Assessment versions
Published (reviewed and quality assured)
Rationale
Justification for indicator selection
MAIN ADVANTAGES OF THE INDICATOR
- Growing stock is a traditional indicator of sustainability of the forest sector and is also used as a proxy for biodiversity. The sustainable development of growing stock in forests and other wooded land, through the comparison of fellings and net annual increment is evaluated on the basis of long-term available data for all pan-European countries.
- The information is easily understandable.
- Future assessments will be based on regular reporting, supporting the analysis of long-term trends. This will help assess sustainability levels.
Scientific references
- No rationale references available
Indicator definition
This indicator looks at the growing stock in forests and other wooded land. Growing stock is classified by forest type and by availability for wood supply. The indicator considers the balance between net annual increment and annual fellings of wood in forests to be made available for wood supply.
Units
The following units are used in this indicator:
Growing stock (m3 per hectare)
Ratio of fellings to increment (%)
Utilisation rate (%)
Policy context and targets
Context description
Growing stock is one of the basic statistics of any forest inventory and is useful for various purposes. The standing volume of growing stock can be converted into estimates of above and below-ground woody biomass by applying biomass expansion factors. Data on growing stock, increment and fellings are crucial for the calculation of carbon budgets in the forest sector.
How the indicator relates to the focal area
The balance between increment and fellings highlights the sustainability of timber production over time as well as the current availability and the potential for future availability of timber. For long-term sustainability, the annual fellings must not exceed the net annual increment, agreed to be less than 70 % over the long term.
An increase in growing stock relative to forest area is an indication of a maturing forest. The balance between growth and fellings in production forests is the best indicator to understand the forest's potential for wood production, and the conditions it provides for biodiversity, health, recreation and other forest functions.
Targets
EU 2020 biodiversity target 3
Related policy documents
-
A new EU Forest Strategy
A new EU Forest Strategy: for forests and the forest-based sector.
Communication from the Commission to the European Parliament and the Council, the Economic and Social Committee and the Committee of the Regions ‘A new EU Forest Strategy: for forests and the forest-based sector’, COM(2013) 659 final.
The EU needs a policy framework that coordinates and ensures coherence of forest-related
policies and allows synergies with other sectors that influence forest management. The new forest strategy is a key reference in forest-related policy development. EU forests
and forest sector need to be positioned in a way that ensures their contribution to the EU’s
objectives and targets. This implies to:
• Ensure that the multifunctional potential of EU forests is managed in a sustainable and
balanced way, enabling our forests’ vital ecosystem services to function correctly.
• Satisfy the growing demand for raw material for existing and new products (e.g. green
chemicals or textile fibres) and for renewable energy. This demand is an opportunity
to diversify markets, but poses a significant challenge for sustainable management and
for balancing demands. Demand for new uses in the bioeconomy and in bioenergy
should be coordinated with traditional demands, and respect sustainable boundaries.
• Respond to the challenges and opportunities that forest-based industries face in
resource and energy efficiency, raw materials, logistics, structural adaptation,
innovation, education, training and skills, international competition, climate policy
beyond 2020 and information and communication, to stimulate growth.
• Protect forests and biodiversity from the significant effects of storms and fires, increasingly scarce water resources, and pests. These threats do not respect national borders and are exacerbated by climate change.
• Acknowledge that the EU does not only rely on its own production, and that its
consumption has implications for forests worldwide.
• Develop an adequate information system to follow-up on all of the above.
-
EU 2020 Biodiversity Strategy
in the Communication: Our life insurance, our natural capital: an EU biodiversity strategy to 2020 (COM(2011) 244) the European Commission has adopted a new strategy to halt the loss of biodiversity and ecosystem services in the EU by 2020. There are six main targets, and 20 actions to help Europe reach its goal.
The six targets cover:
- Full implementation of EU nature legislation to protect biodiversity
- Better protection for ecosystems, and more use of green infrastructure
- More sustainable agriculture and forestry
- Better management of fish stocks
- Tighter controls on invasive alien species
- A bigger EU contribution to averting global biodiversity loss
Key policy question
Is forestry in Europe sustainable in terms of the balance between the increment of growing stock and fellings?
Methodology
Methodology for indicator calculation
Definition of terms:
Growing stock
The living tree component of the standing volume.
The standing volume refers to the volume of standing trees, living or dead, above-stump measured overbark to top (0 cm). It includes all trees with diameter over 0 cm at breast height (d.b.h., i.e. typically at 130 cm above stump). Standing volume includes tops of stems, large branches, dead trees lying on the ground that can still be used for fibre or fuel. It excludes small branches, twigs and foliage (UNECE/FAO, 2000).
Gross annual increment
This is the average annual volume of increment over the reference period for all trees and is usually measured at a minimum d.b.h. of 0 cm. It includes the increment on trees that have been felled or that died during the reference period (UNECE/FAO, 2000).
Net annual increment
This is the average annual volume over the given reference period of gross increment minus the the volume of natural losses on all trees with a minimum diameter of 0 cm d.b.h. (UNECE/FAO, 2000).
Annual fellings
This is the average annual standing volume of all trees, living or dead, measured overbark to a minimum diameter of 0 cm d.b.h. that are felled during the given reference period, including the volume of trees or parts of trees that are not removed from the forest, other wooded land or other felling site. It includes silvicultural and pre-commercial thinnings and cleanings left in the forest, and natural losses that are recovered (harvested) (UNECE/FAO. 2000).
Various methods exist in countries to estimate fellings. Fellings are measured from standing trees, from already felled trees, at factory gates or by using a combination of techniques. Typically, estimates of fellings for energy and especially the fraction of fellings for domestic firewood are difficult to make. Another issue in some countries is illegal logging and ranges for the volume of illegally felled wood are difficult to assess without a large error margin.
Combined with forest scenario modelling, it is also possible to create outlooks for the future development of this indicator. Such data are developed under the auspices of UNECE/FAO as part of its European Forest Sector Outlook Studies (formerly: European Timber Trends Studies).
Measurement units for growing stock
Status: m3
Changes: m3/yr
Status: m3/ha
Changes: m3/ha/yr
Measurement units for increment and fellings
Status: m3.
Changes: m3/yr.
Methodology for gap filling
N/A
Methodology references
-
status based on national forest inventories
FBI 2003 (Forest biodiversity indicators in the Nordic countries)
-
Terms and definitions (Final version)
FRA 2005 (Global forest resources assessment update) (2005). FAO Forestry Department. Rome, 2004
-
Terminology of Forest Management. Terms and Definitions in English
IUFRO (2000). IUFRO World Series Vol. 9-en. IUFRO Secretariat Vienna. SilvaTerm Database.
-
Forest resources in Europe 1950-1990
Kuusela, K. 1994. Cambridge University Press.
-
TBFRA Supplementary Enquiry for Data on Protected and Protective Forests and Other Wooded Land
MCPFE (2000). MCPFE and UNECE, Geneva.
-
MCPFE Assessment Guidelines for Protected and Protective Forest and Other Wooded Land in Europe as adopted by the MCPFE Expert Level Meeting
MCPFE (2002). 10-11 June 2002, Vienna, Austria.
-
Communication from Mr. Almunia to the members of the Commission
SEC(2005) 161 final. Sustainable Development Indicators to monitor the implementation of the EU Sustainable Development Strategy.
-
Forest Resources of Europe, CIS, North America, Australia, Japan and New Zealand (TBFRA 2000)
UNECE/FAO (2000). Main report. UNECE/FAO Contribution to the Global Forest Resources Assessment 2000. United Nations, New York and Geneva.
-
Global Forest Resources Assessment 2005
UNECE/FAO (2005). Data for Europe, United Nations, New York and Geneva.
-
State of Europe's Forests 2003
MCPFE (2003). The MCPFE Report on Sustainable Forest Management in Europe. Jointly prepared by MCPFE Liaison Unit Vienna and UNECE/FAO. Vienna.
-
European forest ecosystems - State and Trends
EEA Report No 5/2016
Data specifications
EEA data references
- No datasets have been specified here.
External data references
Data sources in latest figures
Uncertainties
Methodology uncertainty
No uncertainty has been specified
Data sets uncertainty
No uncertainty has been specified
Rationale uncertainty
MAIN DISADVANTAGES OF THE INDICATOR
- The indicator should be interpreted carefully, for example, fast-growing non native species, fertilisation etc. may contribute to an increase in growing stock, but may also be detrimental to biodiversity.
ANALYSIS OF OPTIONS
Forest Europe quantitative indicators (http://foresteurope.org/sfm-criteria-indicators2/) all relate to sustainable forestry management. From this set, those with most direct relevance to biodiversity were selected.
Further work
Short term work
Work specified here requires to be completed within 1 year from now.
Long term work
Work specified here will require more than 1 year (from now) to be completed.
Identification
Specification
Version id: 2
First draft created:
Publish date:
Last modified:
Frequency of updates
Updates are scheduled every 4 years
Classification
DPSIR: Pressure
Typology: Descriptive indicator (Type A - What is happening to the environment and to humans?)
Document Actions
Share with others