Title of article
Calcification generates protons for nutrient and bicarbonate uptake
Author/Authors
McConnaughey، نويسنده , , T.A. and Whelan، نويسنده , , J.F.، نويسنده ,
Issue Information
روزنامه با شماره پیاپی سال 1997
Pages
23
From page
95
To page
117
Abstract
The biosphereʹs great carbonate deposits, from caliche soils to deep-sea carbonate oozes, precipitate largely as by-products of autotrophic nutrient acquisition physiologies. Protons constitute the critical link: Calcification generates protons, which plants and photosynthetic symbioses use to assimilate bicarbonate and nutrients.
ium ATPase-based “trans” mechanism underlies most biological calcification. This permits high calcium carbonate supersaturations and rapid carbonate precipitation.
mpetitive advantages of calcification become especially apparent in light and nutrient-deficient alkaline environments. Calcareous plants often dominate the lower euphotic zone in both the benthos and the plankton. Geographically and seasonally, massive calcification concentrates in nutrient-deficient environments including alkaline soils, coral reefs, cyanobacterial mats and coccolithophorid blooms. Structural and defensive uses for calcareous skeletons are sometimes overrated.
Keywords
Calcium , CARBONATE , bicarbonate , proton , Calcareous , reef , ACID , nutrient
Journal title
EARTH-SCIENCE REVIEWS
Serial Year
1997
Journal title
EARTH-SCIENCE REVIEWS
Record number
2333379
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