File | 2021
Mitigation measures to reduce impact of onshore wind power projects
The mitigation hierarchy provides developers with a logical framework to address the negative impacts of development on biodiversity and ecosystem services. It is applicable to projects in any sector, including renewable energy, and is based on the sequential and iterative application of four…
File | 2021
Mitigation measures to reduce impact of onshore wind power projects
The mitigation hierarchy provides developers with a logical framework to address the negative impacts of development on biodiversity and ecosystem services. It is applicable to projects in any sector, including renewable energy, and is based on the sequential and iterative application of four…
File | 2021
Mitigation measures to reduce impact of solar power projects
The mitigation hierarchy provides developers with a logical framework to address the negative impacts of development on biodiversity and ecosystem services. It is applicable to projects in any sector, including renewable energy, and is based on the sequential and iterative application of four…
File | 2021
Biodiversity impacts associated to offshore wind power projects
The available scientific literature agrees on the key impacts of offshore wind: i) risk of collision mortality; ii) displacement due to disturbance (including noise impacts); iii) barrier effects (also including noise impacts); iv habitat loss; and v) indirect ecosystem-level effects. There is…
File | 2021
Biodiversity impacts associated to onshore wind power projects
Studies on biodiversity impacts of onshore wind have focused mainly on birds, bats and natural habitats, with limited understanding of impacts to other taxa, including non-flying mammals. Wind energy developments can affect birds and bats through direct mortality and through loss and degradation…
File | 2021
Biodiversity impacts associated to solar power projects
Solar plants have been shown to create positive biodiversity impacts when compared to other types of intensive land use. For example, solar plants in the UK previously used for agriculture were found to have a greater diversity of flora and birds when managed through grazing.
For more…
Grey literature | 2021
Industry guidance for early screening of biodiversity risk for offshore wind energy development
This document provides brief practical guidance on early risk screening for offshore wind projects. It outlines how to identify and avoid areas of high biodiversity sensitivity, based on the IUCN/TBC Guidelines for Mitigating biodiversity impacts associated with solar and wind energy development…
Grey literature | 2021
Industry guidance for early screening of biodiversity risk for solar energy development
This document provides brief practical guidance on early risk screening for solar projects. It outlines how to identify and avoid areas of high biodiversity sensitivity, based on the IUCN/TBC Guidelines for Mitigating biodiversity impacts associated with solar and wind energy development. It is…
Grey literature | 2019
Authors: L.B.N. Alonso, F.A.R. Barbosa, M.C.W. Brito, P. May, C. Maroun, L.E. Sánchez, Y. Kakabadse
Grey literature | 2019
Authors: L.E. Sánchez, L. Alonso, F.A.R. Barbosa, M.C.W. Brito, F.V. Laureano, P. May e Y. Kakabadse
The Issue Paper presents a systematic approach, which would facilitate the collection and analysis of key data and information required to carry out an impact assessment and to…