, basic sanitaion and modern sources of energy, through, for example, improving female education, promoting good hygiene and providing good indoor good ventilation | Human development | |
| Improve quality of access | Improve the quality of access to drinking water, sanitation and modern sources of energy, through, for example, household connections to drinking-water supply and the use of LPG or kerosene instead of traditional biomass on improved biomass stoves | Human development | |
| Improved irrigation efficiency | Improved irrigation efficiency assumes an increase in the irrigation project efficiency and irrigation conveyance efficiency. | Water | |
| Improved manure storage | Improved manure storage systems (ST), considering 20% lower NH3 emissions from animal housing and storage systems. | Nutrients | |
| Improved rainwater management | Improved rainwater management assumes a decrease in the evaporative losses from rainfed agriculture and the creation of small scale reservoirs to harvest rainwater during the wet period and use it during a dryer period. Both measures lead to more efficient use of water and increased yields on rainfed fields. | Water | |
| Improvement of feed conversion | Improvement of feed conversion ratio of small ruminants, such as sheep and goats. This means other breeds will be used that need less grass to produce the same amount of meat. | Livestock systems | |
| Improving energy efficiency | Exogenously set improvement in efficiency. Such improvements can be introduced for the submodels that focus on particular technologies, for example, in transport, heavy industry and households submodels. | Energy demand | |
| Increase access to food | Increase access to food by targeting food prices for the poorest households | Human development | |
| Increase access to water | Increase access to safe drinking water and improved sanitation by lowering prices and investing in infrastructure | Human development | |
| Increase forest plantations | Increase the use of wood from highly productive wood plantations instead of wood from (semi-) natural forests. | Forest management | |
| Increase natural carbon storage | It should be noted that policy measures to increase carbon storage often generate certain co-benefits, such as the restoration of watershed and wildlife habitats, and the prevention of soil erosion. | ||
| Increased livestock productivity | A change in production characteristics, such as milk production per animal, carcass weight and off-take rates, which will also have an impact on the feed conversion ratio; in general, this will be lower in more productive animals | Livestock systems | |
| Increased storage capacity | Increasing storage capacity assumes that the total water volume stored in large reservoirs will increase. This can either be established by an increase of the capacity of existing reservoirs, or by building new reservoirs. | Water | |
| Integrated manure management | Better integration of manure in crop production systems. This consists of recycling of manure that under the baseline scenario ends up outside the agricultural system (e.g. manure used as fuel), in crop systems to substitute fertiliser. In addition, there is improved integration of animal manure in crop systems, particularly in industrialised countries. | Nutrients | |
| Intensification or extensification of livestock systems | A change in the distribution of the production over pastoral and mixed systems; usually to a larger share of the production in mixed systems, which inherently changes the overall feed conversion ratios of ruminants. | Livestock systems | |
| Intensification/extensification of livestock systems | A change in the distribution of the production over pastoral and mixed systems; usually to a larger share of the production in mixed systems, which inherently changes the overall feed conversion ratios of ruminants. | Livestock systems | |
| Mitigate environmental changes | Mitigating environmental changes, such as climate change, biodiversity loss and water stress | ||
| More sustainable forest management | Sustainable forest management aims for maintaining long-term harvest potential and good ecological status of forests (e.g. the nutrient balance and biodiversity). This can be implemented by (i) enlarging the return period when a forest can be harvested again; (ii) only using certain fractions of the harvested biomass and leave the remaining part in the forests. | Forest management | |
| Non-CO2 taxation policies | Taxes greenhouse gas emissions in agriculture to achieve cost-optimal mitigation in the agricultural sector. | Agricultural economy | |
| Production targets for energy technologies | Production targets for energy technologies can be set to force technologies through a learning curve. | Energy supply | |
| Provision on improved stoves for traditional bio-energy | Increases the efficiency of bio-energy use. | Energy demand | |
| REDD policies | The objective of REDD policies it to reduce land-use related emissions by protecting existing forests in the world; The implementation of REDD includes also costs of policies. | Agricultural economy | |
| Reducing health risk | (primary) prevention, i.e. eliminating or reducing the health risk | ||
| Reduction of waste/losses | Reduction of losses in the agro-food chain and waste after consumption. | Agricultural economy | |
| Reduction proposals (pledges) | Evaluation of current reduction proposals by countries and policy options (for the next 10-20 years). | Climate policy | |
| ... further results | |||
Variabelen van Atmospheric composition and climate modelling
Drivers (type: driver)
- label
- decription
- source
| Driver | Description | Source |
|---|---|---|
| Adaptation level | Level of adaptation to climate change , defined as the share of climate change damage avoided by adaptation. This level is be calculated by the model to minimise adaptation costs and residual damage, or set by the user. | |
| Air pollution policy | Air pollution policies set to reach emission reduction targets, represented in the model in the form of energy carrier and sector specific emission factors. | EDGAR database |
| Animal productivity | Effective production of livestock commodities per animal per year. | FAOSTAT database |
| Biofuel policy | Policies to foster the use of biofuels in transport, such as financial incentives and biofuel mandates and obligations. | |
| Built-up area - grid | Urban built-up area per grid cell, excluded from all biophysical modelling in IMAGE, increasing over time as a function of urban population and a country- and scenario-specific urban density curve. | |
| Capital supply | Capital available to replace depreciated stock and expand the stock to support economic growth. | GTAP database |
| Climate target | Climate target, defined in terms of concentration levels, radiative forcing, temperature targets, or cumulative emissions. | |
| Domestic climate policy | Planned and/or implemented national climate and energy policies, such as taxes, feed-in tariffs, renewable targets, efficiency standards, that affect projected emission reduction. | |
| Energy efficiency technology | Model assumptions determining future development of energy efficiency. | |
| Energy intensity parameters | Set of parameters determining the energy use per unit of economic activity (in absence of technical energy efficiency improvements). | IEA |
| Energy policy | Policy to achieve energy system objectives, such as energy security and energy access. | |
| Energy resources | Volume of energy resource per carrier, region and supply cost class (determines depletion dynamics). | |
| Equity principles | General concepts of distributive justice or fairness used in effort sharing approaches. Three key equity principles are: Responsibility (historical contribution to warming); capability (ability to pay for mitigation); and equality (equal emissions allowances per capita). | |
| Feed conversion | Measure of an animal's efficiency in converting feed mass into the desired output such as meat and milk (for cattle, poultry, pigs, sheep and goats). | FAOSTAT database |
| Fertiliser use efficiency | Ratio of fertiliser uptake by a crop to fertiliser applied. | FAOSTAT database |
| Forest plantation demand | Demand for forest plantation area. | FAOSTAT database |
| Fraction of selective logging | The fraction of forest harvested in a grid, in clear cutting, selective cutting, wood plantations and additional deforestation. Fraction of selective cut determines the fraction of timber harvested by selective cutting of trees in semi-natural and natural forest. | |
| GDP per capita | Gross Domestic Product per capita, measured as the market value of all goods and services produced in a region in a year, and is used in the IMAGE framework as a generic indicator of economic activity. | World Bank database |
| GDP per capita - grid | Scaled down GDP per capita from country to grid level, based on population density. | |
| GINI coefficient | Measure of income disparity in a population. If all have the same income, GINI equals 1. The lower the GINI, the wider the gap between the lowest and highest income groups. | World Bank database |
| Harvest efficiency | Fraction of harvested wood used as product, the remainder being left as residues. Specified per biomass pool and forestry management type. | |
| Increase in irrigated area - grid | Increase in irrigated area, often based on external projections (e.g., FAO). | FAO IIASA |
| Irrigation conveyance efficiency | Ratio of water supplied to the irrigated field to the quantity withdrawn from the water source, determining the quantity of water lost during transport. This parameter is defined at country level. | PIK |
| Irrigation project efficiency | Ratio of quantity of irrigation water required by the crop (based on soil moisture deficits) to the quantity withdrawn from rivers, lakes, reservoirs or other sources. This parameter is given at country level. | PIK |
| Irrigation system | Type of irrigation system: surface, sprinkler or drip. This is allocated at country level, based on Jagermeyr et al (2015). | |
| Labour supply | Effective supply of labour input to support economic activities, taking into account the participation rate of age cohorts. | |
| Learning rate | Determines the rate of technology development in learning equations. | |
| Lifestyle parameters | Lifestyle parameters influence the relationship between economic activities and demand for energy. | IEA |
| Livestock rations | Determines the feed requirements per feed type (food crops; crop residues; grass and fodder; animal products; scavenging), specified per animal type and production system (extensive/intensive/backyard/intermediate/intensive/broiler/laying hens). | |
| Manure spreading fraction | Fraction of manure produced in staples that is spread on agricultural areas. | |
| Population | Number of people per region. | UN |
| Population - grid | Number of people per gridcell (using downscaling). | UN |
| Preferences | Non-price factors determining market shares, such as preferences, environmental policies, infrastructure and strategic considerations, used for model calibration. | |
| Private consumption | Private consumption reflects expenditure on private household consumption. It is used in IMAGE as a driver of energy. | The World Bank |
| Production system mix | Livestock production is distributed over two systems for dairy and beef production (intensive: mixed and industrial; extensive: pastoral grazing), and to three systems for pigs (backyard, intermediate, intensive) and poultry (backyard, boilers, laying hens) with specific intensities, rations and feed conversion ratios. | |
| Protected area - grid | Map of protected nature areas, limiting use of this area. | WDPA database |
| Sector value added | Value Added for economic sectors: Industry (IVA), Services (SVA) and Agriculture (AVA). These variables are used in IMAGE to indicate economic activity. | |
| Taxes and other additional costs | Taxes on energy use, and other additional costs | IEA |
| Technological change (crops and livestocks) | Increase in productivity in crop production (yield/ha) and livestock production (carcass weight, offtake rate). | FAO |
| Technology development of energy conversion | Learning curves and exogenous learning that determine technology development. | |
| Technology development of energy supply | Learning curves and exogenous learning that determine technology development. | |
| Timber demand | Demand for roundwood and pulpwood per region. | FAO |
| Trade policy | Assumed changes in market and non-market instruments that influence trade flows, subject to WTO rules and country and region regulation. | |
| Trade restriction | Trade tariffs and barriers limiting trade in energy carriers (in energy submodel). | |
| Urban population fraction | Urban/rural split of population. | UN |
Input variabelen (type: model)
- label
- description
- waar hij vandaan komt
Parameter (type: parameter)
- label
- description
- has source
- reference
Output variabelen (type: model)
- label
- description
- waar hij naar toe gaat
Caption tonen van een plaatje
- AnimalandCropProducts.png
Animal and crop production
- ElectricCapacityComparison.png
Electric capacity comparison
Test van Rineke
- propertytest
3
- Application property test
- geen property:
- wel property: DOE IETS
- infoboxtest
- Energy conversion: Doe iets
- Hoogwijk, 2004 : doe niets
- subpagetest:
- subpagevalue: 8
- pagevalue: 0
- infoboxrtest:
- Energy conversion: 1
- Energy conversion/Description: 1
Footnote test
Just testing if we can make footnotes[1].
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- ↑ if this works, it can be done