Philip Axe scite author profile

Marine ecosystems such as the Baltic Sea are currently under strong atmospheric and anthropogenic pressure. Besides natural and human-induced changes in climate, major anthropogenic drivers such as overfishing and anthropogenic eutrophication are significantly affecting ecosystem structure and function. Recently, studies demonstrated the existence of alternative stable states in various terrestrial and aquatic ecosystems. These so-called ecosystem regime shifts have been explained mainly as a result of multiple causes, e.g. climatic regime shifts, overexploitation or a combination of both. The occurrence of ecosystem regime shifts has important management implications, as they can cause significant losses of ecological and economic resources. Because of hysteresis in ecosystem responses, restoring regimes considered as favourable may require drastic and expensive management actions. Also the Baltic Sea, the largest brackish water body in the world ocean, and its ecosystems are strongly affected by atmospheric and anthropogenic drivers. Here, we present results of an analysis of the state and development of the Central Baltic Sea ecosystem integrating hydroclimatic, nutrient, phyto-and zooplankton as well as fisheries data. Our analyses of 52 biotic and abiotic variables using multivariate statistics demonstrated a major reorganization of the ecosystem and identified two stable states between 1974 and 2005, separated by a transition period in 1988-1993. We show the change in Baltic ecosystem structure to have the characteristics of a discontinuous regime shift, initiated by climate-induced changes in the abiotic environment and stabilized by fisheries-induced feedback loops in the food web. Our results indicate the importance of maintaining the resilience of an ecosystem to atmospherically induced environmental change by reducing the anthropogenic impact.

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Hypoxia Is Increasing in the Coastal Zone of the Baltic Sea

Conley

Carstensen

Aigars

et al. 2011

Environ. Sci. Technol.

374

261

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Hypoxia is a well-described phenomenon in the offshore waters of the Baltic Sea with both the spatial extent and intensity of hypoxia known to have increased due to anthropogenic eutrophication, however, an unknown amount of hypoxia is present in the coastal zone. Here we report on the widespread unprecedented occurrence of hypoxia across the coastal zone of the Baltic Sea. We have identified 115 sites that have experienced hypoxia during the period 1955–2009 increasing the global total to ca. 500 sites, with the Baltic Sea coastal zone containing over 20% of all known sites worldwide. Most sites experienced episodic hypoxia, which is a precursor to development of seasonal hypoxia. The Baltic Sea coastal zone displays an alarming trend with hypoxia steadily increasing with time since the 1950s effecting nutrient biogeochemical processes, ecosystem services, and coastal habitat.

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Getting the measure of eutrophication in the Baltic Sea: towards improved assessment principles and methods

Andersen

Axe²,

Backer

et al. 2010

Biogeochemistry

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A simple method for confidence rating of eutrophication status classifications

Andersen

Murray

Kaartokallio

et al. 2010

Marine Pollution Bulletin

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In-vitro and in-vivo evaluation of taste-masked cetirizine hydrochloride formulated in oral lyophilisates

Preis

Grother

Axe

et al. 2015

International Journal of Pharmaceutics

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Philip Axe

Reorganization of a large marine ecosystem due to atmospheric and anthropogenic pressure: a discontinuous regime shift in the Central Baltic Sea

Hypoxia Is Increasing in the Coastal Zone of the Baltic Sea

Getting the measure of eutrophication in the Baltic Sea: towards improved assessment principles and methods

A simple method for confidence rating of eutrophication status classifications

In-vitro and in-vivo evaluation of taste-masked cetirizine hydrochloride formulated in oral lyophilisates

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