ARIES for PeopleEA

Page tree

Versions Compared

Old Version 2

changes.mady.by.user Alessio Bulckaen

Saved on

compared with

New Version Current

changes.mady.by.user Alessio Bulckaen

Saved on

Key

  • This line was added.
  • This line was removed.
  • Formatting was changed.

ARIES for PEOPLE-EA Explorer


 


The ARIES for PEOPLE_EA Explorer is a web-based application built on the k.LAB Integrated Modelling Platform. The application has access to all information (data and models) available on the Integrated Modelling network, and provides a dedicated user interface to allow to the pilot countries to easily access and test the output of the PEOPLE-EA project, funded by the European Space Agency, and developed by the ARIES team (BC3) in collaboration with the VITO team and using the OpenEO (Open Earth Observations) platform.

Table of Contents

I. Spatial and temporal context of the analysis

At the top of the menu on the left side of the screen, you can specify the geographic area and temporal and spatial scale.

Where

At the top of the panel, there a drop-down menu provides three options to select an analysis context by zooming and panning on the map. When the "administrative regions" or "river basin" option is chosen, the currently highlighted context will be outlined in light blue.
  • Map boundaries: Select an area of interest by panning and zooming in/out. The entire area visible on the screen becomes your analysis context.
  • Administrative regions: This option automatically identifies the largest administrative entity (e.g., Country or Subnational Unit) in the area selected, according to the M49 standard endorsed by the UN. By zooming in, the user can choose a smaller administrative region. We recommend this option for novice users, as it offers a simple way to identify standard administrative boundaries for ecosystem accounting.
    • River basin: This option selects an area of land draining to a specific water body based on FAO Hydrological Basins (simplified).
    Image Removed
  • Alternatively, the user can also directly type the name of a geographical context (i.e., country, region, city, or other geographic entity) in the ARIES for PEOPLE Search bar, starting with a capital letter. 
    These names are queried from the OpenStreetMap (OSM) database. Users should be aware that OSM boundaries may differ slightly from those selected using the "Administrative regions" option of the drop-down menu (i.e. a context selected with this option include the country's territorial waters)
    Image Removed
  • Countries are warmly invited to provide their official boundaries in case the default options currently integrated in ARIES to identify geographical boundaries don not meet the expected NSO's specification.

    • Resolution

    The user can select the spatial resolution for analysis, and choose between meters or kilometers.
    Image Removed
    If a resolution is chosen that is higher than that of available input data, ARIES will compile accounts at the resolution of the finest grained available data.

    When

    Select the year(s) for your analysis. If data are missing for a specific year of interest, ARIES automatically fills gaps using the closest available year's data.
    I. Single-year analysis (uncheck the box)
    Image Removed
    II. Multi-year analysis - showing change over time (check the box)
    Image Removed

  • Reset

    The red "X" button on the upper right can be used to reset a previously selected context, or to stop a computation in progress (all computed results will be lost).
    Image Removed

    • II. Study setup

    Each account contains a drop-down menu (three horizontal dots), from which the user can select accounts to compile:

    Image Removed

    List of contents of the guide
    1. How to access ARIES for PEOPLE-EA via a web-browser?
    2. Set the context of your analysis
    3. Forest ecosystem condition accounts
    4. How can accounts be compiled on the selected context?
    4.1 Extent Accounts
    4.2 Condition Accounts
    4.3 Service Accounts
    5. How to visualize and download the accounts, compare the results against other frameworks, as well as add new data and models
    6. Other quick tips

    Extent Accounts

    These accounts measure the extent of the IUCN Global Ecosystem Typology ecosystem types, or land cover, present in the context of your analysis, in km2.
    The different types of accounts provide varying levels of detail in summarizing ecosystem/land cover extent and its change over the selected time period.
    Image Removed

    Condition Accounts

    These accounts measure ecosystem condition. Currently, only forest ecosystem condition accounts are supported, but condition accounts for other ecosystem types will be added soon (beginning with those for grasslands).
      
    Image Removed
    The conditions metrics available for inclusion in the account appear in a drop-down menu when the user clicks on the triangle next to "Forest condition metrics".
    Image Removed
    Three types of ecosystem condition accounts are available:
    1. Condition Variable Account: report the value of each condition metric in their originally observed values (non-transformed);
    2. Condition Indicator Account: rescale ecosystem condition variables to values between 0 and 1. Rescaling is calculated as the difference between the observed condition variable value and the optimal condition reference.
        By normalizing multiple condition variables, different indicators can be more directly compared;
    3. Condition Index Account: combines all indicators together using a weighted mean. Currently, all indicators take the same weight, summing to 1 (e.g., 0.25 when four condition metrics are selected). In future releases of ARIES for SEEA, users will be able to assign custom weights to the indicators to better reflect their local importance when accounting for ecosystem condition.
    Image Removed

    Ecosystem services account (physical terms)

    These accounts measure the biophysical quantities of services provided by ecosystems and used by economic units. Use tables are not explicitly supplied with the model outputs, but use is described in the automatically generated reports for the selected accounts. In the current version, four ecosystem services are available. A fifth one, Nature-based tourism, is in its final stages of development and will be made available in a future ARIES for SEEA release.
    Image Removed
      

  • Ecosystem services account (monetary terms)

    These accounts measure the monetary value of the selected ecosystem services, applying SEEA EA-compliant valuation method(s). Use tables are not explicitly supplied with the model outputs, but use is described in the automatically generated reports for the selected accounts. In the current version, three ecosystem services are available. A fifth one, Nature-based tourism, is in its final stages of development and will be made available in a future ARIES for SEEA release.
    • Image Removed

    Asset accounts

    Compilation of asset accounts is not supported in the current version, but is planned for inclusion in the future. Asset accounts can be manually compiled by the user by calculating the net present value of monetary supply and use accounts as described in the SEEA EA manual (https://unstats.un.org/unsd/statcom/52nd-session/documents/BG-3f-SEEA-EA_Final_draft-E.pdf).
    Image Removed

    Spatial and temporal aggregation

    The user can select how the results of the accounts are aggregated in accounting tables.
    Currently, only the first option is available. In future ARIES for SEEA releases, the user will be able to generate accounting tables as follows:
    Image Removed
  • "Primary only": a single table summarizing results for the entire context identified by the user;
  • Administrative subregions: multiple tables grouped by subnational jurisdictional entities (i.e., administrative level 1 - State, Province, or District);
  • Protected areas: multiple tables grouped for protected areas found in the analysis context;
    • River basins: multiple tables grouped results by watersheds found within the analysis context.

  • Temporal accounting

    When a multiple-year analysis is selected, the user can decide to output tables:
    Image Removed
    1. For the first and last years of the time series only, or
    2. For all years within the time period selected.

    • III. Key outputs and observations

    This section shows the most relevant spatial inputs and outputs in the account(s) run by the user
    (e.g., in the case of ecosystem extent, the most relevant outputs are land cover and ecosystem type data).

    Image Removed

    The last section stores all tables and maps produced in that session, so that the user can download them in a zipped file (of Excel spreadsheets or GeoTIFFs) before leaving the application.
    Image Removed
    In the upper left corner of the application, there is a section dedicated to SEEA-relevant indicators.

    Image Removed
    This section includes selected indicators from the Sustainable Development Goals (SDGs) and the Convention on Biology Diversity (CBD) Post-2020 Biodiversity Indicators, which have been added to the application.

    Once it is opened, a drop-down menu shows the list of available indicators. 

    Image Removed
    Those selected by the user are added in the ARIES for SEEA panel as if they were an additional standard SEEA EA account
    Image Removed

    IV. Quick tips

    Set your context (e.g., Cape Town in South Africa). Suggested way:
  • Zoom and pan using the Map boundaries option:
    Image Removed
  • Make sure the screen contains your target context:
      Image Removed
    • Once the screen contains the area of interest, switch to Administrative region:
    Image Removed 
  • If the whole administrative region does not fit the screen, a locator map in the lower-right corner of the interface
    will show the entire context as currently selected:
    Image Removed
    • Refine your search further (zooming in/out) to make sure the desired region is selected.
    Image Removed
  • Note: the region automatically selected is not always the most central, but part of the screen occupying the largest area:
    Image Removed
    • The name of the geographic entity is displayed on the upper left side of the application.
    Image Removed
  • When the gear starts spinning, the system is computing the model(s) requested by the user:
    Image Removed
    • To offer the best visualization of the context in analysis, the search bar/results box can be positioned where the user prefers.
    To do so, point the cursor over the search bar, and once this symbol Image Removed appears, drag it to a preferred location.
    Image Removed Image Removed
    Image Removed Image Removed

    V. Explore results and methods used to run your accounting models

    Aspects of the user interface change once you begin to run an accounting model:

    Run an accounting model (e.g., ecosystem extent account - simple net balance).
  • Once the extent account is selected, the search bar will turn yellow.
    A rotating gear will appear next to the selected account(s), which indicates that the model is being compiled.
    When a model input or intermediate output has been computed, it is listed and can be explored individually, by selecting the specific layer (e.g., aridity):
    Image Removed
  • When a main output of the model is computed, this is listed (in the darker section) above the other inputs/intermediate output:
    Image Removed
    • If the model is dynamic (i.e., is calculated for >1 year), the progress bar at the bottom of the search bar/results box progresses as the computation continues:
    Image Removed
    In the right-upper corner of the app, three tabs are now available:
    Image Removed
  • Data view (always available)
  • Documentation view 
    • Data flow view
  • In our example, the application automatically takes the user to the section showing the accounting result(s).
    This happens every time a final outcome is generated:
    • Image Removed
    To review other sections of the documentation:
    Image RemovedThe reportImage Removed
    The tree menu on the left facilitates navigation. Each report includes:
  • A general introduction to the model(s);
  • Information on the SEEA framework or any other more general modeling frameworks (when part of a larger set of models);
  • The methods applied;
  • A summary of the main results;
  • Caveats or other considerations in interpreting model results, as part of the discussion; and
    • Reference(s) for data and method(s) used.

    Tabular results

    Image Removed
    To ease the observation of the results:
  • The first column is visible while scrolling to the right,
  • Results can be sorted by the element in the first column, or by ascending and descending order of the result of any column,
    • Text size can be adjusted using the buttons in the upper right (with yellow circles).

    Image(s) section

    Figure(s) and (maps) generated during the computation are listed in this section and can be explored individually.
    If results come from multi-year models, the maps are interactive and show changes over time.
    Image Removed

    Resources section
    Image Removed

    Lists all the resources used in the computations, to provide full-transparency on the final output.
    Each of the data resource can be explored individually
    Dataflow section: shows a list containing a visual summary of each model component and how these were combined to obtain the final results. In the next version of ARIES for SEEA, this section will also report the decisions taken by the system on:
  • Which combination of data and models was implemented,
  • Which data and model alternatives could have been used instead and,
    • The AI parameters used to support the choices made.

  • The third tab available once a model has run is the Dataflow view

    This shows a diagram that visually summarize each model component and how those were combined to obtain the final result(s). Clicking on an individual rectangle provides details about the dataset, algorithm, etc. used at each step of the model.
    Image Removed                      

    • VI. Spatialization of statistical aggregates

    This subsection explains how ARIES spatializes tabular national statistical data and aggregates it through spatial modelling, using crop provisioning as an example. The problem can be framed as follows:

    1. National statistical aggregates provide national-level crop production data in a particular year.
    2. For SEEA EA accounting, we also need to map production levels.
    3. Spatial data (maps) identifying production of most cultivated crops are available, but often for a limited number of years, not in time series, and at coarse spatial resolution. Such data are typically generated using subnational agricultural production data correlated spatial data (e.g., for land cover or crop locations).

    The method implemented follows:

        1. Spatially explicit crop production data (3) identify where production for a certain crop occurred in a given reference year (e.g., 2010);
        2.  We overlay spatially explicit crop production data (3) with national boundaries to calculate a crop production reference table for each country (1) and crop. The reference table (1) enables us to: 
          1. Account for changes in political borders; 
          2. Disaggregate production coming from overseas departments/regions included in national statistics (3); and
          3. Reliably produce results at scales aside from national scale (i.e., subnational, supranational)
        3. The spatialization of the production coming from statistical aggregates (4), is thus based on the information on (1), (2) and (3), as shown in the graphic below:
        4. Example of spatial disaggregation: crop production
          Image Removed

    (1): Production table (reference)
    (2): Production data from statistical aggregates (in reference year)
    (3): Crop production map (spatial data in reference year)
    (4): Production data from any year
    Note that 2 and 4 must come from to the same data source (apply the same methodology), in order to generate spatialized crop production in time series.
    The models only estimates the reallocation of such production, the biophysical production comes from statistical aggregate 

    This approach assumes crop extent to be constant (based on spatial data for the reference year), with only crop yield (tons produced per hectare) changing over time - an assumption we know to be false, but that a lack of time series spatial data based on subnational crop production forces us to accept, for now. Increases or decreases in production are thus spread across the whole country, rather than for that specific (but unknown) areas. The approach can be improved significantly with:

    1. More up-to-date spatially explicit data on crop production; and
    2. Statistical aggregates from higher-level administrative units (i.e., at state, region, province, or district level).
    3. Such approaches can enable the use of methods that produce more accurate spatial disaggregation of any statistical aggregates. 

    VII. Other ARIES features

    While most of the functions needed to compile SEEA accounts are available through ARIES for SEEA interface, the normal functionalities of the ARIES Explorer remain available through the search bar.
    This sections shows how to query them.

    Search the knowledge bar (1)

    This box is used to call models, select your context, modify default settings, and show the help page.
    Image Removed
    Image Removed
    Query an observable from the space bar (A):
    Please note: unlike the search bar in the ARIES for SEEA application, the general ARIES Explorer search bar is case-sensitive.
    Press the space bar on the empty box to receive suggestions.
    Image Removed
    Start with an upper-case letter to search for a geographical context (invalid if you have already set a context).
    Image Removed
    Start with a lower-case letter to search for an observation (e.g., elevation),
    Image Removed
    Option (iii) enables users to compute a model available in the ARIES Explorer environment and appropriate for the SEEA framework, but which is not contained as an option in the application.
    This option can be used to explore a wide range of different models (termed observables), which can refer to model inputs or outputs. 
  • Other settings/options/help (B)
    • Image Removed 

  • Context:

    1. Reset a previously used context
    2. Draw a new context (using your cursor)
  • Space and time:
    1. Adjust the spatial and/or temporal resolution of your analysis
  • Options
    1. Activate the interactive mode to add manually add input to the model (adjusting parameter values)
  • Settings
    1. Remember location (remember the last context selected)
    2. Remember docked status
    • HelpShow the help tutorial
    New option to show the coordinates of your cursor (they change as you move it around)
    Image Removed

    Zoom (2)

    Zoom in (by clicking on the (plus)) and out ((minus)). This can be useful when selecting your context using map boundaries (entire rectangle shown in the interface) or administrative regions or river basins, which change as a user zooms and pans the map.

    Image Removed

    Background map (3)

    Select the background map you prefer. By default, ARIES uses OpenStreetMap as it currently offers the best user experience even at higher resolutions.
    Image Removed
    The user can switch to other available background maps as desired.

    VII. Coming soon

    Additional features that will be made available in future releases of ARIES for SEEA include:

    1. Various improvements to ecosystem condition accounts:
      1. Option to select multiyear averages rather than single opening and closing years
      2. Custom weighting of metrics for ecosystem condition index accounts
      3. Handling presence/absence and categorical data in ecosystem condition accounts (e.g., burned area)
    2. Incorporation of other SEEA-related indicators, such as those from the SDG and CBD frameworks
    3. Physical and monetary supply-use accounts for nature-based tourism
    4. Reporting by administrative subregions, protected areas, and watersheds as ecosystem accounting areas
    5. Various "interactive mode" options for user to supply model inputs and parameters
    6. Improved integration of user-supplied spatial data inputs through a drag-and-drop interface
    7. Various improvements to functionality and user experience
    X. Training Programs and material

    XI. About ARIES

  • Technical support
  • The ARIES team
    • ARIES for SEEA funding

    Need to add a final page with an about section where we acknowledge EU funding. 

    May be also add a contact (email address) such as support@integratedmodelling.org