| Literature DB >> 26415778 |
Nina Hacker1, Anne Ebeling2, Arthur Gessler3, Gerd Gleixner4, Odette González Macé5, Hans de Kroon6, Markus Lange4, Liesje Mommer7, Nico Eisenhauer8,9, Janneke Ravenek6, Stefan Scheu5, Alexandra Weigelt8,9, Cameron Wagg10, Wolfgang Wilcke11, Yvonne Oelmann1.
Abstract
Plant species richness (PSR) increases nutrient uptake which depletes bioavailable nutrient pools in soil. No such relationship between plant uptake and availability in soil was found for phosphorus (P). We explored PSR effects on P mobilisation [phosphatase activity (PA)] in soil. PA increased with PSR. The positive PSR effect was not solely due to an increase in Corg concentrations because PSR remained significant if related to PA:Corg . An increase in PA per unit Corg increases the probability of the temporal and spatial match between substrate, enzyme and microorganism potentially serving as an adaption to competition. Carbon use efficiency of microorganisms (Cmic :Corg ) increased with increasing PSR while enzyme exudation efficiency (PA:Cmic ) remained constant. These findings suggest the need for efficient C rather than P cycling underlying the relationship between PSR and PA. Our results indicate that the coupling between C and P cycling in soil becomes tighter with increasing PSR.Entities:
Keywords: Microorganisms; P mobilisation; The Jena Experiment; phosphatase enzymes; plant diversity; substrate availability
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Year: 2015 PMID: 26415778 DOI: 10.1111/ele.12530
Source DB: PubMed Journal: Ecol Lett ISSN: 1461-023X Impact factor: 9.492