Difference between revisions of "ESC"

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== General System description ==  
 
== General System description ==  
  
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ESC is a PC-based DSS that supports a methodology for the evaluation of the suitability of different tree species and woodland communities as defined in the National Vegetation Classification (NVC) for Great Britain, and also predicting yield in the form of a site index, on the UK forest land.
 
ESC is a PC-based DSS that supports a methodology for the evaluation of the suitability of different tree species and woodland communities as defined in the National Vegetation Classification (NVC) for Great Britain, and also predicting yield in the form of a site index, on the UK forest land.
  
[[Category:Finished articles]]
 
 
[[Category:Decision support system]]
 
[[Category:Decision support system]]
 
[[Category:British DSS]]
 
[[Category:British DSS]]
 
[[Category:GB Forestry DSS]]
 
[[Category:GB Forestry DSS]]
[[Category:Ecological classification]]
 
[[Category:Species selection]]
 
[[Category:Yield prediction]]
 
[[Category:Stand level]]
 
[[Category:Regional level]]
 
[[Category:Landscape quality]]
 
[[Category:Climate change impact prediction]]
 
[[Category:Fuzzy logic]]
 
[[Category:Windows Client OS]]
 
[[Category:Multi-platform application]]
 
[[Category:C++]]
 
 
[[Image:ESC brochure.jpg|thumb|ESC cover]]
 
[[Image:ESC brochure.jpg|thumb|ESC cover]]
 
[[Image:ESC main window.png|thumb|300px|ESC main window]]
 
[[Image:ESC main window.png|thumb|300px|ESC main window]]
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=== System origin ===
 
=== System origin ===
* The system was developed in the 1990s but the origins can be traced to a publication by Anderson in the 1950s and earlier works that identified relationships between site quality and vegetation. &lt;br&gt; It is developed by the Forestry Commission Research Agency, in a team led by Duncan Ray.
+
* The system was developed in the 1990s but the origins can be traced to a publication by Anderson in the 1950s and earlier works that identified relationships between site quality and vegetation. <br> It is developed by the Forestry Commission Research Agency, in a team led by Duncan Ray.
* ESC in its 1.7 version is available for purchasing at the [http://www.forestresearch.gov.uk/website/forestresearch.nsf/ByUnique/INFD-5VGF82 ESC website] for the price of 100£. &lt;br&gt; Currently, version 2.0 is free to use at stand scale via web as part of the [[GB Forestry DSS]] tools.
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* ESC in its 1.7 version is available for purchasing at the [http://www.forestresearch.gov.uk/website/forestresearch.nsf/ByUnique/INFD-5VGF82 ESC website] for the price of 100£. <br> Currently, version 2.0 is free to use at stand scale via web as part of the [[GB Forestry DSS]] tools.
* Both the U.K. Forestry Standard and the U.K. Woodland Assurance Scheme support the use of ESC as an objective methodology for both the software objectives above described&lt;ref&gt; REYNOLDS K.M., TWERY M., LEXER M.J., VACIK H., RAY D., SHAO G,. et BORGES J.G.: ''Decision Support Systems in Forest Management'' IN BURSTEIN F. et HOLSAPPLE C. W. (EDS.) (2008): ''Handbook on Decision Support Systems 2: Variations''. Springer Berlin Heidelberg. 800 pp. &lt;/ref&gt;.
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* Both the U.K. Forestry Standard and the U.K. Woodland Assurance Scheme support the use of ESC as an objective methodology for both the software objectives above described<ref> REYNOLDS K.M., TWERY M., LEXER M.J., VACIK H., RAY D., SHAO G,. et BORGES J.G.: ''Decision Support Systems in Forest Management'' IN BURSTEIN F. et HOLSAPPLE C. W. (EDS.) (2008): ''Handbook on Decision Support Systems 2: Variations''. Springer Berlin Heidelberg. 800 pp. </ref>.
  
 
=== Support for specific issues  ===
 
=== Support for specific issues  ===
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The site information is linked to ESC suitability models for 20 of the 25 NVC woodland communities (W1-W20) and 25 species of tree using a 'fuzzy membership function' approach. The fuzzy membership function describes the degree of suitability of the species or woodland community to each ESC site factor.  
 
The site information is linked to ESC suitability models for 20 of the 25 NVC woodland communities (W1-W20) and 25 species of tree using a 'fuzzy membership function' approach. The fuzzy membership function describes the degree of suitability of the species or woodland community to each ESC site factor.  
  
Species suitability and yield prediction models are based on accumulated temperature (AT5), moisture deficit, continentality (CT), wind exposure (DAMS - Detailed Aspect Method of Scoring system, a function of elevation, topographic exposure, aspect, funneling effects and wind zone classification across Britain), moisture deficit (MD), soil moisture regime (SMR) and soil nutrient regime (SNR). From these six variables, climatic warmth (accumulated temperature) is assumed as the principal factor and from the remaining others only the most limiting factor may modify the site yield prediction &lt;ref&gt; REYNOLDS K.M., TWERY M., LEXER M.J., VACIK H., RAY D., SHAO G,. et BORGES J.G.: ''Decision Support Systems in Forest Management'' IN BURSTEIN F. et HOLSAPPLE C. W. (EDS.) (2008): ''Handbook on Decision Support Systems 2: Variations''. Springer Berlin Heidelberg. 800 pp. &lt;/ref&gt;.
+
Species suitability and yield prediction models are based on accumulated temperature (AT5), moisture deficit, continentality (CT), wind exposure (DAMS - Detailed Aspect Method of Scoring system, a function of elevation, topographic exposure, aspect, funneling effects and wind zone classification across Britain), moisture deficit (MD), soil moisture regime (SMR) and soil nutrient regime (SNR). From these six variables, climatic warmth (accumulated temperature) is assumed as the principal factor and from the remaining others only the most limiting factor may modify the site yield prediction <ref> REYNOLDS K.M., TWERY M., LEXER M.J., VACIK H., RAY D., SHAO G,. et BORGES J.G.: ''Decision Support Systems in Forest Management'' IN BURSTEIN F. et HOLSAPPLE C. W. (EDS.) (2008): ''Handbook on Decision Support Systems 2: Variations''. Springer Berlin Heidelberg. 800 pp. </ref>.
  
The link between biophysical factors and tree species suitability is defined by a set of knowledge based rules that represent an accord based on the combined discussion of a panel of forest scientists with knowledge and experience of the site-related growth potential of the 25 tree species presented. ESC site-yield estimates have been judged acceptable by many foresters and scientist at the ESC courses and demonstrations across a range of climatic zones and site types in the U.K. The model of Sitka spruce was also tested in the [http://en.wikipedia.org/wiki/Clashindarroch_Forest Clashindarroch Forest], in Aberdeenshire (Scotland), showing a slightly underestimated site-yield approach&lt;ref&gt; RAY D., J.CLARE et A.MILNER (2001): ''An assessment od the ESC yield model for Sitka spruce'', Unpublished Forest Research Internal Report. Edinburgh: Forestry Commission&lt;/ref&gt;.
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The link between biophysical factors and tree species suitability is defined by a set of knowledge based rules that represent an accord based on the combined discussion of a panel of forest scientists with knowledge and experience of the site-related growth potential of the 25 tree species presented. ESC site-yield estimates have been judged acceptable by many foresters and scientist at the ESC courses and demonstrations across a range of climatic zones and site types in the U.K. The model of Sitka spruce was also tested in the [http://en.wikipedia.org/wiki/Clashindarroch_Forest Clashindarroch Forest], in Aberdeenshire (Scotland), showing a slightly underestimated site-yield approach<ref> RAY D., J.CLARE et A.MILNER (2001): ''An assessment od the ESC yield model for Sitka spruce'', Unpublished Forest Research Internal Report. Edinburgh: Forestry Commission</ref>.
  
  
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=== Documentation and support ===
 
=== Documentation and support ===
[http://www.forestresearch.gov.uk/website/publications.nsf/WebpubsbyISBN/0855384182 Bulletin 124] describes the method, and version 1.7 is well documented&lt;ref&gt;RAY D. (2001): ''A PC-based Decision Support System for British Forests. User’s Guide. Version 1.7''. Forestry Commission. ([http://www.forestresearch.gov.uk/pdf/manual.pdf/$FILE/manual.pdf pdf])&lt;/ref&gt;. There is also a Field Survey Pack in order to help users to understand the ESC data requirements.
+
[http://www.forestresearch.gov.uk/website/publications.nsf/WebpubsbyISBN/0855384182 Bulletin 124] describes the method, and version 1.7 is well documented<ref>RAY D. (2001): ''A PC-based Decision Support System for British Forests. User’s Guide. Version 1.7''. Forestry Commission. ([http://www.forestresearch.gov.uk/pdf/manual.pdf/$FILE/manual.pdf pdf])</ref>. There is also a Field Survey Pack in order to help users to understand the ESC data requirements.
  
 
Version 2.0 no formal training available to date. Support available via email.
 
Version 2.0 no formal training available to date. Support available via email.
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===Cited references===
 
===Cited references===
&lt;references/&gt;
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<references/>
  
 
===External resources===
 
===External resources===

Latest revision as of 06:57, 14 October 2012

General System description

System name: Ecological Site Classification

Acronym: ESC

Brief overview

ESC is a PC-based DSS that supports a methodology for the evaluation of the suitability of different tree species and woodland communities as defined in the National Vegetation Classification (NVC) for Great Britain, and also predicting yield in the form of a site index, on the UK forest land.
ESC cover
ESC main window

Scope of the system

This tool encourages the decision makers on the election of a suitable forest species according to their site soil properties and climatic data, instead of selecting an inadequate species and then trying to modify site characteristics to make it more suitable. It also provides the suitability of the species according to the expected evolution of the climate, and predicts the potential yield in the form of a site index. The number of tree species considered is 25, and there are also 20 native woodland types.

System origin

  • The system was developed in the 1990s but the origins can be traced to a publication by Anderson in the 1950s and earlier works that identified relationships between site quality and vegetation.
    It is developed by the Forestry Commission Research Agency, in a team led by Duncan Ray.
  • ESC in its 1.7 version is available for purchasing at the ESC website for the price of 100£.
    Currently, version 2.0 is free to use at stand scale via web as part of the GB Forestry DSS tools.
  • Both the U.K. Forestry Standard and the U.K. Woodland Assurance Scheme support the use of ESC as an objective methodology for both the software objectives above described[1].

Support for specific issues

Species suitability and selection, biodiversity, and climate change effects on species suitability.

A screenshot from the ESC free web version

Support for specific thematic areas of a problem type

  • Silvicultural
  • Certification
  • Conservation
  • Restoration
  • Development choices / land use zoning
  • Policy/intervention alternatives

Capability to support decision making phases

  • Intelligence
gives user detailed site analysis (climate and soil parameters).
  • Design
provides site analysis in context of many themes.
  • Choice
allows user to vary species choice, management options.
  • Monitor
highlights risks which in theory could encourage monitoring.

Related systems

Describe (and/or link to) other systems related

Data and data models

ESC site location window

Typical spatial extent of application

In the U.K. ESD-DSS is used for forest scenario planning, from the strategic national and regional scales to landscape-scale analyses through to suitability assessments on a site-by-site basis.

Web based tool operates at stand scale, ca 1-5 hectares, batch GIS tool has generated regional and national scenarios.

Type of information input from user (via GUI)

Users only have to input information about site grid reference, elevation, and soil features. Soil quality can be estimated approximately from some quick observations made of the soil and vegetation at the site, or can be predicted more accurately with a complete description of soil type, lithology, humus form and existing plants.


Models

ESC input window

Forest models

The site information is linked to ESC suitability models for 20 of the 25 NVC woodland communities (W1-W20) and 25 species of tree using a 'fuzzy membership function' approach. The fuzzy membership function describes the degree of suitability of the species or woodland community to each ESC site factor.

Species suitability and yield prediction models are based on accumulated temperature (AT5), moisture deficit, continentality (CT), wind exposure (DAMS - Detailed Aspect Method of Scoring system, a function of elevation, topographic exposure, aspect, funneling effects and wind zone classification across Britain), moisture deficit (MD), soil moisture regime (SMR) and soil nutrient regime (SNR). From these six variables, climatic warmth (accumulated temperature) is assumed as the principal factor and from the remaining others only the most limiting factor may modify the site yield prediction [2].

The link between biophysical factors and tree species suitability is defined by a set of knowledge based rules that represent an accord based on the combined discussion of a panel of forest scientists with knowledge and experience of the site-related growth potential of the 25 tree species presented. ESC site-yield estimates have been judged acceptable by many foresters and scientist at the ESC courses and demonstrations across a range of climatic zones and site types in the U.K. The model of Sitka spruce was also tested in the Clashindarroch Forest, in Aberdeenshire (Scotland), showing a slightly underestimated site-yield approach[3].


Decision Support

An example of the GIS application of ESC, predicting the effect of climate change on the productivity of Sitka Spruce

Definition of management interventions

Species or NVC woodland choice.

Prescription enumerating all selected possibilities at stand level, or thematic GIS layers (e.g., Oak or Sitka Spruce suitability in a defined area of interest), even reaching national level.

Typical temporal scale of application

Has support for future climate scenarios, being the baseline data from 1961-1990.

Types of decisions supported

  • Management level
    • strategic decisions
    • administrative decisions
    • operating control decisions
  • Management function
  • planning decisions
    • organizing decisions
    • command decisions
    • control decisions
    • coordination decisions
  • decision making situation
    • unilateral
    • collegial
    • Bargaining / participative decision making


Output

ESC species suitability window
ESC yield classes window

Types of outputs

Stand version generates tables showed on screen. Thematic maps can be generated via a batch tool for visualisation in GIS, assuming suitable soil data is available.

Spatial analysis capabilities

It has been implemented within ArcView 3.*™, and allows a lot of spatial analyses like in the image above showed.


System

System requirements

  • Microsoft® Windows® 3.1, 95, 98, or NT4
  • 486 processor or better
  • 4 Mbytes free hard disk space
  • 8 Mbytes RAM (minimum)
  • CD-ROM drive
  • Web tool only requires a web browser.
  • GRASS GIS or ArcView 3 required for batch stage. Data currently managed in Oracle database or as raster files.
  • Development status: ESC-DSS version 1.7 is available for purchasing. Version 2 is available on the Internet and is being updated.

Architecture and major DSS components

ESC 1.7 was written in C++. It has been implemented within ArcView 3.*™ and GRASS.

ESC 2.0 is written in Java and has a web based UI using JSP, HTML, CSS.

Some simple web map services with Google Maps (not intended for operational use).

Usage

Used in education, public and private sector forestry and research.

Computational limitations

Longer runtime to compute national datasets.

User interface

Web UI requires some understanding of soil types, OS grid references, reference to geological maps. Interpretation of information can be challenging so support is being developed.

Documentation and support

Bulletin 124 describes the method, and version 1.7 is well documented[4]. There is also a Field Survey Pack in order to help users to understand the ESC data requirements.

Version 2.0 no formal training available to date. Support available via email.

Practical training courses on ESC-DSS are organised by Forestry Training Services (a part of the Forestry Commission) at various locations around the UK. Courses cover ESC survey techniques, soil and plant identification, and tree species and native woodland community suitability.

Installation

  • Server installation requires J2EE server such as Tomcat or Oracle Application Server and an oracle database, and requires specialised skills and tools. Batch mode requires some configuration on host machine.
  • Web tool requires web browser.


References

Cited references

  1. REYNOLDS K.M., TWERY M., LEXER M.J., VACIK H., RAY D., SHAO G,. et BORGES J.G.: Decision Support Systems in Forest Management IN BURSTEIN F. et HOLSAPPLE C. W. (EDS.) (2008): Handbook on Decision Support Systems 2: Variations. Springer Berlin Heidelberg. 800 pp.
  2. REYNOLDS K.M., TWERY M., LEXER M.J., VACIK H., RAY D., SHAO G,. et BORGES J.G.: Decision Support Systems in Forest Management IN BURSTEIN F. et HOLSAPPLE C. W. (EDS.) (2008): Handbook on Decision Support Systems 2: Variations. Springer Berlin Heidelberg. 800 pp.
  3. RAY D., J.CLARE et A.MILNER (2001): An assessment od the ESC yield model for Sitka spruce, Unpublished Forest Research Internal Report. Edinburgh: Forestry Commission
  4. RAY D. (2001): A PC-based Decision Support System for British Forests. User’s Guide. Version 1.7. Forestry Commission. (pdf)

External resources