Species distribution modelling as basis for the ecosystem-based management: a case study for the Eastern Baltic Sea

201

Balancing profitability of energy production, societal impacts and biodiversity in offshore wind farm design

The global demand for renewable energy is on the rise. Expansion of onshore wind energy is in many parts of the world limited by societal acceptance, and also ecological impacts are a concern. Here, pragmatic methods are developed for the integration of high-dimensional spatial data in offshore wind energy planning. Over 150 spatial data layers are created, which either oppose or support offshore wind energy development, and represent ecological, societal, and economic factors. The method is tested in Finland, where interest in developing offshore wind energy is growing. Analyses were done using a spatial prioritization approach, originally developed for the prioritization of high dimensional ecological data, and rarely used in planning offshore wind energy. When all criteria are integrated, it is possible to find a balanced solution where offshore wind farms cause little disturbance to biodiversity and society, while at the same time yielding high profitability for wind energy production. Earlier proposed areas for offshore wind farms were also evaluated. They were generally well suited for wind power, with the exception of a couple of areas with comparatively high environmental impacts. As an outcome, new areas well suited for large scale wind power deployment were recognized, where construction costs would be moderate and disturbance to biodiversity, marine industries and people limited. A novel tradeoff visualization method was also developed for the conflicts and synergies of offshore energy deployment, which could ease the dialogue between different stakeholders in a spatial planning context. Overall, this study provides a generic and transparent approach for well-informed analysis of offshore wind energy development potential when conflict resolution between biodiversity, societal factors and economic profits is needed. The proposed approach is replicable elsewhere in the world. It is also structurally suitable for the planning of impact avoidance and conflict resolution in the context of other forms of construction or resource extraction.Peer reviewe

Tulosperusteiset rahoitusmallit kalastonhoidon vauhdittajina

Ympäristöhaasteiden ratkaiseminen vaatii systeemisiä muutoksia ja rahallisia panostuksia. Samaan aikaan julkisen sektorin kyvykkyys rahoittaa vaadittavia toimenpiteitä on heikentynyt julkisen talouden kasvavan kestävyysvajeen vuoksi. On tärkeää kehittää aktiivisesti uusia rahoitustapoja, jotka tehostavat julkisen rahan vaikuttavuutta sekä perustuvat malleihin, joilla yksityistä sijoituspääomaa pystytään hyödyntämään ympäristötavoitteiden edistämisessä nykyistä enemmän. Uudet tulosperusteiset rahoitusmallit siirtävät tarkastelun tarkkaan rajattujen suoritteiden tai toimien hankinnasta tulosten ja vaikutusten perusteella tapahtuviin maksuihin ja muuttavat nykyiset ympäristöhaasteet sijoituskohteiksi. Kalavarojen tilan parantaminen on tärkeä yhteiskunnallinen tavoite, jonka saavuttaminen edellyttää onnistumisia mm. kalastuksen säätelyssä, vaellusreittien avaamisessa ja veden tilan parantamisessa. Esiselvityksessä tarkastellaan minkälaisiin tavoitteisiin ja toimenpiteisiin tulosperusteiset rahoitus- ja hankintamallit voisivat soveltua kalavarojen tilaa parantavien toimien osalta. Lisäksi työssä arvioidaan uudenlaisten rahastomallien mahdollisuuksia lisätä yksityistä rahoitusta tai sijoituspääomaa kalataloudellisten kunnostusten toteuttamiseen. Selvitystyön perusteella tavoitteena on käynnistää pilotointityö tulosperusteisista rahoitusmalleista kalataloudellisissa kunnostuksissa

Predator 12prey body size relationships of cod in a low-diversity marine system

How predators select their prey largely defines ecosystem trophic structure, function and dynamics. In aquatic systems, organism body size is an important trait explaining predator 12 prey interactions. Here, we used a unique Atlantic cod Gadus morhua stomach content dataset with diet information from over 100 000 individuals collected from the Baltic Sea in 1963 122014, to explore prey size distribution and predator 12prey mass ratios in the diet of Eastern Baltic cod. Maximum and average prey sizes increased with predator size, as for cod in other systems. However, the prey size spectra found in Eastern Baltic cod stomachs reflect the low species diversity in the Baltic Sea. In general, Eastern Baltic cod feed on smaller prey in relation to their body size than other cod populations. Due to the truncated prey size distribution in the Baltic Sea, cod cannibalism functions as a compensatory mechanism that allows Baltic cod to reach their prey size potential. On the other hand, small- and intermediate-sized cod prey mainly on a few invertebrate prey species, potentially making them vulnerable to changes in these prey populations. Our results encourage further studies disentangling the relative effects of prey preference and prey availability on cod trophodynamics in species-poor systems such as the Baltic Sea

Balancing profitability of energy production, societal impacts and biodiversity in offshore wind farm design

Abstract The global demand for renewable energy is on the rise. Expansion of onshore wind energy is in many parts of the world limited by societal acceptance, and also ecological impacts are a concern. Here, pragmatic methods are developed for the integration of high-dimensional spatial data in offshore wind energy planning. Over 150 spatial data layers are created, which either oppose or support offshore wind energy development, and represent ecological, societal, and economic factors. The method is tested in Finland, where interest in developing offshore wind energy is growing. Analyses were done using a spatial prioritization approach, originally developed for the prioritization of high-dimensional ecological data, and rarely used in planning offshore wind energy. When all criteria are integrated, it is possible to find a balanced solution where offshore wind farms cause little disturbance to biodiversity and society, while at the same time yielding high profitability for wind energy production. Earlier proposed areas for offshore wind farms were also evaluated. They were generally well suited for wind power, with the exception of a couple of areas with comparatively high environmental impacts. As an outcome, new areas well suited for large scale wind power deployment were recognized, where construction costs would be moderate and disturbance to biodiversity, marine industries and people limited. A novel tradeoff visualization method was also developed for the conflicts and synergies of offshore energy deployment, which could ease the dialogue between different stakeholders in a spatial planning context. Overall, this study provides a generic and transparent approach for well-informed analysis of offshore wind energy development potential when conflict resolution between biodiversity, societal factors and economic profits is needed. The proposed approach is replicable elsewhere in the world. It is also structurally suitable for the planning of impact avoidance and conflict resolution in the context of other forms of construction or resource extraction

Challenges of biodiversity inventories in mosaic archipelagoes – A case study from the Northern Baltic Sea

201