TY - JOURS T1 - Skelettbildung und Darmfunktion der Meeresfische Gehlig, Roselies JAS - Jahr für Goethe. JF - Jahrbuch für Goetheanismus PY - 2013 VL - 2013 SP - 85 EP - 140 DO - 10.18756/jfg.2013.85 SN - Print :1866-4830 Online : 2750-2341 LA - de N2 - N1 - Among vertebrates including humans the skeleton of marine true bony fish teleosts with its 24 carbonate content by weight contains the least amount of carbonate and no labile carbonate bicarbonate HCO3 the most actively living mineral phase of bone Because of this deficiency the teleost skeleton is unable to buffer acidbase imbalance in the body In polar contrast to this North American freshwater turtles have a shell and bone carbonate content of about 13 by weight of which almost all is labile carbonate The marine teleost skeleton contains no labile carbonate because this remains as part of the carbonate buffering in the sea in the form of bicarbonate To this extent the sea is functionally part of the fish organism Thus part of the fish skeleton stays chemically dissolved and processually distributed in the sea and exhibits in the surroundings a quality of decentralising peripheral etheric forces This excarnated part of the skeleton remains as an intestinelike etherskeleton With it according to R Steiner the fish can experience the etheric of the waterRegulation in marine teleosts is effected by the gut instead of by the skeleton Through drinking sea water too much calcium enters the gut but as bicarbonate and carbonate are secreted there microcrystalline calcium carbonate precipitates out and is excreted into the sea This calcium carbonate dissolves in the upper 1000 metres and has a balancing effect on the overacidification and reduced buffering capacity of the sea Fish intestinal calcium carbonate formation also produces acid which is expelled to the sea via the gills and remains in the surface waters The anatomicalphysiological division of the fish into gills and gut is reflected in a vertical differentiation of the sea with acid buffer and nutrientpoor surface water and alkaline buffer and nutrientrich deep waterSecondarily the human skeleton in chronic renal insufficiency presents as fishlike so to speak in that it has diminished or even no labile carbonate and a correspondingly reduced vitality The healthy human avoids not only physiological rigidity fish but also hyperactivity turtle and represents its own dynamic balance AB - ST - Skelettbildung und Darmfunktion der Meeresfische UR - https://dx.doi.org/10.18756/jfg.2013.85 Y2 - 2024-04-29 03:53:04 ER -