Abstract
Abstract. The Global Change Assessment Model (GCAM) is a global integrated assessment model used to project future societal and environmental scenarios, based on economic modeling and on a detailed representation of food and energy production systems. The terrestrial module in GCAM represents agricultural activities and ecosystems dynamics at the subregional scale, and must be downscaled to be used for impact assessments in gridded models (e.g., climate models). In this study, we present the downscaling algorithm of the GCAM model, which generates gridded time series of global land use and land cover (LULC) from any GCAM scenario. The downscaling is based on a number of user-defined rules and drivers, including transition priorities (e.g., crop expansion preferentially into grasslands rather than forests) and spatial constraints (e.g., nutrient availability). The default parameterization is evaluated using historical LULC change data, and a sensitivity experiment provides insights on the most critical parameters and how their influence changes regionally and in time. Finally, a reference scenario and a climate mitigation scenario are downscaled to illustrate the gridded land use outcomes of different policies on agricultural expansion and forest management. Several features of the downscaling can be modified by providing new input data or changing the parameterization, without any edits to the code. Those features include spatial resolution as well as the number and type of land classes being downscaled, thereby providing flexibility to adapt GCAM LULC scenarios to the requirements of a wide range of models and applications. The downscaling system is version controlled and freely available.
Highlights
Land use and land cover (LULC) change is a key component of environmental change studies
Performance and sensitivity to the downscaling parameters are quite different between tropical, temperate and boreal biomes, indicating that LULC dynamics differ and cannot be captured by a single downscaling configuration
To meet global food demand, agricultural production is intensified in high-yield areas (e.g., India, China) and expands into marginal lands with the support of irrigation and other technological developments. Those changes of agricultural practices enable a reduction of crop area by 10.4 %. Note that these general LULC trends are determined by Global Change Assessment Model (GCAM), including deforestation and afforestation: the downscaling does not make any region/AEZ-scale land use change decision, but instead spatially delineates those decisions to a gridded format
Summary
Land use and land cover (LULC) change is a key component of environmental change studies. Estimates of the carbon budget from historical LULC change range from 12.5 to 33 % of all anthropogenic carbon emissions depending on the time period and method considered (Houghton et al, 2012). The Global Change Assessment Model (GCAM) has been developed to better understand interactions between natural and human systems and anticipate their co-evolution in the future It combines representations of the global economy, energy systems, agriculture, and land use with a representation of terrestrial, ocean and atmospheric biogeochemical cycles, ice-melt, and climate processes (Clarke et al, 2007; Kim et al, 2006).
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