Seasonal changes of pCO 2 over a subantarctic Macrocystis kelp bed

“…The overall seasonal changes in the SST, pCO 2 and DIC n outside the kelp beds in BB and MB are consistent with those reported in the Port aux Français station based on weekly monitoring carried out the same year by Delille et al (2000) (Fig. 2).…”

“…In the Bay of Palma (Spain), strong decreases in pCO 2 over Posidonia meadows have been reported due to the meadows' higher primary productivity compared to the surrounding oligotrophic waters (Gazeau et al, 2005). In the same area, Barrón et al (2006) highlighted the strong influence of calcification by epiphythes and calcium carbonate (CaCO 3 ) dissolution on CO 2 dynamics in Posidonia meadows, which is in agreement with observations of other seagrass ecosystems (Morse et al, 1987;Ku et al, 1999;Delille et al, 2000;Burdige and Zimmerman, 2002;Yates and Halley, 2003;Yates and Halley, 2006). On the whole, Posidonia oceanica seagrass meadows appear to act as a sink for atmospheric CO 2 .…”

“…From a strictly oceanographic point of view, this archipelago is situated either in the Polar Frontal Zone (Sub-Antarctica) or Permanently Open Ocean Zone (Antarctica) depending on the position of the Polar Front with regards to the archipelago (e.g. Delille et al 2000). A substantial portion of the coastlines of the archipelago is occupied by Macrocystis pyrifera kelp beds.…”

“…In November and December, the pCO 2 increases outside the kelp beds, while remaining constant inside the bed due to primary production by macroalgae and enhanced planktonic primary production (Delille et al, 2000).…”

“…On the whole, Posidonia oceanica seagrass meadows appear to act as a sink for atmospheric CO 2 . In the waters surrounding the Kerguelen Archipelago, it has been previously reported that the DIC and pCO 2 of the waters above Macrocystis kelp beds are strongly influenced by the biological activity of the kelp, which, in turn, leads to a potential sink for atmospheric CO 2 (Delille et al, 1997;Delille et al, 2000).…”

Influence of giant kelp beds (Macrocystis pyrifera) on diel cycles of pCO2 and DIC in the Sub-Antarctic coastal area

“…The overall seasonal changes in the SST, pCO 2 and DIC n outside the kelp beds in BB and MB are consistent with those reported in the Port aux Français station based on weekly monitoring carried out the same year by Delille et al (2000) (Fig. 2).…”

“…In the Bay of Palma (Spain), strong decreases in pCO 2 over Posidonia meadows have been reported due to the meadows' higher primary productivity compared to the surrounding oligotrophic waters (Gazeau et al, 2005). In the same area, Barrón et al (2006) highlighted the strong influence of calcification by epiphythes and calcium carbonate (CaCO 3 ) dissolution on CO 2 dynamics in Posidonia meadows, which is in agreement with observations of other seagrass ecosystems (Morse et al, 1987;Ku et al, 1999;Delille et al, 2000;Burdige and Zimmerman, 2002;Yates and Halley, 2003;Yates and Halley, 2006). On the whole, Posidonia oceanica seagrass meadows appear to act as a sink for atmospheric CO 2 .…”

“…From a strictly oceanographic point of view, this archipelago is situated either in the Polar Frontal Zone (Sub-Antarctica) or Permanently Open Ocean Zone (Antarctica) depending on the position of the Polar Front with regards to the archipelago (e.g. Delille et al 2000). A substantial portion of the coastlines of the archipelago is occupied by Macrocystis pyrifera kelp beds.…”

“…In November and December, the pCO 2 increases outside the kelp beds, while remaining constant inside the bed due to primary production by macroalgae and enhanced planktonic primary production (Delille et al, 2000).…”

“…On the whole, Posidonia oceanica seagrass meadows appear to act as a sink for atmospheric CO 2 . In the waters surrounding the Kerguelen Archipelago, it has been previously reported that the DIC and pCO 2 of the waters above Macrocystis kelp beds are strongly influenced by the biological activity of the kelp, which, in turn, leads to a potential sink for atmospheric CO 2 (Delille et al, 1997;Delille et al, 2000).…”

Influence of giant kelp beds (Macrocystis pyrifera) on diel cycles of pCO2 and DIC in the Sub-Antarctic coastal area

Temporal variations in air‐sea CO₂ exchange near large kelp beds near San Diego, California

Seaweed Responses to Ocean Acidification