Add to ORKGCyanobacteria have a fundamental role in aquatic ecosystems. However, massive proliferations (blooms) can have negative impact on all water uses. Anthropogenic pressure and climate changes are the major stressors in lakes; they can trigger cyanobacterial blooms with the capability of producing toxic metabolites: hepatotoxins microcystins, nodularins), neurotoxins (saxitoxins, anatoxins, BMAA), cytotoxins cylindrospermopsins). Some toxins moreover can undergo bioaccumulation. Lake Garda hosts some potentially toxic cyanobacteria (Planktothrix rubescens and Dolichospermum lemmermannii). In the frame of the EULAKES project, a monitoring campaign in 2010-2012 investigated with a monthly freque...
Deep Subalpine Lakes (DSL) are experiencing changes that are effecting, among others, also the phyto...
Toxic cyanobacteria represent an emerging threat for aquatic ecosystems worldwide. Eutrophication an...
Massive proliferations of cyanobacteria (bloom) are common in aquatic environments worldwide. These ...
Cyanobacteria have a fundamental role in aquatic ecosystems. However, massive proliferations (blooms...
Anthropic pressure and climate changes are the major stressors in lakes. Both factors play an import...
Some cyanobacteria genera are able to produce potent toxins, including hepatotoxins (microcystins, n...
Though with different species, potentially toxic cyanobacteria are particularly abundant in eutrophi...
Toxic cyanobacteria occurrence is a global concern in many eutrophic freshwater ecosystems due to th...
Cyanobacteria represent a health hazard in aquatic environments due to their ability to produce a ra...
Cyanobacteria have a fundamental role in aquatic ecosystems. However, the presence of toxic species ...
The project EULAKES (European Lakes under Environmental Stressors) started in 2010 within the Centra...
Cyanotoxins are a global concern in freshwaters and eutrophication and climate changes can have syne...
Deep Subalpine Lakes (DSL) are experiencing changes that are effecting, among others, also the phyto...
Toxic cyanobacteria represent an emerging threat for aquatic ecosystems worldwide. Eutrophication an...
Massive proliferations of cyanobacteria (bloom) are common in aquatic environments worldwide. These ...
Cyanobacteria have a fundamental role in aquatic ecosystems. However, massive proliferations (blooms...
Anthropic pressure and climate changes are the major stressors in lakes. Both factors play an import...
Some cyanobacteria genera are able to produce potent toxins, including hepatotoxins (microcystins, n...
Though with different species, potentially toxic cyanobacteria are particularly abundant in eutrophi...
Toxic cyanobacteria occurrence is a global concern in many eutrophic freshwater ecosystems due to th...
Cyanobacteria represent a health hazard in aquatic environments due to their ability to produce a ra...
Cyanobacteria have a fundamental role in aquatic ecosystems. However, the presence of toxic species ...
The project EULAKES (European Lakes under Environmental Stressors) started in 2010 within the Centra...
Cyanotoxins are a global concern in freshwaters and eutrophication and climate changes can have syne...
Deep Subalpine Lakes (DSL) are experiencing changes that are effecting, among others, also the phyto...
Toxic cyanobacteria represent an emerging threat for aquatic ecosystems worldwide. Eutrophication an...
Massive proliferations of cyanobacteria (bloom) are common in aquatic environments worldwide. These ...