Mapping and assessment of future changes in the coastal and marine ecosystem services supply in Lithuania.

Assessing and mapping ecosystem services (ES) became an integral part of coastal and marine management practices. Hence, quantitative and validated approaches are lacking, especially to address future conditions. The objective of this study is to apply further existing and develop new methodological frameworks to quantitatively assess and map the current and future supply of 3 ES in the coastal zone of Lithuania: coastal flood protection, nutrient regulation, and maintenance of nursery conditions. For coastal flood ES modelling, 2 time periods (1990 and 2018) and 4 scenarios (A0, A1 A2, A3 - based on future socio-economic changes in Lithuania) were analysed. The coastal flood protection ES model was validated (r2 = 0.30) using tree cover density. The results showed spatial differences among the analysed periods but no statistical differences. High supply areas are located in the southern coastal area, while the central part displays a low supply. For nutrient regulation and maintenance of nursery conditions, 7 time periods were analysed: a historical period and 6 scenarios based on Representative Concentration Pathway 4.5 and 8.5 and 3 Shared Socioeconomic Pathways. The nutrient regulation ES model was validated (r2 = 0.85) using in situ nutrient. Statistical differences were observed for this ES, but a similar spatial distribution of high and low supply areas. A decrease in the supply was observed comparing the historical period and future scenarios. Maintenance of nursery conditions was validated (r2 = 0.72) based on the protection status of the coastal zone. Results show no statistical differences and similar spatial patterns among the periods. Rocky and sandbank areas show a high supply for this ES. Limitations of our work are mainly related to the resolution of the utilised indicators. Nevertheless, the information obtained from our models can support spatial planning and decision-making processes.

Future land-use changes and its impacts on terrestrial ecosystem services: A review.

Terrestrial ecosystem services (ES) are vulnerable to land use and land cover changes (LULCC). These changes are triggered by different drivers of change (e.g., economic, social, political, environmental - climate change). Understanding the potential future LULCC is an effective way to anticipate the impacts on ES supply. In recent years, some researchers applied different spatial modelling methods to assess the potential LULCC future impacts on ES supply, but so far, no systematic review was carried out. This work aims to do a bibliographic review about future LULCC and their implications on ES supply (provisioning, regulating, and cultural services). After a rigorous bibliographic review, we identified 957 papers. However, only 79 papers meet the criteria to be used in the review. The results showed that (i) the studies have been mainly focused on Asia (55.70%) and Europe (17,72%); (ii) the most common and extensively used models to project future LULCC were cellular automata (30.86%), CLUE-S model (8.64%) and Land Change Modeler (8.64%); and (iii) the most used methods to assess future impacts on ES were the InVEST model (24.04%), and equations used in previous works (12.5%). These studies were mainly focused on measuring future impacts on provisioning (44.11%) and regulating services (43.59%). Also, most of the works lack external validation. The diversity of studies evaluated allowed to recognise gaps and outline insights into the current scientific research on this scientific domain, representing an essential contribution to the current state of knowledge by supporting both practitioners and scientists.

Future scenarios impact on land use change and habitat quality in Lithuania.

Anticipating future land use and land cover (LULC) changes can improve our knowledge of the complexity of human-environment interactions that lead to transformations in the landscape. Therefore, it is key to understand these LULC changes under different scenarios and how they affect habitat quality (HQ) a key indicator for ecosystem services (ES) supply quality. This work aims to study the impacts of LULC changes under different scenarios: business as usual (A0), urbanisation (A1), land abandonment and afforestation (A2) and agriculture intensification (A3) in 2050. To simulate future LULC changes we applied the Cellular Automata (CA) method, and to assess HQ, the Integrated Valuation of Ecosystem Services and Trade-offs (InVEST) model was used. Spatial autocorrelation was assessed with a Moran's I index and the Getis Ord* hotspot analysis. The result showed that the LULC model calibration and validation were accurate (80%). Between 1990 and 2018 there was an increase in urban areas and forest and woodlands, which was reflected in the A0 scenario in 2050. Under the A1 scenario there was an increase in the urban area (4628 ha) compared to 2018, and in the most important cities (e.g., Vilnius, Kaunas, Klaipeda) in the scenario A2 there was an increase of 375,820 ha of woodland and forest. Finally, under the scenario A3, a large growth in cropland area (884,030 ha) was identified. HQ model had a better validation using three cover density data (r2 = 0.67), than with imperviousness (r2 = 0.26). A2 scenario showed the highest HQ and A3 scenario have the lowest HQ. The land uses of 1990, 2018, and A3 scenario had a clustered distribution while A0, A1 and A2 showed a random pattern. The results can support policy-makers by assessing the impact of future LULC changes in Lithuania.