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Phosphate sorption‐desorption properties in volcanic topsoils along a chronosequence and a climatic gradient on the Galápagos Islands

Maria V. Rechberger, Franz Zehetner, Martin H. Gerzabek

2021Journal of Plant Nutrition and Soil Science14 citationsDOIOpen Access PDF

Abstract

Abstract Background Phosphorus (P) retention behavior in the soil is one of the main factors driving ecosystem productivity and changes strongly during soil weathering. Volcanic soils are known for their high phosphate (PO 4 ) sorption capacity (PSC). However, the changes of PO 4 buffering properties and fixation processes in the course of their pedogenic development are not fully understood. Aim We investigated the short‐term and longer‐term PO 4 sorption‐desorption behavior in volcanic topsoils from the Galápagos Islands along a precipitation gradient (elevation sequence, 47–866 m asl) and a soil age gradient (chronosequence, 1.45–1070 ka) under humid climate. Methods Labile P (Mehlich‐3, resin‐P), P desorption (resin‐desorbable P after 1 and 6 months incubation), PSC (sorption isotherms, equilibration time = 72 h) and sorption kinetics (4 h–62 days) were analyzed and compared against a broad range of topsoil parameters. Results Soils developed very high PSC within 4.3 ka of soil weathering (Langmuir Q max = 18.2 g P kg –1 ) due to the development of amorphous soil constituents. As the colloidal fraction changed to 2:1‐type crystalline clays after 26 ka of soil weathering under humid climate, PSC declined rapidly, while labile P and resin‐desorbable P reached a maximum. In older topsoils (≥ 165 ka), acidification and prevalence of aluminium (Al) and iron (Fe) (hydr)oxides led to increased P sorption again. Along the elevation sequence, increased precipitation favored the formation of amorphous constituents, resulting in a steep increase of P sorption capacity (from 0.9 to 19.9 g P kg –1 ) from the arid lowlands to the very humid highlands. Conclusion Amorphous Fe and Al phases as well as Fe and Al bound to organic matter seemed to be the main driving factors for P sorption along the studied pedogenic gradients.

Topics & Concepts

SorptionPedogenesisWeatheringSoil waterChemistryEnvironmental chemistryChronosequenceTopsoilDesorptionGeologySoil scienceGeochemistryAdsorptionOrganic chemistryClay minerals and soil interactionsSoil Carbon and Nitrogen DynamicsTherapeutic Uses of Natural Elements
Phosphate sorption‐desorption properties in volcanic topsoils along a chronosequence and a climatic gradient on the Galápagos Islands | Litcius