The COVID-19 pandemic in 2020 may have had an impact on some of the figures in this release.
The general purpose of economy-wide material flow accounts (MFA) is to describe the interaction of the domestic economy with the natural environment and the rest of the world economy in terms of flows of materials. Only flows crossing the system boundary, as inputs from the environment into the economy or as outputs from the economy into the environment, are counted. Material flows within the economy are not taken into account.
Material inputs to the economy cover extractions of materials (excluding water and air) from the natural environment and imports of goods. Material outputs are disposals of materials to the natural environment and exports of goods.
Data are revised on an annual basis as corrections and revisions to the figures are applied.
The legal basis for producing Material Flow Accounts is EU Regulation (EU) 691/2011 and its amendment EU Commission Delegated Regulation (EU) 2022/125.
Material inputs from the natural environment to the economy are called domestic extraction. There are four types of domestic extraction:
Materials that are extracted from the environment without the intention of using them are not included. Examples of unused extraction are soil and rock excavated during construction, overburden from mining, the unused parts of felling in forestry, unused catch in fishing, unused parts of the straw harvest in agriculture, and natural gas flared or vented.
Biomass in general comprises organic non-fossil material of biological origin. The flow from the environment to the economy is recognised at the point of harvest. The classification of material flows for domestic extraction of biomass has six main sections:
A characteristic feature of all types of biomass is its considerable high moisture content, which may account for more than 95% in the case of fresh living plant biomass. The moisture content is very variable across plant parts and species and vegetation periods. Fodder crops, grazed biomass and wood have to be converted to a standardised moisture content. Other biomass is accounted for at its weight at the time of harvest.
Crops: This category includes primary harvest of all crops from arable land and permanent cultures. This includes major staple foods such as cereals, roots and tubers, pulses, vegetables as well as commercial feed crops, industrial crops and all fruits and nuts from permanent cultures. It also includes flowers, Christmas trees, seeds, and short rotation wood such as Miscanthus and Willow. Own account production of agricultural goods is regarded as domestic extraction.
Used Crop Residues: In most cases, primary crop harvest is only a fraction of the total plant biomass of the respective cultivar. The residual biomass, such as straw, may be put to further economic use such as for bedding material in livestock husbandry, as animal feed, for energy production, and as industrial raw material. Crop residues are regarded as domestic extraction irrespective of whether they are sold or used for intra-unit consumption. Residues which are ploughed into the soil or burned in the field are not accounted for as used extraction. A significant amount of fodder is consumed by animals feeding directly from pastures (grazed biomass). Grazed biomass is regarded as domestic extraction. Grass type fodder crops have been reported in dry weight (15% moisture content).
Straw crop residue figures are generated by multiplying cereal crop tonnage by Eurostat harvest and recovery rates.
Other crop residues are obtained by multiplying the tonnage figures of oil seed rape, sugar beet and fodder beet residues by their respective harvest and recovery rates.
Fodder Crops: Figures are generated by taking grass silage, hay, arable silage, fodder beet, green maize, fodder rape and kale and other cereals figures and multiplying the area under cultivation by national yield factors. Fodder crops are reported in dry weight.
Grazed Biomass: Two main estimation methods are possible for the calculation of grazed biomass: a supply-side approach or a demand-side approach. The supply-side approach multiplies the areas under grass silage, hay, pasture and rough grazing by national yield factors.
The demand-side approach takes the annual fodder requirement of the existing livestock and subtracts it from the overall roughage requirement of livestock. The total roughage requirements for ruminant animals is calculated using average roughage intakes per animal multiplied by the number of animals in each category.
The supply side approach to the calculation of grazed biomass has been the one adopted in the production of statistics for this release.
Wood from cultivated and non-cultivated forests: Only harvested timber is regarded as domestic extraction and not the total growth of trees. Figures from the CSO Roundwood Removals Survey were used for 2015 onwards. Figures from the Forest Service were used prior to 2015.
Wet wood figures have been transformed into dry mass at 15% moisture content using national conversion factors rather than Eurostat coefficients as in previous years. The figures refer to wood harvested on an “overbark” basis. Bark accounts for approximately 10% of stem wood weight. A significant fraction of the bark is of economic use (e.g. energy production). The part of the bark which is used is regarded as domestic extraction. All biomass which remains in the forest, and is not used (branches, root-stock etc.), is not counted as domestic extraction. It is assumed that all harvested wood over bark is used economically.
Wild fish catch, aquatic animals/plants, hunting and gathering: This category comprises the extraction of all wild (non-cultivated) aquatic biomass including seaweed as well as fish caught in sea and inland waters. Cultivated aquatic resources (aquaculture) are not regarded as domestic extraction. There is a discontinuity in the time series. Figures from 2007 onwards are compiled by the CSO and refer to fish landings by Irish vessels in Irish ports and Irish vessels in foreign ports (in tonnes of live weight equivalents). Figures between 2000 and 2004 are provided by the CSO and refer to fish landings by Irish boats in Irish ports, while figures for 2005-2006 are provided by the Sea Fisheries Protection Authority and refer to all fish landings in Ireland.
In Material Flow Accounts extraction of metal ores is measured as gross ore. Accounting for domestic extraction of metals and non-metallic minerals refers to the run-of-mine production (the total amount of extracted crude mineral that is submitted to the first processing step). Material extracted but not used as an input for subsequent processing is not counted as domestic extraction.
If two or more metals are obtained from the same crude ore then the total amount of ore has to be allocated to the different metals. This occurs in Ireland where lead and zinc are mined together. The allocation of gross ore to lead and zinc was calculated using the relative shares of the metal content for both metals in volume terms (rather than the relative value shares used in previous years). A small amount of silver is also mined.
The figures for lead, zinc, and silver extraction were obtained from the Department of Environment, Climate and Communications.
Non-metallic minerals cover the following categories:
The CSO PRODCOM survey was the main data source used to compile these figures. Adjustments were made in some years for non-response, incorrect returns and below threshold items. The crushed rock and sand and gravel statistics were supplemented using the CSO Road Freight Survey for data not reported in PRODCOM. The basis for this under-reporting assumption is that PRODCOM data relate to sales by enterprises with 3 or more employees and hence may exclude aggregates extracted for own use as well as below threshold activity.
The Sustainable Energy Authority of Ireland’s energy balance is the main data source for the domestic extraction of fossil fuels. Peat for combustion and natural gas are the two main material products that are extracted. Peat used for non-energy purposes such as horticulture is included. CSO PRODCOM and Trade data were used to make estimates where data on horticultural peat were not available from industry sources. Data on natural gas were converted from cubic metres into tonnes using conversion factors supplied by the SEAI.
The demarcation of trade flows follows the methodology used in external trade statistics (goods are measured as they physically cross the national frontier), rather than the residence principle as applied in National Accounts.
Eurostat has provided a key for classifying goods according to their level of manufacturing.
Some traded products are measured in units other than net mass e.g. number of aircraft. The net mass has been estimated using the monetary value or the supplementary unit figure.
Domestic Processed Output indicates the total weight of materials which are released back to the environment after being used in the domestic economy. There are five main categories:
Emissions to air are gaseous or particulate materials released to the atmosphere from production or consumption processes in the economy. Air emissions include emissions from controlled landfills because such landfills are considered to be part of the economy.
Air emissions figures are based on the application of the Territorial Principle used in National Inventory Reports compiled by the Environmental Protection Agency under the UN Framework Convention on Climate Change and the Convention on Long-Range Transboundary Air Pollution. Under the Territorial Principle emissions from the national territory are included and those outside the national territory are excluded. In contrast, under the Residence Principle, air emissions arising from resident units of a given national economy, are recorded regardless of where these emissions occur geographically.
Oxygen is drawn from the atmosphere during fossil fuel combustion and other industrial processes. In Material Flow Accounts, this atmospheric oxygen is not included in the totals on the input side (Domestic Extraction etc.) but it is included in the totals on the output side (Domestic Processed Output). The reason is that oxygen is a constituent part of the pollutants and greenhouse gases, and that these emissions are usually reported and analysed with their oxygen content. To arrive at a full mass balance, the missing oxygen on the input side is reported as input balancing items.
This sub-category includes:
This category does not include carbon dioxide emissions from land use and land use changes which are considered as flows within the environment. Carbon dioxide emissions from human and animal respiration are classified as output balancing items.
Carbon Dioxide excluding Biomass Combustion: This category includes carbon dioxide emissions from the decomposition of waste in controlled landfills, animal digestion, decomposition of animal wastes, production and distribution of natural gas and oil, coal production, and incomplete fossil-fuel combustion.
Methane emissions from uncontrolled landfills are not included as Emissions to air as those landfills are classified as part of the environment rather than as part of the economy - wastes deposited in controlled landfills are accounted for as an addition to stock.
Ammonia emissions from agriculture are not included in emissions to air.
Wastes are commonly reported in wet weight which have been converted to dry matter weight. The figures for this category were obtained from the EPA.
Emissions to water are materials which cross the boundary from the economy back into the Environment. Only data on flows of pollutants into the water bodies were reported and not data on pollutant concentration in the water bodies. The figures for this category were obtained from the EPA. It is assumed that 5% of organic fertiliser (manure) produced is lost as an emission to water.
Examples of dissipative use are inorganic and organic fertilisers such as manure, compost, or sewage sludge. Manure spread on agricultural land is reported in dry weight.
The fertiliser figures consist of three straight fertilisers (nitrogen, phosphorus and potassium), compound products and agricultural lime. These are reported in total weights rather than nutrient contents.
Sewage sludge refers to any solid, semi-solid, or liquid residue removed during the treatment of municipal waste water or domestic sewage. Sewage sludge is reported in dry weight by the Environmental Protection Agency.
Compost is used as a fertiliser. It is reported in dry weight.
Pesticides have been reported as active ingredients rather than total mass.
Dissipative losses are unintentional outputs of materials to the environment resulting from abrasion, corrosion, and erosion at mobile and stationary sources, and from leakages or from accidents during the transport of goods. No data for dissipative losses have been calculated for this release.
These data comprise items required on the input side to balance a given output which is already accounted for, or items which must be considered on the output side to balance a given input.
Input Balancing Items: These consist of oxygen used in combustion processes; oxygen used in respiration by humans, livestock and bacterial respiration from solid waste and wastewater; nitrogen used in the Haber-Bosch process to produce ammonia; and water requirements for the domestic production of exported beverages. The calculation of these input items relies on the use of coefficients in the Eurostat Material Flow Accounts Compilation Guidelines.
Output Balancing Items: These consist of water vapour released by the combustion of fuels; water vapour and carbon dioxide produced by the respiration of humans and livestock; and excorporated water from biomass products. The calculation of these output items relies on the use of conversion coefficients in the Eurostat Material Flow Accounts Compilation Guidelines and Table G Estimation Tool in the Eurostat EW-MFA Questionnaire.
Domestic Material Consumption measures the total amount of material used within a national economy. It is the sum of domestic extraction plus imports less exports.
Net Material Accumulation is the difference between inputs from the environment and the Rest of the World into the economy and the outputs from the economy into the environment and the Rest of the World.
Resource Productivity measures the amount of GDP at constant prices compared with Domestic Material Consumption. It is a measure of how efficiently resources are used in the economy.
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