Evaluating eutrophication management scenarios in the Baltic Sea using species distribution modelling

Bergström, Ulf; Sundblad, Göran; Downie, Anna‐Leena; Snickars, Martin; Boström, Christoffer; Lindegarth, Mats

doi:10.1111/1365-2664.12083

Cited by 50 publications

(60 citation statements)

References 64 publications

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“…Fish are strongly affected by eutrophication, in a number of, at time contradictory, ways. Perch are disadvantaged by eutrophication, whereas, for example, pike perch benefit (Bergström et al, 2013).…”

Section: Eutrophicationmentioning

confidence: 99%

“…For perch, pikeperch and northern pike, lacking access to spawning and nursery areas has large impacts on adult stocks (Bergström et al, 2013). Shallow and sheltered bays are important for aquatic plants, which provide both food and shelter for fish and other organisms.…”

Section: Dredging and Dumpingmentioning

confidence: 99%

“…However, large-scale drainage for agriculture and forestry has had negative impacts. Restoration of wetlands can be a good fish conservation measure (Bergström et al, 2013).…”

Section: Dredging and Dumpingmentioning

confidence: 99%

See 2 more Smart Citations

Biodiversity and ecosystem services in Nordic coastal ecosystems

Berglund¹,

Boström²,

Clausen³

et al. 2018

TemaNord

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Section: Eutrophicationmentioning

confidence: 99%

Section: Dredging and Dumpingmentioning

confidence: 99%

See 1 more Smart Citation

Biodiversity and ecosystem services in Nordic coastal ecosystems

Berglund¹,

Boström²,

Clausen³

et al. 2018

TemaNord

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“…GAMs have been widely used in ecological research such as forest biota and vegetation distribution modeling (Austin, 2002;Drexler & Ainsworth, 2013;Moisen et al, 2006;Yee & Mackenzie, 2002), marine fisheries (Bergstrom, Sundblad, Downie, Snickars, & Lindegarth, 2013;Denis, Lejeune, & Robin, 2002;Elith et al, 2006;França & Cabral, 2015), and freshwater fisheries (Alexander, 2016;Jowett, Parkyn, & Richardson, 2008;Leathwick, Elith, & Hastie, 2006). The results of ecological models such as GAMs can be crucial for decision making for environmental management.…”

Section: Introductionmentioning

confidence: 99%

Untitled

Rezaei¹,

Şengül²

2019

Turk. J. Fish. Aquat. Sci.

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Generalized Additive Models (GAMs) are widely used statistical models for species distribution in habitat and environmental management modeling as they enable incorporation of non-linearity. The objective of this study is to develop relationships between habitat variables, fish absence/presence (logistic GAM) and abundance (Poisson GAM) for the S. rizeensis using onsite observations in Solaklı River. Logistic GAMs correctly predicted absence/presence of adult and juvenile S. rizeensis at 79.3% and 74% of sampling areas respectively. Response curves of logistic GAMs results show differences in probability of finding the adult and juvenile fish. Adult S. rizeensis were mostly found in higher velocities (0.5-0.8 m/s) than in juvenile fish (≈ 0 m/s). Also, the highest number of adult fish were recorded in deeper habitats (≈ 0.4 m) rather than in juvenile fish (≈ 0 m). Curves show adult fish are more independent to the presence of cover compared to juvenile fish. Velocity shelter and bedrock formation were the most common cover types. Chi-square test results of predicted values showed that developed Poisson GAMs of adult and juvenile S. rizeensis could not accurately represent fish abundance. The results show that while logistic GAM is applicable, Poisson GAM model is not applicable for the area.

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“…Recent decades have, however, seen a rapid development of species distribution modeling methods, allowing researchers and managers to produce predictive maps of the underwater environment and its associated biota (Elith and Leathwick 2009). In the Baltic Sea, several recent research programs have significantly benefited our understanding and knowledge of habitat distributions in general (Al-Hamdani and Reker 2007;Bučas et al 2013;Lindegarth et al 2014) and coastal fish habitats in particular (Härmä et al 2008;Kallasvuo et al 2009;Sundblad et al 2009Sundblad et al , 2011Sundblad et al , 2013Snickars et al 2010;Bergström et al 2013). For instance, using statistical non-linear relationships between life-stage specific occurrence and environmental descriptors, Sundblad et al (2011) used predictive distribution models to map key reproduction habitats of three of the most common species in the Baltic Sea coastal fish community, northern pike (Esox lucius), Eurasian perch (Perca fluviatilis) and roach (Rutilus rutilus).…”

Section: Introductionmentioning

confidence: 99%

Shoreline development and degradation of coastal fish reproduction habitats

Sundblad

Bergström

2014

AMBIO

Self Cite

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Coastal development has severely affected habitats and biodiversity during the last century, but quantitative estimates of the impacts are usually lacking. We utilize predictive habitat modeling and mapping of human pressures to estimate the cumulative long-term effects of coastal development in relation to fish habitats. Based on aerial photographs since the 1960s, shoreline development rates were estimated in the Stockholm archipelago in the Baltic Sea. By combining shoreline development rates with spatial predictions of fish reproduction habitats, we estimated annual habitat degradation rates for three of the most common coastal fish species, northern pike (Esox lucius), Eurasian perch (Perca fluviatilis) and roach (Rutilus rutilus). The results showed that shoreline constructions were concentrated to the reproduction habitats of these species. The estimated degradation rates, where a degraded habitat was defined as having C3 constructions per 100 m shoreline, were on average 0.5 % of available habitats per year and about 1 % in areas close to larger population centers. Approximately 40 % of available habitats were already degraded in 2005. These results provide an example of how many small construction projects over time may have a vast impact on coastal fish populations.

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Evaluating eutrophication management scenarios in the Baltic Sea using species distribution modelling

Cited by 50 publications

References 64 publications

Biodiversity and ecosystem services in Nordic coastal ecosystems

Biodiversity and ecosystem services in Nordic coastal ecosystems

Untitled

Shoreline development and degradation of coastal fish reproduction habitats

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