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4. Perceived multiple stressor effects depend on sample size and stressor gradient length

Author

Universidad de Alicante. Departamento de Ciencias del Mar y Biología Aplicada, Mack, Leoni, Fernández de la Hoz, Camino, Penk, Marcin, Piggott, Jeremy, Crowe, Tasman, Hering, Daniel, Kaijser, Willem, Aroviita, Jukka, Baer, Jan, Borja, Angel, Clark, Dana E., Fernández-Torquemada, Yolanda, Kotta, Jonne, Matthaei, Christoph D., O'Beirn, Francis, Paerl, Hans W., Sokolowski, Adam, Vilmi, Annika, Birk, Sebastian, Universidad de Alicante. Departamento de Ciencias del Mar y Biología Aplicada, Mack, Leoni, Fernández de la Hoz, Camino, Penk, Marcin, Piggott, Jeremy, Crowe, Tasman, Hering, Daniel, Kaijser, Willem, Aroviita, Jukka, Baer, Jan, Borja, Angel, Clark, Dana E., Fernández-Torquemada, Yolanda, Kotta, Jonne, Matthaei, Christoph D., O'Beirn, Francis, Paerl, Hans W., Sokolowski, Adam, Vilmi, Annika, and Birk, Sebastian

Abstract

Multiple stressors are continuously deteriorating surface waters worldwide, posing many challenges for their conservation and restoration. Combined effect types of multiple stressors range from single-stressor dominance to complex interactions. Identifying prevalent combined effect types is critical for environmental management, as it helps to prioritise key stressors for mitigation. However, it remains unclear whether observed single and combined stressor effects reflect true ecological processes unbiased by sample size and length of stressor gradients. Therefore, we examined the role of sample size and stressor gradient lengths in 158 paired-stressor response cases with over 120,000 samples from rivers, lakes, transitional and marine ecosystems around the world. For each case, we split the overall stressor gradient into two partial gradients (lower and upper) and investigated associated changes in single and combined stressor effects. Sample size influenced the identified combined effect types, and stressor interactions were less likely for cases with fewer samples. After splitting gradients, 40 % of cases showed a change in combined effect type, 30 % no change, and 31 % showed a loss in stressor effects. These findings suggest that identified combined effect types may often be statistical artefacts rather than representing ecological processes. In 58 % of cases, we observed changes in stressor effect directions after the gradient split, suggesting unimodal stressor effects. In general, such non-linear responses were more pronounced for organisms at higher trophic levels. We conclude that observed multiple stressor effects are not solely determined by ecological processes, but also strongly depend on sampling design. Observed effects are likely to change when sample size and/or gradient length are modified. Our study highlights the need for improved monitoring programmes with sufficient sample size and stressor gradient coverage. Our findings emphasize the importa

Published
2022

5. Marine monitoring in transition: On the verge of technological revolution?

Author

Korpinen, Samuli, Kahlert, Maria, Kuosa, Harri, Mack, Leoni, Meissner, Kristian, Pitkänen, Heikki, Pyhälahti, Timo, Uusitalo, Laura, Suomen ympäristökeskus, and The Finnish Environment Institute

Subjects
monitoring programs, sampling, menetelmät, ocean observation, monitoring methods, vesiekosysteemit, seuranta, meret, ohjelmat
Abstract

Efforts to renew marine ecosystem monitoring to include advanced technology and cost-effective methods have been repeatedly called for. The current environmental legislation in European Union (EU) requires also ecosystem monitoring beyond the scope of conventional methods and sampling strategies. Despite several studies showing the benefits of new methods, the progress to adopt the methods in national monitoring programmes under legal requirements has been slow. In this study, we have reviewed the current use of a set of methods in marine monitoring programmes under the EU marine strategy framework directive (MSFD), which calls for a holistic view of the marine environment and thus requires tens of monitoring parameters by different methods. Here we assess how widely the new methods are being adopted in the EU member states implementing the MSFD. Our results show a relatively high adoption rate for certain methods, while others are widely ignored. We compare the results also with the monitoring strategies of the four regional sea conventions. We argue that the adoption of methods in European and regional programmes may positively influence the national use of new methods.

Published
2022

6. A Synthesis of Marine Monitoring Methods With the Potential to Enhance the Status Assessment of the Baltic Sea

Author

Mack, Leoni, primary, Attila, Jenni, additional, Aylagas, Eva, additional, Beermann, Arne, additional, Borja, Angel, additional, Hering, Daniel, additional, Kahlert, Maria, additional, Leese, Florian, additional, Lenz, Robin, additional, Lehtiniemi, Maiju, additional, Liess, Antonia, additional, Lips, Urmas, additional, Mattila, Olli-Pekka, additional, Meissner, Kristian, additional, Pyhälahti, Timo, additional, Setälä, Outi, additional, Strehse, Jennifer S., additional, Uusitalo, Laura, additional, Willstrand Wranne, Anna, additional, and Birk, Sebastian, additional

Published
2020
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7. A Synthesis of Marine Monitoring Methods With the Potential to Enhance the Status Assessment of the Baltic Sea

Author

Mack, Leoni, Attila, Jenni, Aylagas, Eva, Beermann, Arne, Borja, Angel, Hering, Daniel, Kahlert, Maria, Leese, Florian, Lenz, Robin, Lehtiniemi, Maiju, Liess, Antonia, Lips, Urmas, Mattila, Olli-Pekka, Meissner, Kristian, Pyhalahti, Timo, Setala, Outi, Strehse, Jennifer S., Uusitalo, Laura, Wranne, Anna Willstrand, and Birk, Sebastian

Subjects
lcsh:QH1-199.5, data acquisition, Ocean Engineering, Oceanografi, hydrologi och vattenresurser, lcsh:General. Including nature conservation, geographical distribution, Aquatic Science, Baltic Sea Action Plan, Oceanography, Oceanography, Hydrology and Water Resources, Water Framework Directive, havainnointi, ddc:570, Fakultät für Biologie » Aquatische Ökologie, Biologiska vetenskaper, lcsh:Science, marine management, Water Science and Technology, Global and Planetary Change, meren hoito, Marine Strategy Framework Directive, Environmental Sciences (social aspects to be 507), Biological Sciences, meren ekosysteemi, datan hankinta, kansalaishavainnot, lcsh:Q, kaukokartoitus, Biologie, meren ekologia
Abstract

A multitude of anthropogenic pressures deteriorate the Baltic Sea, resulting in theneed to protect and restore its marine ecosystem. For an efficient conservation,comprehensive monitoring and assessment of all ecosystem elements is of fundamentalimportance. The Baltic Marine Environment Protection Commission HELCOMcoordinates conservation measures regulated by several European directives. However,this holistic assessment is hindered by gaps within the current monitoring schemes.Here, twenty-two novel methods with the potential to fill some of these gaps andimprove the monitoring of the Baltic marine environment are examined. We asked keystakeholders to point out methods likely to improve current Baltic Sea monitoring. Wethen described these methods in a comparable way and evaluated them based ontheir costs and applicability potential (i.e., possibility to make them operational). Twelvemethods require low to very low costs, while five require moderate and two high costs.Seventeen methods were rated with a high to very high applicability, whereas fourmethods had moderate and one low applicability for Baltic Sea monitoring. Methodswith both low costs and a high applicability include the Manta Trawl, Rocket, SedimentCorer, Argo Float, Artificial Substrates, Citizen Observation, Earth Observation, theHydroFIARpH system, DNA Metabarcoding and Stable Isotope Analysis. © 2020 Mack, Attila, Aylagas, Beermann, Borja, Hering, Kahlert, Leese, Lenz, Lehtiniemi, Liess, Lips, Mattila, Meissner, Pyhälahti, Setälä, Strehse, Uusitalo, Willstrand Wranne and Birk. Funding: This work resulted from the BONUS FUMARI project in collaboration with BONUS SEAM project, funded by BONUS (Art. 185), which is jointly funded by the EU, the Academy of Finland and the Swedish Research Council Formas. Furthermore, funding was received from the BmBF project MicroCatch_Balt, grant number 03F0788A and EA was supported by the Red Sea Research Center at KAUST. Data on ARMS and ASUs were obtained by DEVOTES (DEVelopment Of innovative Tools for understanding marine biodiversity and assessing good Environmental Status) project, funded by the European Union under the 7th Framework Programme, “The Ocean of Tomorrow” Theme (grant agreement no. 308392), www.devotes-project.eu.

Published
2020

9. The future depends on what we do today –Projecting Europe's surface water quality into three different future scenarios

Author

Mack, Leoni, Couture, Raoul-Marie, Andersen, Hans Estrup, Beklioğlu, Meryem, Bucak, Tuba, Cremona, Fabien, Ferreira, Teresa, Hutchins, Michael G., Mischke, Ute, Molina-Navarro, Eugenio, Rankinen, Katri, Venohr, Markus, Birk, Sebastian, Mack, Leoni, Couture, Raoul-Marie, Andersen, Hans Estrup, Beklioğlu, Meryem, Bucak, Tuba, Cremona, Fabien, Ferreira, Teresa, Hutchins, Michael G., Mischke, Ute, Molina-Navarro, Eugenio, Rankinen, Katri, Venohr, Markus, and Birk, Sebastian

Abstract

There are infinite possible future scenarios reflecting the impacts of anthropogenic multiple stress on our planet. These impacts include changes in climate and land cover, to which aquatic ecosystems are especially vulnerable. To assess plausible developments of the future state of European surface waters, we considered two climate scenarios and three storylines describing land use, management and anthropogenic development (‘Consensus’, ‘Techno’ and ‘Fragmented’, which in terms of environmental protection represent best-, intermediate- and worst-case, respectively). Three lake and four river basins were selected, representing a spectrum of European conditions through a range of different human impacts and climatic, geographical and biological characteristics. Using process-based and empirical models, freshwater total nitrogen, total phosphorus and chlorophyll-a concentrations were projected for 2030 and 2060. Under current conditions, the water bodies mostly fail good ecological status. In future predictions for the Techno and Fragmented World, concentrations further increased, while concentrations generally declined for the Consensus World. Furthermore, impacts were more severe for rivers than for lakes. Main pressures identified were nutrient inputs from agriculture, land use change, inadequately managed water abstractions and climate change effects. While the basins in the Continental and Atlantic regionswere primarily affected by land use changes, in the Mediterranean/Anatolian themain driver was climate change. The Boreal basins showed combined impacts of land use and climate change and clearly reflected the climate-induced future trend of agricultural activities shifting northward. The storylines showed positive effects on ecological status by classical mitigation measures in the Consensus World (e.g. riparian shading), technical improvements in the Techno World (e.g. increasing wastewater treatment efficiency) and agricultural extensification in the Fragment

Published
2020

10. The future depends on what we do today –Projecting Europe's surface water quality into three different future scenarios

Author

Mack, Leoni, Andersen, Hans Estrup, Beklioğlu, Meryem, Bucak, Tuba, Couture, Raoul-Marie, Cremona, Fabien, Ferreira, Teresa, Hutchins, Michael G., Mischke, Ute, Molina-Navarro, Eugenio, Rankinen, Katri, Venohr, Markus, Birk, Sebastian, Mack, Leoni, Andersen, Hans Estrup, Beklioğlu, Meryem, Bucak, Tuba, Couture, Raoul-Marie, Cremona, Fabien, Ferreira, Teresa, Hutchins, Michael G., Mischke, Ute, Molina-Navarro, Eugenio, Rankinen, Katri, Venohr, Markus, and Birk, Sebastian

Abstract

There are infinite possible future scenarios reflecting the impacts of anthropogenic multiple stress on our planet. These impacts include changes in climate and land cover, to which aquatic ecosystems are especially vulnerable. To assess plausible developments of the future state of European surface waters, we considered two climate scenarios and three storylines describing land use, management and anthropogenic development (‘Consensus’, ‘Techno’ and ‘Fragmented’, which in terms of environmental protection represent best-, intermediate- and worst-case, respectively). Three lake and four river basins were selected, representing a spectrum of European conditions through a range of different human impacts and climatic, geographical and biological characteristics. Using process-based and empirical models, freshwater total nitrogen, total phosphorus and chlorophyll-a concentrations were projected for 2030 and 2060. Under current conditions, the water bodies mostly fail good ecological status. In future predictions for the Techno and Fragmented World, concentrations further increased, while concentrations generally declined for the Consensus World. Furthermore, impacts were more severe for rivers than for lakes. Main pressures identified were nutrient inputs from agriculture, land use change, inadequately managed water abstractions and climate change effects. While the basins in the Continental and Atlantic regionswere primarily affected by land use changes, in the Mediterranean/Anatolian themain driver was climate change. The Boreal basins showed combined impacts of land use and climate change and clearly reflected the climate-induced future trend of agricultural activities shifting northward. The storylines showed positive effects on ecological status by classical mitigation measures in the Consensus World (e.g. riparian shading), technical improvements in the Techno World (e.g. increasing wastewater treatment efficiency) and agricultural extensification in the Fragment

Published
2019

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