Difference between revisions of "EFIMOD"
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− | = | + | {{DSS, Wiki quality control |
− | + | |Has flag=N/A | |
− | + | }} | |
− | + | {{DSS, Name, responsible organisation and contact person | |
− | + | |Has full name=EFIMOD-Discrete Lattice Ecosystem Simulator | |
− | + | |Has acronym=EFIMOD | |
− | = | + | |Has wiki contact person= Alexander Komarov |
− | EFIMOD is a tool to forecast carbon and nitrogen flows in forest ecosystems with strong feedback mechanism between soil and stand. It allows for description and spatial analysis of mixed stand dynamics in boreal and temperate forests at different management and external impacts. | + | |Has wiki contact e-mail=as_komarov@rambler.ru |
− | + | }} | |
− | + | {{DSS, Software identification | |
− | + | |Has software=EFIMOD.Software | |
− | + | }} | |
− | + | {{DSS, Description | |
+ | |Has description=EFIMOD is a tool to forecast carbon and nitrogen flows in forest ecosystems with strong feedback mechanism between soil and stand. It allows for description and spatial analysis of mixed stand dynamics in boreal and temperate forests at different management and external impacts. | ||
+ | |Has modelling scope=Economical indicators, Forest indicators, user defined | ||
+ | |Has temporal scale=Long term (strategic), Medium term (tactical) | ||
+ | |Has spatial context=Spatial with no neighbourhood interrelations | ||
+ | |Has spatial scale=Forest level, Stand level | ||
+ | |Has objectives dimension=Multiple objectives | ||
+ | |Has goods and services dimension=Market wood products, Non-market services | ||
+ | |Has decision making dimension=Single decision maker | ||
+ | |Has forest management goal=afforestation management, biodiversity evaluation, biomass estimation, carbon sequestration, climate change impact, conservation, fertilization, fire behaviour, forest ecology, forest fuel harvesting, forest transformation, forest vegetation management, natural hazards, nitrate leaching, nutrient balance, silvicultural regime, yield prediction, wood supply planning, multi-functional | ||
+ | |Supports tree species=Spruce, Pine, Birch, Aspen, Lime, Oak; other species can be included after additional parameterization | ||
+ | |Supports silvicultural regime=user defined | ||
+ | }} | ||
+ | {{DSS, Concrete application | ||
+ | |Has typical use case=assessment of carbon sequestration, soil dynamics and wood production under different regimes of forest management, climate change and natural disturbances | ||
+ | |Has user profile=Non-industrial private owners, forest owners associations, national forest administration, NGO, local administration | ||
+ | |Has country=Russia | ||
+ | |Has number of users=<=30 | ||
+ | |Has number of real-life applications=<=30 | ||
+ | |Has utilisation in education=presentation/demo | ||
+ | |Has tool dissemination=training available on request | ||
+ | }} | ||
+ | {{DSS, Decision support techniques used in the DSS | ||
+ | |Has decision support techniques=EFIMOD.Decision support techniques | ||
+ | }} | ||
+ | {{DSS, Support of Knowledge Management | ||
+ | |Has knowledge management processes=EFIMOD.Knowledge management process | ||
+ | }} | ||
+ | {{DSS, Support of social participation | ||
+ | |Has support for social participation=EFIMOD.Support of social participation | ||
+ | }} | ||
+ | {{DSS, DSS development | ||
+ | |Has DSS development=EFIMOD.Description of DSS development | ||
+ | }} | ||
+ | {{DSS, Documentation | ||
+ | |Has website=http://ecomodelling.ru/index.php/en/models/ | ||
+ | |Has manual=No | ||
+ | |Has technical documentation=Yes | ||
+ | |Has reference=Chertov et al., 1997; Chertov et al., 2001; Komarov et al., 2003; Khanina et al., 2007; Shanin et al., 2011 | ||
+ | }} | ||
+ | = ADDITIONAL INFORMATION (needs to be migrated using the "edit with form" link) = | ||
=== Scope of the system === | === Scope of the system === | ||
− | + | The tool provides information to assess forest/soil natural development, forest/land-use management, and different scenarios of external impacts. | |
− | + | ||
− | + | ||
− | + | ||
=== System origin === | === System origin === | ||
− | + | It was developed by a researchers’ team in the Institute of Physico-Chemical and Biological Problems in Soil Science (Pushchino, Russia) and Biological Institute of Sankt-Petersburg State University with support of European Forest Institute (Joensuu, Finland) and Joensuu University (Joensuu, Finland). First prototype was implemented in 1996 being not a commercial product and based on earlier models by O.Chertov. | |
− | + | The tool has been applied in Russia, Finland, Sweden, Canada, the Netherlands, Bulgaria, Czech Republic, and in several international projects (three projects in INTAS EU Program, FP5 EU-Programme Project CT98-4124 “Relationships Between Recent Changes of Growth and Nutrition of Norway Spruce, Scots Pine, and European Beech Forests in Europe (RECOGNITION)”, FP6 EU Programme INCO - 013388 “Impacts and risks from anthrpogenic disturbances on soils, carbon dynamics and vegetation in podzolic ecosystems (OMRISK)” and other projects. It has been implemented also for several applications in frame of the National Program of Russian Academy of Sciences “Change of Environment and Climate”. | |
− | + | [[File:EFIMOD_applications.jpg|500px|thumb|Application of EFIMOD]] | |
− | + | ||
=== Support for specific issues === | === Support for specific issues === | ||
− | + | The system is designed to take into account timber harvest effects, dynamics of ecosystem and forest understorey biodiversivity, climate change effects, landscape analysis methods, nitrogen deposition effects, and fires. | |
=== Support for specific thematic areas of a problem type === | === Support for specific thematic areas of a problem type === | ||
* Silvicultural | * Silvicultural | ||
− | |||
* Conservation | * Conservation | ||
* Restoration | * Restoration | ||
− | |||
* Development choices / land use zoning | * Development choices / land use zoning | ||
− | + | * Sustainability impact assessment (SIA) | |
− | * Sustainability impact assessment (SIA) | + | |
=== Capability to support decision making phases === | === Capability to support decision making phases === | ||
− | + | In current version, the GUI helps the user to compare dynamics of ecosystem parameters (e.g. growing stock, stand and soil carbon and nitrogen pools, biodiversity ranks etc.) at different scenarios of forest management and other external impacts. | |
− | + | ||
− | + | ||
− | + | ||
− | + | ||
− | + | ||
− | + | ||
=== Related systems === | === Related systems === | ||
− | + | [[CommonGIS]] | |
== Data and data models == | == Data and data models == | ||
=== Typical spatial extent of application === | === Typical spatial extent of application === | ||
− | The application can be used on regional | + | The application can be used on regional, forest-enterprise, and forest stand scale. |
=== Forest data input === | === Forest data input === | ||
− | + | The system uses stand-level inputs from forest inventory database, the pools of soil organic matter and nitrogen in different soil layers, and climatic and hydrological data. Detailed list of input parameters you may find at [http://ecomodelling.ru/index.php/en/models/ EFIMOD-DLES webpage]. | |
=== Type of information input from user (via GUI) === | === Type of information input from user (via GUI) === | ||
− | User may | + | User may define the scenario of forest ecosystem development via specifying various management options, such as different types of cuttings, plantings etc.; external impacts, such as fires, climate change, different levels of nitrogen deposition. For biodiversity assessment, regional phytosociological data is required. |
== Models == | == Models == | ||
− | === Forest | + | === Forest model === |
− | + | [[Image:EFIMOD_flowchart.jpg|300px|thumb|Flowchart of EFIMOD model]] | |
− | + | The modelling tool of forest ecosystem EFIMOD <ref>Chertov, O.G. Komarov, A.S., Tsiplianovsky, A.V. 1999. A combined simulation model of Scots pine, Norway spruce and Silver birch ecosystems in European boreal zone. Forest Ecology and Management 116: 189-206.</ref><ref>Komarov, A., Chertov, O., Zudin, S., Nadporozhskaya, M., Mikhailov, A., Bykhovets, S., Zudina, E., Zoubkova. 2003. EFIMOD 2 - - A model of growth and elements cycling in boreal forest ecosystems. Ecological Modelling 170 (2-3): 373-392.</ref><ref>Komarov, A.S., Chertov, O.G., Mikhailov, and Autors’ Collective (14 names). 2007. Modelling Dynamics of Organic Matter in Forest Ecosystems [Responsible editor V.N. Kudeyarov]. Nauka, Moscow. 380 p. In Russian with English contents. ISBN 5-02-034053-7.</ref> is an individual-based spatially explicit simulator of tree-soil system that calculates parameters of carbon balance and standard forest inventory characteristics: NPP, Rh, soil available nitrogen, tree and stand biomass by tree compartments, soil organic matter (SOM) and N pools, stand density, height, DBH, growing stock and some other parameters. It includes soil model [[#Soil models|ROMUL]] as an important component<ref>Chertov, O.G. Komarov, A.S., Nadporozhskaya, M.A., Bykhovets, S.A., Zudin, S.L. 2001. ROMUL – a model of forest soil organic matter dynamics as a substantial tool for forest ecosystem modelling. Ecological Modelling 138 (1-3): 289-308.</ref> that is driven by soil water, temperature and SOM parameters. The statistical generator of soil climate [[#Climate models|SCLISS]] was compiled to run [[#Soil models|ROMUL]]. The EFIMOD allows for a calculation the effect of silvicultural operations and forest fires. Now it is linked with a system of plant biodiversity assessment [[#Models of biodiversity |BioCalc]]. | |
− | + | ||
− | === Soil | + | === Soil model === |
− | The ROMUL model<ref>Chertov O.G., Komarov A.S. 1997. SOMM -- a model of soil organic matter dynamics. Ecological Modelling | + | [[Image:ROMUL_flowchart.jpg|400px|thumb|Flowchart of ROMUL model]] |
− | + | The ROMUL model<ref>Chertov O.G., Komarov A.S. 1997. SOMM -- a model of soil organic matter dynamics. Ecological Modelling 94(2-3): 177-189.</ref><ref>Chertov, O.G. Komarov, A.S., Nadporozhskaya, M.A., Bykhovets, S.A., Zudin, S.L. 2001. ROMUL – a model of forest soil organic matter dynamics as a substantial tool for forest ecosystem modelling. Ecological Modelling 138 (1-3): 289-308.</ref> of soil organic matter (SOM) and nitrogen mineralisation and humification calculates the transformation of litter and SOM compartments, the gross carbon dioxide flow from the soil due to SOM mineralisation and the nitrogen available for plant growth. The rate of litter and SOM mineralisation and humification is dependent on the litter quality, soil temperature and moisture, and on some soil parameters. The model validation and sensitivity analyses had been performed using a set of published laboratory and field experiments<ref>Chertov O.G., Komarov A.S. 1997. SOMM -- a model of soil organic matter dynamics. Ecological Modelling 94(2-3): 177-189.</ref><ref>Chertov, O.G. Komarov, A.S., Nadporozhskaya, M.A., Bykhovets, S.A., Zudin, S.L. 2001. ROMUL – a model of forest soil organic matter dynamics as a substantial tool for forest ecosystem modelling. Ecological Modelling 138 (1-3): 289-308.</ref><ref>Komarov, A.S., Chertov, O.G., Mikhailov, and Autors’ Collective (14 names). 2007. Modelling Dynamics of Organic Matter in Forest Ecosystems [Responsible editor V.N. Kudeyarov]. Nauka, Moscow. 380 p. In Russian with English contents. ISBN 5-02-034053-7.</ref>. | |
− | + | ||
− | + | ||
− | === Climate | + | === Climate model === |
− | A soil climate generator SCLISS<ref> Chertov, O.G. Komarov, A.S., Nadporozhskaya, M.A., Bykhovets, S.A., Zudin, S.L. 2001. ROMUL – a model of forest soil organic matter dynamics as a substantial tool for forest ecosystem modelling. Ecological Modelling 138 (1-3): 289-308.</ref> is used in the model for two purposes: (1) as a method of evaluation of soil temperature and moisture using measured standard meteorological long-term data; (2) statistical simulation (generation) of realisations of long-term series of necessary input climate data with known statistical properties. The model uses monthly average data on air, litter and soil temperature, precipitation, litter and mineral soil moisture | + | A soil climate generator SCLISS<ref>Chertov, O.G. Komarov, A.S., Nadporozhskaya, M.A., Bykhovets, S.A., Zudin, S.L. 2001. ROMUL – a model of forest soil organic matter dynamics as a substantial tool for forest ecosystem modelling. Ecological Modelling 138 (1-3): 289-308.</ref> is used in the model for two purposes: (1) as a method of evaluation of soil temperature and moisture using measured standard meteorological long-term data; (2) statistical simulation (generation) of realisations of long-term series of necessary input climate data with known statistical properties. The model uses monthly average data on air, litter and soil temperature, precipitation, litter and mineral soil moisture. |
− | === | + | === Model of biodiversity === |
+ | A model BioCalc (BIOdiversity CALCulator) forecasts dynamics of ecosystem and species understorey diversity of each forest unit along the EFIMOD simulation outputs on a base of standard forest inventory data linked with the results of detailed phytosociological research <ref>Khanina, L., Bobrovsky, M., Komarov, A., Mikhajlov, A., 2007. Modelling dynamics of forest ground vegetation diversity under different forest management regimes. For. Ecol. Manage. 248: 80-94</ref>. | ||
+ | More detailed description of models you may find at [http://ecomodelling.ru/index.php/en/models/ EFIMOD-DLES webpage]. | ||
== Decision Support == | == Decision Support == | ||
=== Definition of management interventions === | === Definition of management interventions === | ||
− | + | The manager can intervene in the forest: time of harvest, plantations, thinnings, selective cuttings, natural regeneration, converting of forest into agricultural lands and back. | |
− | + | ||
=== Typical temporal scale of application === | === Typical temporal scale of application === | ||
− | + | The system allows for short-term prognosis (e.g. rotation period) and long-term prognosis (e.g. several generations of tree species) with annual temporal resolution. | |
=== Types of decisions supported === | === Types of decisions supported === | ||
*Management level | *Management level | ||
**strategic decisions | **strategic decisions | ||
− | |||
**operating control decisions | **operating control decisions | ||
− | |||
* planning decisions | * planning decisions | ||
**organizing decisions | **organizing decisions | ||
− | |||
− | |||
** coordination decisions | ** coordination decisions | ||
− | |||
− | |||
− | |||
− | |||
=== Decision-making processes and models === | === Decision-making processes and models === | ||
*Logic modeling | *Logic modeling | ||
− | + | *Heuristic manipulation of simulation models | |
− | + | ||
− | + | ||
− | + | ||
*Simulation (with and without stochasticity) | *Simulation (with and without stochasticity) | ||
− | |||
− | |||
== Output == | == Output == | ||
− | + | [[Image:CommonGIS_GUI.jpg|400px|thumb|CommonGIS user interface]] | |
=== Types of outputs === | === Types of outputs === | ||
− | + | Results are reported as tables, maps, graphs, stand-level 3-D visualizations. | |
=== Spatial analysis capabilities === | === Spatial analysis capabilities === | ||
− | + | The system is linked to [[CommonGIS]]. | |
− | + | ||
− | + | ||
− | + | ||
=== Abilities to address interdisciplinary, multi-scaled, and political issues === | === Abilities to address interdisciplinary, multi-scaled, and political issues === | ||
− | + | The system produces coordinated results for decision makers operating at different spatial scales, facilitates social negotiation and learning. | |
== System == | == System == | ||
=== System requirements === | === System requirements === | ||
− | * Operating Systems: | + | * Hardware requirements: 1GHz x86 CPU, 256Mb RAM, 50Mb disk space. |
− | * Other software needed | + | * Operating Systems: Windows 98/2K/XP/Vista. |
− | * Development status | + | * Other software needed: the user does not need to acquire additional software. |
+ | * Development status: completed. | ||
=== Architecture and major DSS components === | === Architecture and major DSS components === | ||
− | + | The system is a set of desktop Win32-applications. | |
=== Usage === | === Usage === | ||
− | + | Research and regional administration level. | |
=== Computational limitations === | === Computational limitations === | ||
− | + | Run time is impacted by the number of management units. | |
=== User interface === | === User interface === | ||
− | + | The system has a standard Windows GUI. Use of the system requires basic forestry and soil science background. | |
=== Documentation and support === | === Documentation and support === | ||
− | + | English version of user manual is now in progress. | |
=== Installation === | === Installation === | ||
− | + | The system is completely portable: no special installation is required. | |
− | + | ||
− | + | ||
− | + | = References = | |
− | + | == Cited references == | |
<references/> | <references/> | ||
− | + | == External resources == | |
+ | * http://ecomodelling.ru/index.php/en/models/ - description of EFIMOD-DLES |
Latest revision as of 15:42, 2 April 2013
Contents
- 1 Wiki quality control
- 2 Name, responsible organisation and contact person
- 3 Software identification
- 4 Description
- 5 Concrete application
- 6 Decision support techniques used in the DSS
- 7 Support of Knowledge Management
- 8 Support of social participation
- 9 DSS development
- 10 Documentation
- 11 ADDITIONAL INFORMATION (needs to be migrated using the "edit with form" link)
- 12 References
Wiki quality control
Has flag | N/A |
---|
Name, responsible organisation and contact person
Has full name | EFIMOD-Discrete Lattice Ecosystem Simulator |
---|---|
Has acronym | EFIMOD |
Has wiki contact person | Alexander Komarov |
Has wiki contact e-mail | as_komarov@rambler.ru |
Software identification
Has software | EFIMOD.Software |
---|
Description
Has description | EFIMOD is a tool to forecast carbon and nitrogen flows in forest ecosystems with strong feedback mechanism between soil and stand. It allows for description and spatial analysis of mixed stand dynamics in boreal and temperate forests at different management and external impacts. |
---|---|
Has modelling scope | Economical indicators, Forest indicators, user defined |
Has temporal scale | Long term (strategic), Medium term (tactical) |
Has spatial context | Spatial with no neighbourhood interrelations |
Has spatial scale | Forest level, Stand level |
Has objectives dimension | Multiple objectives |
Has related DSS | |
Has goods and services dimension | Market wood products, Non-market services |
Has decision making dimension | Single decision maker |
Has forest management goal | afforestation management, biodiversity evaluation, biomass estimation, carbon sequestration, climate change impact, conservation, fertilization, fire behaviour, forest ecology, forest fuel harvesting, forest transformation, forest vegetation management, natural hazards, nitrate leaching, nutrient balance, silvicultural regime, yield prediction, wood supply planning, multi-functional |
Supports tree species | Spruce, Pine, Birch, Aspen, Lime, Oak; other species can be included after additional parameterization |
Supports silvicultural regime | user defined |
Concrete application
Has typical use case | assessment of carbon sequestration, soil dynamics and wood production under different regimes of forest management, climate change and natural disturbances |
---|---|
Has user profile | Non-industrial private owners, forest owners associations, national forest administration, NGO, local administration |
Has country | Russia |
Has references about examples of application | |
Has number of users | <=30 |
Has number of real-life applications | <=30 |
Has utilisation in education | presentation/demo |
Has research project reference | |
Has tool dissemination | training available on request |
Decision support techniques used in the DSS
Has decision support techniques | EFIMOD.Decision support techniques |
---|
Support of Knowledge Management
Has knowledge management processes | EFIMOD.Knowledge management process |
---|
Support of social participation
Has support for social participation | EFIMOD.Support of social participation |
---|
DSS development
Has DSS development | EFIMOD.Description of DSS development |
---|
Documentation
Has website | http://ecomodelling.ru/index.php/en/models/ |
---|---|
Has online demo | |
Has manual | No |
Has technical documentation | Yes |
Has reference | Chertov et al., 1997; Chertov et al., 2001; Komarov et al., 2003; Khanina et al., 2007; Shanin et al., 2011 |
ADDITIONAL INFORMATION (needs to be migrated using the "edit with form" link)
Scope of the system
The tool provides information to assess forest/soil natural development, forest/land-use management, and different scenarios of external impacts.
System origin
It was developed by a researchers’ team in the Institute of Physico-Chemical and Biological Problems in Soil Science (Pushchino, Russia) and Biological Institute of Sankt-Petersburg State University with support of European Forest Institute (Joensuu, Finland) and Joensuu University (Joensuu, Finland). First prototype was implemented in 1996 being not a commercial product and based on earlier models by O.Chertov. The tool has been applied in Russia, Finland, Sweden, Canada, the Netherlands, Bulgaria, Czech Republic, and in several international projects (three projects in INTAS EU Program, FP5 EU-Programme Project CT98-4124 “Relationships Between Recent Changes of Growth and Nutrition of Norway Spruce, Scots Pine, and European Beech Forests in Europe (RECOGNITION)”, FP6 EU Programme INCO - 013388 “Impacts and risks from anthrpogenic disturbances on soils, carbon dynamics and vegetation in podzolic ecosystems (OMRISK)” and other projects. It has been implemented also for several applications in frame of the National Program of Russian Academy of Sciences “Change of Environment and Climate”.
Support for specific issues
The system is designed to take into account timber harvest effects, dynamics of ecosystem and forest understorey biodiversivity, climate change effects, landscape analysis methods, nitrogen deposition effects, and fires.
Support for specific thematic areas of a problem type
- Silvicultural
- Conservation
- Restoration
- Development choices / land use zoning
- Sustainability impact assessment (SIA)
Capability to support decision making phases
In current version, the GUI helps the user to compare dynamics of ecosystem parameters (e.g. growing stock, stand and soil carbon and nitrogen pools, biodiversity ranks etc.) at different scenarios of forest management and other external impacts.
Related systems
Data and data models
Typical spatial extent of application
The application can be used on regional, forest-enterprise, and forest stand scale.
Forest data input
The system uses stand-level inputs from forest inventory database, the pools of soil organic matter and nitrogen in different soil layers, and climatic and hydrological data. Detailed list of input parameters you may find at EFIMOD-DLES webpage.
Type of information input from user (via GUI)
User may define the scenario of forest ecosystem development via specifying various management options, such as different types of cuttings, plantings etc.; external impacts, such as fires, climate change, different levels of nitrogen deposition. For biodiversity assessment, regional phytosociological data is required.
Models
Forest model
The modelling tool of forest ecosystem EFIMOD [1][2][3] is an individual-based spatially explicit simulator of tree-soil system that calculates parameters of carbon balance and standard forest inventory characteristics: NPP, Rh, soil available nitrogen, tree and stand biomass by tree compartments, soil organic matter (SOM) and N pools, stand density, height, DBH, growing stock and some other parameters. It includes soil model ROMUL as an important component[4] that is driven by soil water, temperature and SOM parameters. The statistical generator of soil climate SCLISS was compiled to run ROMUL. The EFIMOD allows for a calculation the effect of silvicultural operations and forest fires. Now it is linked with a system of plant biodiversity assessment BioCalc.
Soil model
The ROMUL model[5][6] of soil organic matter (SOM) and nitrogen mineralisation and humification calculates the transformation of litter and SOM compartments, the gross carbon dioxide flow from the soil due to SOM mineralisation and the nitrogen available for plant growth. The rate of litter and SOM mineralisation and humification is dependent on the litter quality, soil temperature and moisture, and on some soil parameters. The model validation and sensitivity analyses had been performed using a set of published laboratory and field experiments[7][8][9].
Climate model
A soil climate generator SCLISS[10] is used in the model for two purposes: (1) as a method of evaluation of soil temperature and moisture using measured standard meteorological long-term data; (2) statistical simulation (generation) of realisations of long-term series of necessary input climate data with known statistical properties. The model uses monthly average data on air, litter and soil temperature, precipitation, litter and mineral soil moisture.
Model of biodiversity
A model BioCalc (BIOdiversity CALCulator) forecasts dynamics of ecosystem and species understorey diversity of each forest unit along the EFIMOD simulation outputs on a base of standard forest inventory data linked with the results of detailed phytosociological research [11].
More detailed description of models you may find at EFIMOD-DLES webpage.
Decision Support
Definition of management interventions
The manager can intervene in the forest: time of harvest, plantations, thinnings, selective cuttings, natural regeneration, converting of forest into agricultural lands and back.
Typical temporal scale of application
The system allows for short-term prognosis (e.g. rotation period) and long-term prognosis (e.g. several generations of tree species) with annual temporal resolution.
Types of decisions supported
- Management level
- strategic decisions
- operating control decisions
- planning decisions
- organizing decisions
- coordination decisions
Decision-making processes and models
- Logic modeling
- Heuristic manipulation of simulation models
- Simulation (with and without stochasticity)
Output
Types of outputs
Results are reported as tables, maps, graphs, stand-level 3-D visualizations.
Spatial analysis capabilities
The system is linked to CommonGIS.
Abilities to address interdisciplinary, multi-scaled, and political issues
The system produces coordinated results for decision makers operating at different spatial scales, facilitates social negotiation and learning.
System
System requirements
- Hardware requirements: 1GHz x86 CPU, 256Mb RAM, 50Mb disk space.
- Operating Systems: Windows 98/2K/XP/Vista.
- Other software needed: the user does not need to acquire additional software.
- Development status: completed.
Architecture and major DSS components
The system is a set of desktop Win32-applications.
Usage
Research and regional administration level.
Computational limitations
Run time is impacted by the number of management units.
User interface
The system has a standard Windows GUI. Use of the system requires basic forestry and soil science background.
Documentation and support
English version of user manual is now in progress.
Installation
The system is completely portable: no special installation is required.
References
Cited references
- ↑ Chertov, O.G. Komarov, A.S., Tsiplianovsky, A.V. 1999. A combined simulation model of Scots pine, Norway spruce and Silver birch ecosystems in European boreal zone. Forest Ecology and Management 116: 189-206.
- ↑ Komarov, A., Chertov, O., Zudin, S., Nadporozhskaya, M., Mikhailov, A., Bykhovets, S., Zudina, E., Zoubkova. 2003. EFIMOD 2 - - A model of growth and elements cycling in boreal forest ecosystems. Ecological Modelling 170 (2-3): 373-392.
- ↑ Komarov, A.S., Chertov, O.G., Mikhailov, and Autors’ Collective (14 names). 2007. Modelling Dynamics of Organic Matter in Forest Ecosystems [Responsible editor V.N. Kudeyarov]. Nauka, Moscow. 380 p. In Russian with English contents. ISBN 5-02-034053-7.
- ↑ Chertov, O.G. Komarov, A.S., Nadporozhskaya, M.A., Bykhovets, S.A., Zudin, S.L. 2001. ROMUL – a model of forest soil organic matter dynamics as a substantial tool for forest ecosystem modelling. Ecological Modelling 138 (1-3): 289-308.
- ↑ Chertov O.G., Komarov A.S. 1997. SOMM -- a model of soil organic matter dynamics. Ecological Modelling 94(2-3): 177-189.
- ↑ Chertov, O.G. Komarov, A.S., Nadporozhskaya, M.A., Bykhovets, S.A., Zudin, S.L. 2001. ROMUL – a model of forest soil organic matter dynamics as a substantial tool for forest ecosystem modelling. Ecological Modelling 138 (1-3): 289-308.
- ↑ Chertov O.G., Komarov A.S. 1997. SOMM -- a model of soil organic matter dynamics. Ecological Modelling 94(2-3): 177-189.
- ↑ Chertov, O.G. Komarov, A.S., Nadporozhskaya, M.A., Bykhovets, S.A., Zudin, S.L. 2001. ROMUL – a model of forest soil organic matter dynamics as a substantial tool for forest ecosystem modelling. Ecological Modelling 138 (1-3): 289-308.
- ↑ Komarov, A.S., Chertov, O.G., Mikhailov, and Autors’ Collective (14 names). 2007. Modelling Dynamics of Organic Matter in Forest Ecosystems [Responsible editor V.N. Kudeyarov]. Nauka, Moscow. 380 p. In Russian with English contents. ISBN 5-02-034053-7.
- ↑ Chertov, O.G. Komarov, A.S., Nadporozhskaya, M.A., Bykhovets, S.A., Zudin, S.L. 2001. ROMUL – a model of forest soil organic matter dynamics as a substantial tool for forest ecosystem modelling. Ecological Modelling 138 (1-3): 289-308.
- ↑ Khanina, L., Bobrovsky, M., Komarov, A., Mikhajlov, A., 2007. Modelling dynamics of forest ground vegetation diversity under different forest management regimes. For. Ecol. Manage. 248: 80-94
External resources
- http://ecomodelling.ru/index.php/en/models/ - description of EFIMOD-DLES