By 2024, the implementation of energy efficiency (EE) and renewable energy source (RES) measures in the public sector resulted in a cumulative energy savings of 358 GWh, and the cumulative CO₂ emissions reduction was 87 kt. The 2020 target values were only achieved in 2023 and 2022. The gap is largely due to the insufficient intensity of investments in 2016 and 2017. The transition from one financial perspective to the other is expected to be visible also in 2025. No 2030 targets have been set for this indicator.

The cumulative final energy savings due to the implementation of energy efficiency (EE) and renewable energy source (RES) measures in the residential sector amounted to 1,130 GWh in the period 2021–2024, and the cumulative CO₂ emissions reduction was 264 kt. Compared to the previous year, annual energy savings decreased by 3%, while the reduction in CO₂ emissions increased by a good one percent, making it the highest in the observed period.

Greenhouse gas (GHG) emissions due to land-use change generally show a declining trend. In 2023, GHG emissions from deforestation decreased by 1.5% compared to the previous year, with more than half, i.e. 62%, of these emissions coming from the establishment of agricultural land. GHG emissions due to land conversion to built-up and related land decreased by 2.7% compared to the previous year. The largest share of emissions (75%) is due to the conversion of agricultural land to built-up and related land.

Slovenian forests are over-mature, the current ratio of forest development phases is unfavourable, forest regeneration is too slow, or the areas of forests under restoration are too small to significantly change the share of forest development phases and thus ensure sustainable forest development. The role of forests as a carbon sink is at risk.

Most Slovenian forests are still undergoing natural regeneration, which guarantees the stability of future forest stands and adaptation to the changing site conditions caused by climate change. Restoration by planting seedlings and sowing (artificial regeneration) only complements natural regeneration when disturbances occur in the process of the natural regeneration of the forest, e.g. where there is no possibility of natural seeding, with the risk of developing erosion processes on exposed forest areas (e.g.