Land-use - C3IAM: Difference between revisions

Revision as of 03:49, 28 June 2021

Model Documentation - C3IAM
Model scope and methods - C3IAM Model concept, solver and details - C3IAM Temporal dimension - C3IAM Spatial dimension - C3IAM Policy - C3IAM Socio-economic drivers - C3IAM Population - C3IAM Economic activity - C3IAM Macro-economy - C3IAM Production system and representation of economic sectors - C3IAM Capital and labour markets - C3IAM Monetary instruments - C3IAM Trade - C3IAM Technological change - C3IAM Energy - C3IAM Energy resource endowments - C3IAM Fossil energy resources - C3IAM Uranium and other fissile resources - C3IAM Bioenergy - C3IAM Non-biomass renewables - C3IAM Energy conversion - C3IAM Electricity - C3IAM Heat - C3IAM Gaseous fuels - C3IAM Liquid fuels - C3IAM Solid fuels - C3IAM Grid, pipelines and other infrastructure - C3IAM Energy end-use - C3IAM Transport - C3IAM Residential and commercial sectors - C3IAM Industrial sector - C3IAM Other end-use - C3IAM Energy demand - C3IAM Technological change in energy - C3IAM Land-use - C3IAM Agriculture - C3IAM Forestry - C3IAM Land-use change - C3IAM Bioenergy land-use - C3IAM Other land-use - C3IAM Agricultural demand - C3IAM Technological change in land-use - C3IAM Emissions - C3IAM GHGs - C3IAM Pollutants and non-GHG forcing agents - C3IAM Carbon dioxide removal (CDR) options - C3IAM Climate - C3IAM Modelling of climate indicators - C3IAM Climate damages, temperature changes - C3IAM Non-climate sustainability dimension - C3IAM Air pollution and health - C3IAM Water - C3IAM Other materials - C3IAM Other sustainability dimensions - C3IAM Appendices - C3IAM Mathematical model description - C3IAM Data - C3IAM References - C3IAM
Corresponding documentation
AIM-Hub BLUES C3IAM COFFEE-TEA DNE21+ GCAM GEM-E3 GRACE IFs IMACLIM IMAGE MESSAGE-GLOBIOM POLES PROMETHEUS REMIND-MAgPIE TIAM-UCL WITCH
Previous versions
Archive of C3IAM version 2.0
Model information
Model link	http://inems1.bit.edu.cn/C3IAM https://ideas.repec.org/a/spr/nathaz/v92y2018i2d10.1007 s11069-018-3297-9.html https://www.nature.com/articles/s41467-020-15453-z
Institution	Center for Energy and Environmental Policy Research, Beijing Institute of Technology (CEEP-BIT), China, http://ceep.bit.edu.cn/english/.
Solution concept	General equilibrium (closed economy)
Solution method	Optimization
Anticipation

The future patterns of land use have direct influence on GHG emissions and mitigation potential for land use sector and food supply. The C³IAM/EcoLa model is a global multi-regional land use allocation optimization model, which covers the agricultural and forestry sectors (see the following Figure 1). It can be used to analyze land use change in a long-term period. The primary objective of the model is to minimize the total cost of production under consideration of agricultural demand in 12 regions.

Major types of cost in C³IAM/EcoLa are:

(1) Production costs of crop and livestock production, which are obtained by a total sum of the costs of labor, capital and intermediate inputs divided by the land area obtained from C³IAM/GEEPA;

(2) Land conversion costs which are exogenously determined by the cost of new additional land and investment into infrastructure;

(3) Carbon emissions costs which consider the carbon costs caused by land use change in mitigation scenarios.

Figure 1. The framework of C³IAM/EcoLa

@@ Line 3: / Line 3: @@
 |DocumentationCategory=Land-use
 }}
+The future patterns of land use have direct influence on GHG emissions and mitigation potential for land use sector and food supply. The C<sup>3</sup>IAM/EcoLa model is a global multi-regional land use allocation optimization model, which covers the agricultural and forestry sectors (see the following Figure 1). It can be used to analyze land use change in a long-term period. The primary objective of the model is to minimize the total cost of production under consideration of agricultural demand in 12 regions.
+Major types of cost in C<sup>3</sup>IAM/EcoLa are:
+(1) Production costs of crop and livestock production, which are obtained by a total sum of the costs of labor, capital and intermediate inputs divided by the land area obtained from C<sup>3</sup>IAM/GEEPA;
+(2) Land conversion costs which are exogenously determined by the cost of new additional land and investment into infrastructure;
+(3) Carbon emissions costs which consider the carbon costs caused by land use change in mitigation scenarios.
+[[File:7.png|thumb|Figure 1. The framework of C<sup>3</sup>IAM/EcoLa]]

Land-use - C3IAM: Difference between revisions

Revision as of 03:49, 28 June 2021

Navigation menu

Search