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TERN derived NVIS Hierarchy 

Ver: 2
Status of Data: accepted
Update Frequency: annually
Security Classification: unclassified
Dataset Published: 2026-07-16
Dataset Last Modified: 2026-07-17
Metadata viewed 3 times
Dataset accessed 0 times
Metadata Created: 2026-07-15
Metadata Last Modified: 2026-07-17
How to cite this collection:
Lewis, D., Ho Hai Vo, H., Steen, C., Starkey, M., Gerlek, A., Tokmakoff, A., Sparrow, B. & TERN Ecosystem Surveillance (2026). TERN derived NVIS Hierarchy. Version 2. Terrestrial Ecosystem Research Network. Dataset. https://dx.doi.org/10.25901/0s16-6m34 
Data can be accessed from the following links:
HTTPTERN EcoPlots Portal
HTTPTERN Derived NVIS Vegetation Hierarchy Data
HTTPTERN Derived NVIS Vegetation Hierarchy Data Dictionary
HTTPTERN Derived NVIS Vegetation Hierarchy README
HTTPPoint-of-truth metadata URL
HTTPro-crate-metadata.json
The TERN Derived NVIS Hierarchy dataset is a derived vegetation classification product generated from the TERN Ecosystem Surveillance Monitoring dataset. It provides standardised National Vegetation Information System (NVIS) vegetation classifications for permanent 1 ha monitoring plots across Australia by applying the NVIS Classification Framework to quantitative vegetation measurements collected using the AusPlots monitoring methodology.

The dataset was derived from point-intercept observations, vegetation height measurements, plant growth forms and taxonomically verified floristic records to generate the six levels of the NVIS Vegetation Hierarchy: Class, Structural Formation, Broad Floristic Formation, Sub-formation, Association and Sub-association. Additional derived attributes include average vegetation heights, vegetation cover values for upper, mid and ground strata, and NVIS structural formation codes.

The Level 5 Association descriptions were subsequently classified using the Australian Government National Vegetation Information System (NVIS) Vegetation Information Classifier Tool Automator (VICTA) to assign Major Vegetation Groups (MVGs) and Major Vegetation Subgroups (MVSs). The dataset provides a nationally consistent vegetation classification for long-term ecosystem monitoring, vegetation mapping, biodiversity assessment and environmental reporting.
 
Credit
We at TERN acknowledge the Traditional Owners and Custodians throughout Australia, New Zealand and all nations. We honour their profound connections to land, water, biodiversity and culture and pay our respects to their Elders past, present and emerging. 
Purpose
The purpose of this dataset is to provide a repeatable, quantitative and nationally standardised vegetation classification for TERN Ecosystem Surveillance monitoring plots using the National Vegetation Information System (NVIS) Classification Framework.

Historically, vegetation structural summaries were recorded as qualitative field descriptions, resulting in inconsistencies between observers and limiting comparison across sites and alignment with national vegetation classifications. This derived dataset replaces subjective vegetation descriptions with classifications generated from quantitative vegetation measurements, including vegetation cover, average height, plant growth forms and floristic composition.

The dataset supports consistent vegetation classification across Australia's TERN Ecosystem Surveillance monitoring network, improves data quality and reproducibility, reduces manual interpretation and facilitates interoperability with the National Vegetation Information System through automated assignment of Major Vegetation Groups (MVGs) and Major Vegetation Subgroups (MVSs). It is intended to support ecological monitoring, vegetation mapping, biodiversity assessments and environmental reporting.
 
Lineage
Vegetation data were collected at permanent 1 ha TERN Ecosystem Surveillance monitoring plots using the AusPlots standard field methodology. Source data included point-intercept observations, vegetation height measurements, plant growth forms and taxonomically verified floristic records. Automated Python workflows applied the National Vegetation Information System (NVIS) Classification Framework to calculate vegetation cover, average vegetation heights and the six levels of the NVIS Vegetation Hierarchy for each monitoring plot. The resulting Level 5 Association descriptions were subsequently classified using the NVIS Vegetation Information Classifier Tool Automator (VICTA) to assign Major Vegetation Groups (MVGs) and Major Vegetation Subgroups (MVSs).
 
Method DocumentationTERN derived NVIS Vegetation Hierarchy METHODS
Procedure Steps

1. 

Vegetation data were collected at permanent 1 ha TERN Ecosystem Surveillance monitoring plots following the AusPlots standard field methodology. 

2. 

Point-intercept observations, vegetation heights, plant growth forms and taxonomically verified floristic records were extracted from the parent TERN Ecosystem Surveillance Monitoring dataset. 

3. 

Plant growth forms were standardised to NVIS growth forms using AusTraits growth form information. 

4. 

Vegetation cover metrics (canopy cover, foliage projective cover and percentage cover) and average vegetation heights were calculated for the upper, mid and ground strata. 

5. 

Dominant growth forms, dominant genera and dominant species were identified for each vegetation stratum using quantitative cover values and floristic composition. 

6. 

Automated Python workflows applied the NVIS Classification Framework to generate the six hierarchical levels of the NVIS Vegetation Hierarchy: Class, Structural Formation, Broad Floristic Formation, Sub-formation, Association and Sub-association 

7. 

The Level 5 Association descriptions were processed using the NVIS Vegetation Information Classifier Tool Automator (VICTA) to assign Major Vegetation Groups (MVGs) and Major Vegetation Subgroups (MVSs). 

8. 

Quality assurance was undertaken by comparing derived classifications against representative monitoring plots and reviewing anomalous classifications prior to publication. 

9. 

The completed derived dataset was published as a child dataset of the TERN Ecosystem Surveillance Monitoring dataset. 

Spatial Description
Data not provided. 
Temporal Coverage
From 2011-06-16 to on going 
Spatial Resolution

Data not provided.

Vertical Extent

Data not provided.

Data Quality Assessment Scope
Caveats:
  • NVIS substrata are not delineated in this dataset. It includes up to 3 traditional strata: U - Upper stratum - Upper, tree Overstorey/ canopy, M - Mid stratum - Mid, shrub layer, G - Ground stratum - Lower, ground layer.
  • Vegetation height is recorded using the point intercept method. Height is estimated where vegetative material is hit in the canopy and for plants less than 2m the height where the staff is intercepted. Average height values will therefore be an underestimate, particularly for taller vegetation.
  • Vegetation cover estimates are calculated from 1,000 point-intercept observations per plot. In sparse or open vegetation communities, cover estimates may vary depending on plot position relative to vegetation patches.
  • The Broad Floristic Formation (NVIS Level 3) combines the dominant genus with the structural formation of the dominant growth form. It may be misleading for some plots where the genus of the dominant species is used, whereas the structural formation is based on the dominant growth forms combined. i.e. Atriplex low open tussock grassland (Site location name NSABHC0009).
  • Plant growth forms were translated from AusTraits growth forms to the corresponding NVIS growth forms.
  • Floristics follows the Australian Plant Census (APC) for accepted scientific names for the Australian vascular flora, ferns, gymnosperms.
  • Major Vegetation Group (MVG) and Major Vegetation Subgroup (MVS) assignments are generated automatically using the NVIS Vegetation Information Classifier Tool Automator (VICTA). Some records include expert review comments where automated assignments require interpretation or refinement.
 
Data Quality Report
Data not provided. 
Data Quality Assessment Outcome
Data not provided. 
ANZSRC - FOR
BIOLOGICAL SCIENCES
Ecology
Data Stream
Flora Survey
Site Survey
GCMD Sciences
BIOSPHERE - BIOMASS
BIOSPHERE - CANOPY STRUCTURE
BIOSPHERE - CROWN
BIOSPHERE - DOMINANT SPECIES
BIOSPHERE - FOREST COMPOSITION/VEGETATION STRUCTURE
BIOSPHERE - VEGETATION
BIOSPHERE - VEGETATION COVER
BIOSPHERE - VEGETATION DENSITY
BIOSPHERE - VEGETATION HEIGHT
BIOSPHERE - VEGETATION SPECIES
Horizontal Resolution
100 meters - < 250 meters
Parameters
average vegetation height (ground stratum)
average vegetation height (mid stratum)
average vegetation height (upper stratum)
canopy cover (upper stratum)
foliage projective cover (mid stratum)
National Vegetation Information System vegetation hierarchy
NVIS association
NVIS broad floristic formation
NVIS class
NVIS cover class derivation
NVIS height class derivation
NVIS structural formation
NVIS sub-association
NVIS sub-formation
percentage cover (ground stratum)
Project
TERN Ecosystem Surveillance
Terrestrial Ecosystem Research Network
Temporal Resolution
Decadal
Topic
biota
environment
User Defined
National Vegetation Information System (NVIS) Classification Framework
Author
Lewis, Donna
Ho Hai Vo, Huy
Co-Author
Steen, Carly
Starkey, Michael
Gerlek, Alena
Tokmakoff, Andrew
Sparrow, Ben
TERN Ecosystem Surveillance
Contact Point
Sparrow, Ben
Steen, Carly
Lewis, Donna
Publisher
Terrestrial Ecosystem Research Network
By Parent record
TERN Ecosystem Surveillance Monitoring
Terrestrial Ecosystem Research Network
80 Meiers Road, Indooroopilly, Queensland, 4068, Australia.
Contact Us
Creative Commons Attribution 4.0 International Licence
https://creativecommons.org/licenses/by/4.0/
The Creative Commons Attribution 4.0 International (CC BY 4.0) license allows others to copy, distribute, display, and create derivative works provided that they credit the original source and any other nominated parties. Details are provided at https://creativecommons.org/licenses/by/4.0/ 
Please cite this dataset as {Author} ({PublicationYear}). {Title}. {Version, as appropriate}. Terrestrial Ecosystem Research Network. Dataset. {Identifier}. 
TERN services are provided on an "as-is" and "as available" basis. Users use any TERN services at their discretion and risk. They will be solely responsible for any damage or loss whatsoever that results from such use including use of any data obtained through TERN and any analysis performed using the TERN infrastructure.
Web links to and from external, third party websites should not be construed as implying any relationships with and/or endorsement of the external site or its content by TERN.

Please advise any work or publications that use this data via the online form at https://www.tern.org.au/research-publications/#reporting 

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Version:6.5.1