HYDRATE TURMERIC's only three ingredients are pure freeze dried coconut water, which contains potassium and electrolytes to replenish your body's fluids, organic turmeric and Aquamin ™, (a mineral rich,
calcified sea algae) which adds a wide array of beneficial minerals to every serving.
HYDRATE's only two ingredients are pure freeze dried coconut water, which contains potassium and electrolytes to replenish your body's fluids and Aquamin ™, (a mineral rich,
calcified sea algae) that adds a wide array of beneficial minerals to every serving of HYDRATE.
Combines a unique blend of coconut milk powder, organic cacao and Aquamin (a mineral - rich,
calcified sea - algae) with nutrient - packed coconut oil and red - palm oil.
Not exact matches
Most studies have concluded that
sea animals with
calcified shells or skeletons, such as starfish, will suffer as carbon dioxide from burning fossil fuels dissolves in the
sea, making the water more acidic and destroying the calcium carbonate on which the creatures depend.
In an unprecedented evolution experiment scientists from GEOMAR Helmholtz Centre for Ocean Research Kiel and the Thünen Institute of
Sea Fisheries have demonstrated for the first time, that the single most important
calcifying algae of the world's oceans, Emiliania huxleyi, can adapt simultaneously to ocean acidification and rising water temperatures.
Bloom of
calcifying algae at the Barents
Sea, documented by the Moderate Resolution Imaging Spectroradiometer (MODIS) on the NASA satellite AQUA.
These include
sea stars,
sea urchins,
calcifying algae and tube - building worms.
More than 100 marine benthic
calcifying taxa, from the coastal zone to the deep
sea, from tropical, temperate and polar regions, were included in this comprehensive study.
«These
calcifying algae evidence two rapid decreases in the salt content, at approximately 8,400 and again 7,600 years ago, which can only be explained by the fact that a higher volume of low - saline surface water flowed from the Black
Sea into the northern Aegean at these times.
Researchers of the Senckenberg Biodiversity and Climate Research Centre, the Goethe University in Frankfurt and the University of Toronto have now detected evidence of this oceanographic event and an earlier sudden
sea - level rise in the fossils of tiny calcifying marine algae preserved in seafloor sediments in the Aegean S
sea - level rise in the fossils of tiny
calcifying marine algae preserved in seafloor sediments in the Aegean
SeaSea.
The continued reduction in the extent of
sea ice in the Arctic is expected to lead to increased photosynthetic primary production and POC flux there (Jones et al., 2014), which could benefit fauna whose energetic demands increase as a result of ocean acidification (e.g.,
calcifying taxa).
Abrupt Rise in
Sea Level Delayed the Transition to Agriculture in Southeastern Europe (22/03/2018) Researchers of the Senckenberg Biodiversity and Climate Research Centre, the Goethe University in Frankfurt and the University of Toronto have detected evidence of this oceanographic event in the fossils of tiny
calcifying marine algae preserved in seafloor sediments in the Aegean
Sea.
You said you didn't know, and I imagined
calcified bones of leviathans, who, tired from their years of ghosting about the high
seas, finally lay supine and became a part of the landscape.
However, genetic analyses show that this
calcifying haptophyte colonized the photic zone of the Black
Sea shortly after the connection to the Bosporus, and the Unit I — II transition marks the moment that coccoliths began to be preserved in the sediments (Coolen et al., 2009).
We analysed responses of the
calcifying larvae of
sea urchins, an ecologically important group, to ocean change stressors in a synthesis of data from species from tropical to polar environments and from intertidal to subtidal habitats.
''... worked with two sediment cores they extracted from the seabed of the eastern Norwegian
Sea, developing a 1000 - year proxy temperature record «based on measurements of δ18O in Neogloboquadrina pachyderma, a planktonic foraminifer that
calcifies at relatively shallow depths within the Atlantic waters of the eastern Norwegian
Sea during late summer,» which they compared with the temporal histories of various proxies of concomitant solar activity... This work revealed, as the seven scientists describe it, that «the lowest isotope values (highest temperatures) of the last millennium are seen ~ 1100 - 1300 A.D., during the Medieval Climate Anomaly, and again after ~ 1950 A.D.» In between these two warm intervals, of course, were the colder temperatures of the Little Ice Age, when oscillatory thermal minima occurred at the times of the Dalton, Maunder, Sporer and Wolf solar minima, such that the δ18O proxy record of near - surface water temperature was found to be «robustly and near - synchronously correlated with various proxies of solar variability spanning the last millennium,» with decade - to century - scale temperature variability of 1 to 2 °C magnitude.»
Calcite - A calcium carbonate (limestone) mineral, used by shell - or skeleton - forming,
calcifying organisms such as foraminifera, some macroalgae, lobsters, crabs,
sea urchins and starfish.
This hinders the ability of organisms such as molluscs,
sea urchins, coralline algae and cold - water corals to produce their
calcified shells and skeletons, affecting their survival.
If that will have any impact on
sea life is doubtful as the main
calcifying organisms evolved at much higher CO2 levels during the Cretaceous, witnessed by the white cliffs of Dover and many such places all over the world...
Calcifying organisms such as coccolithophores that fix and export carbon into the deep
sea provide feedbacks to increasing atmospheric pCO2.
The above quote from it references a 2007 study, «Climate - related increases in jellyfish frequency suggest a more gelatinous future for the North
Sea,» that points out acidification will «severely affect
calcifying plankton and other skeleton - forming organisms, so would potentially favor noncalcifying organisms such as jellyfish.»