Title of article
Biogeochemical drivers of phosphatase activity in salt marsh sediments
Author/Authors
Freitas، نويسنده , , Joana and Duarte، نويسنده , , Bernardo and Caçador، نويسنده , , Isabel، نويسنده ,
Issue Information
روزنامه با شماره پیاپی سال 2014
Pages
6
From page
57
To page
62
Abstract
Although nitrogen has become a major concern for wetlands scientists dealing with eutrophication problems, phosphorous represents another key element, and consequently its biogeochemical cycling has a crucial role in eutrophication processes. Microbial communities are a central component in trophic dynamics and biogeochemical processes on coastal systems, since most of the processes in sediments are microbial-mediated due to enzymatic action, including the mineralization of organic phosphorus carried out by acid phosphatase activity. In the present work, the authors investigate the biogeochemical sediment drivers that control phosphatase activities. Authors also aim to assess biogeochemical factorsʹ influence on the enzyme-mediated phosphorous cycling processes in salt marshes. Plant rhizosediments and bare sediments were collected and biogeochemical features, including phosphatase activities, inorganic and organic phosphorus contents, humic acids content and pH, were assessed. Acid phosphatase was found to give the highest contribution for total phosphatase activity among the three pH-isoforms present in salt marsh sediments, favored by acid pH in colonized sediments. Humic acids also appear to have an important role inhibiting phosphatase activity. A clear relation of phosphatase activity and inorganic phosphorous was also found. The data presented reinforces the role of phosphatase in phosphorous cycling.
Keywords
Phosphorus , Biogeochemical cycling , Extracellular phosphatase activity , salt marshes , sediments , Eutrophication
Journal title
Journal of Sea Research
Serial Year
2014
Journal title
Journal of Sea Research
Record number
2237634
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