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- Dynamic_global_vegetation_model abstract "A Dynamic Global Vegetation Model (DGVM) is a computer program that simulates shifts in potential vegetation and its associated biogeochemical and hydrological cycles as a response to shifts in climate. DGVMs use time series of climate data and, given constraints of latitude, topography, and soil characteristics, simulate monthly or daily dynamics of ecosystem processes. DGVMs are used most often to simulate the effects of future climate change on natural vegetation and its carbon and water cycles.DGVMs generally combine biogeochemistry, biogeography, and disturbance submodels. Disturbance is often limited to wildfires, but in principle could include any of: forest/land management decisions, windthrow, insect damage, ozone damage etc. DGVMs usually "spin up" their simulations from bare ground to "equilibrium" vegetation to establish realistic initial values for their various "pools": carbon and nitrogen in live and dead vegetation, soil organic matter, etc. corresponding to a documented historical vegetation cover.DGVMs are usually run in a spatially distributed mode, with simulations carried out for thousands of "cells", geographic points which are assumed to have homogeneous conditions within each cell. Simulations are carried out across a range of spatial scales, from global to landscape. Cells are usually arranged as lattice points; the distance between adjacent lattice points may be as coarse as a few degrees of latitude or longitude, or as fine as 30 arc-seconds. Simulations of the conterminous United States in the first DGVM comparison exercise (LPJ and MC1) called the VEMAP project in the 1990s used a lattice grain of one-half degree. Global simulations by the PIK group and collaborators using 6 different DGVMs (HYBRID, IBIS, LPJ, SDGVM, TRIFFID, and VECODE) used the same resolution as the general circulation model (GCM) that provided the climate data, 3.75 deg longitude x 2.5 deg latitude, a total of 1631 land grid cells. Sometimes lattice distances are specified in kilometers rather than angular measure, especially for finer grains, so a project like VEMAP is often referred to as 50 km grain.Several DGVMs appeared in the middle 1990s. The first was apparently IBIS (Foley et al., 1996), VECODE (Brovkin et al., 1997), followed by several others described below:Several DGVMs have been developed by various research groups around the world: LPJ - Germany, Sweden IBIS - Integrated Biosphere Simulator - U.S. MC1 - U.S. HYBRID - U.K. SDGVM - U.K. SEIB-DGVM - Japan TRIFFID - U.K. VECODE - Germany CLM-DVGM - U.S. LANDIS II - U.S. Ecosystem Demography (ED, ED2)The next generation of models - earth system models (ex. CCSM, ORCHIDEE, JULES, CTEM ) - now includes the important feedbacks from the biosphere to the atmosphere so that vegetation shifts and changes in the carbon and hydrological cycles affect the climate.LANDIS II, Forest LANdscape DIsturbance and Succession (LANDIS) -II (Scheller et al. 2007) simulates forest succession and disturbances. LANDIS-II builds upon and preserves the functionality of previous LANDIS forest landscape simulation models. LANDIS-II is distinguished by the inclusion of variable time steps for different ecological processes; use of a rigorous development and testing process used by software engineers; including a flexible, open architecture.DGVMs commonly simulate a variety of plant and soil physiological processes. The processes simulated by various DGVMs are summarized in the table below. Abbreviations are: NPP, net primary production; PFT, plant functional type; SAW, soil available water; LAI, leaf area index; I, solar radiation; T, air temperature; Wr, root zone water supply; PET, potential evapotranspiration; vegc, total live vegetation carbon.References:".
- Dynamic_global_vegetation_model thumbnail DGVM.jpg?width=300.
- Dynamic_global_vegetation_model wikiPageID "20330321".
- Dynamic_global_vegetation_model wikiPageRevisionID "563977740".
- Dynamic_global_vegetation_model hasPhotoCollection Dynamic_global_vegetation_model.
- Dynamic_global_vegetation_model subject Category:Scientific_modeling.
- Dynamic_global_vegetation_model comment "A Dynamic Global Vegetation Model (DGVM) is a computer program that simulates shifts in potential vegetation and its associated biogeochemical and hydrological cycles as a response to shifts in climate. DGVMs use time series of climate data and, given constraints of latitude, topography, and soil characteristics, simulate monthly or daily dynamics of ecosystem processes.".
- Dynamic_global_vegetation_model label "Dynamic global vegetation model".
- Dynamic_global_vegetation_model sameAs m.04zx_fs.
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- Dynamic_global_vegetation_model wasDerivedFrom Dynamic_global_vegetation_model?oldid=563977740.
- Dynamic_global_vegetation_model depiction DGVM.jpg.
- Dynamic_global_vegetation_model isPrimaryTopicOf Dynamic_global_vegetation_model.