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Seawater carbonate chemistry and marine macrophyte capacity to locally amelio...
We explored the individual capacities of four species of marine macrophytes (Ulva lactuca, Zostera marina, Fucus vesiculosus and Saccharina latissima) to ameliorate seawater... -
Seawater carbonate chemistry and growth rate of a bloom forming macroalga
Introduction: The coastal macroalgal genus, Ulva, is found worldwide and is considered a nuisance algal genus due to its propensity for forming vast blooms. The response of Ulva... -
Seawater carbonate chemistry and grazing and diet preference in Littorina lit...
Ocean acidification and eutrophication have direct, positive effects on the growth of many marine macroalgae, potentially resulting in macroalgal blooms and shifts in ecosystem... -
Seawater carbonate chemistry and growth of Macroalgae, Ulva and Seagrass, Zos...
This study reports on experiments performed with a Northwest Atlantic species of the macroalgae, Ulva, and the seagrass, Zostera marina, grown under ambient and elevated levels... -
Species assemblages of the rocky intertidal at Helgoland (German Bight, North...
Environmental variablesExposed (erosion rates of gypsum blocks : 0.14-0.16 g/h; during westerly winds (force 4-5) which are prevailing around Helgoland rates reaches 0.28 g/h... -
Species assemblages of the rocky intertidal at Helgoland (German Bight, North...
Environmental variables Semi-exposed (erosion rates of gypsum blocks reaches 0.14 g/h; de Kluijver, 1991). Mostly relative natural red sandstone; gently sloping substratra;... -
Frequency of algae along a transect at the island of Helgoland in 2005
A sublittoral transect (P3) in the North of Helgoland that had been investigated ~40 years earlier by Lüning (1970) was traversed again. Scuba dives were carried out between... -
Counts and mass of different fish species from beam trawl samples in the East...
Depth, water was calculated as mean from bathymetric depths at start/end of trawl -
Counts and mass of different fish species from beam trawl samples in the East...
Depth, water was calculated as mean from bathymetric depths at start/end of trawl -
Counts and mass of different fish species from beam trawl samples in the East...
Depth, water was calculated as mean from bathymetric depths at start/end of trawl -
Counts and mass of different fish species from beam trawl samples in the East...
Depth, water was calculated as mean from bathymetric depths at start/end of trawl -
Counts and mass of different fish species from beam trawl samples in the East...
Depth, water was calculated as mean from bathymetric depths at start/end of trawl -
Counts and mass of different fish species from beam trawl samples in the East...
Depth, water was calculated as mean from bathymetric depths at start/end of trawl -
Counts and mass of different fish species from beam trawl samples in the East...
Depth, water was calculated as mean from bathymetric depths at start/end of trawl -
Counts and mass of different fish species from beam trawl samples in the East...
Depth, water was calculated as mean from bathymetric depths at start/end of trawl -
Counts and mass of different fish species from beam trawl samples in the East...
Depth, water was calculated as mean from bathymetric depths at start/end of trawl -
Counts and mass of different fish species from beam trawl samples in the East...
Depth, water was calculated as mean from bathymetric depths at start/end of trawl -
Counts and mass of different fish species from beam trawl samples in the East...
Depth, water was calculated as mean from bathymetric depths at start/end of trawl -
Counts and mass of different fish species from beam trawl samples in the East...
Depth, water was calculated as mean from bathymetric depths at start/end of trawl -
Counts and mass of different fish species from beam trawl samples in the East...
Depth, water was calculated as mean from bathymetric depths at start/end of trawl