Dati della ricerca relativi al Dipartimento di Fisica dell'Università degli Studi di Milano - Bicocca
Data Types:
Collection
Contributors:Paolo Brambilla
Date:2021-01-20
Source:Mendeley Data
Dati della ricerca relativi al Dipartimento Medicina e Chirurgia degli Studi di Milano - Bicocca
Data Types:
Collection
Contributors:Paolo Brambilla
Date:2021-01-20
Source:Mendeley Data
Dati della ricerca relativi al Dipartimento di Scienze dell'Ambiente e della Terra dell'Università degli Studi di Milano - Bicocca
Data Types:
Collection
Contributors:Paolo Brambilla
Date:2021-01-20
Source:Mendeley Data
Dati della ricerca relativi al Dipartimento di Biotecnologie e Bioscienze dell'Università degli Studi di Milano - Bicocca
Data Types:
Collection
Contributors:Paolo Brambilla
Date:2021-01-20
Source:Mendeley Data
Dati della ricerca relativi al Dipartimento di Sociologia e Ricerca Sociale dell'Università degli Studi di Milano - Bicocca
Data Types:
Collection
Contributors:Paolo Brambilla
Date:2021-01-20
Source:Mendeley Data
Dati della ricerca relativi al Dipartimento di Psicologia dell'Università degli Studi di Milano - Bicocca
Data Types:
Collection
Contributors:Vassiliki Kati, CHRISTINA KASSARA
Date:2021-01-19
Source:Mendeley Data
Scientific context
Wind energy emerges as the leading RES technology anticipated to cover 25-30% of global electricity demand by 2050 [1]. The Greek State has set an ambitious national goal of achieving 35% of RES in its energy mix by 2030, with the share of wind harnessing rising to 37% of RES (7.05 GW) [2] .This is expected to bring about a conflict terrain of land competition for biodiversity conservation vs windfarm infrastructures.
Hereby, we present a sustainable scenario of spatial planning for development projects to maintain the integrity of ecologically sensitive areas and to minimize fragmentation nationwide. Specifically for onshore wind energy investments, it applies as follows: (a) the currently operating windfarms continue to operate for their lifetime all over the country without limitations, (b) the windfarms that have a construction permit are allowed outside the sites of the Natura 2000 network, (c) all other forthcoming windfarm investments (production and evaluation stages) are allowed only in the investment zone, i.e. in the most fragmented zones that lie outside the Natura 2000 network.
Description
The database consists of five geospatial layers: (a) The investment zone (41.4% of Greek land): it includes the three most fragmented zones (very high, high and medium) according to the Landscape Fragmentation Indicator (2015), of the territory outside the terrestrial part of the Natura 2000. (b) The windfarm-free zone (58.6% of Greek land): it includes the terrestrial part of the Natura 2000 network and the two least fragmented zones (very low and low) outside the network. (c) Windfarm sites (2020): 260 applications of operating windfarms and 1578 applications of windfarms in other permission stages, both onshore and offshore. An application may consist of multiple polygons (1880 polygons in total). (d) The two versions of the Natura 2000 network.
The database is linked to the paper (open access):
Kati, V., Kassara, C., Vrontisi, Z., Moustakas, A. (2021) The biodiversity-wind energy-land use nexus in a global biodiversit hotspot. Science of the Total Environment. https://doi.org/10.1016/j.scitotenv.2020.144471
Significance, use, limitations
The database can be used: (a) in the Strategic Environmental Planning for Renewable Energy Sources (SEA) and (b) in the spatial planning of other development projects (e.g. energy, transport, tourism). The database serves as a horizontal guideline. It does not replace Environmental Impact Assessments, Appropriate Assessments or wildlife sensitivity maps. The database is intended to be used by all stakeholders involved in the wind energy sector, such as investors, Ministry of Environment & Energy, policymakers, competent authorities, NGOs, and the general public.
Funding
This work was funded by the Natural Environment and Climate Change Agency.
References
[1] Veers P, et al. (2019) doi: 10.1126/science.aau2027.
[2] National Energy and Climate Plan (FEK 4893/Β/31-12-2019)