1. Concentrations and fractionation of carbon, iron, sulfur, nitrogen and phosphorus in mangrove sediments along an intertidal gradient (semi-arid climate, New Caledonia)
- Author
-
Jonathan Deborde, Nathalie Molnar, Tarik Meziane, Luc Della Patrona, and Cyril Marchand
- Subjects
Intertidal zone ,chemistry.chemical_element ,Ocean Engineering ,Rhizophora ,CYCLE BIOGEOCHIMIQUE ,lcsh:Oceanography ,AZOTE ,lcsh:VM1-989 ,SOUFRE ,zonation ,New Caledonia ,biogeochemistry ,Botany ,lcsh:GC1-1581 ,14. Life underwater ,ZONATION ECOLOGIQUE ,Water Science and Technology ,Civil and Structural Engineering ,mangrove ,biology ,Phosphorus ,PHOSPHORE ,lcsh:Naval architecture. Shipbuilding. Marine engineering ,Biogeochemistry ,15. Life on land ,biology.organism_classification ,Anoxic waters ,CARBONE ,6. Clean water ,Avicennia ,chemistry ,13. Climate action ,Avicennia marina ,Mangrove ,Geology - Abstract
In mangrove ecosystems, strong reciprocal interactions exist between plant and substrate. Under semi-arid climate, Rhizophora spp. are usually predominant, colonizing the seashore, and Avicennia marina develops at the edge of salt-flats, which is the highest zone in the intertidal range. Along this zonation, distribution and speciation of C, Fe, S, N, and P in sediments and pore-waters were investigated. From the land-side to the sea-side of the mangrove, sediments were characterized by I/ increase in: (i) water content, (ii) TOC, (iii) mangrove-derived OM, II/ and decrease in: (i) salinity, (ii) redox, (iii) pH, (iv) solid Fe and solid P. Beneath Avicennia and Rhizophora, TS accumulated at depth, probably as a result of reduction of iron oxides and sulfate. The loss of total Fe observed towards the sea-side may be related to sulfur oxidation and to more intense tidal flushing of dissolved components. Except the organic forms, dissolved N and P concentrations were very low beneath Avicennia and Rhizophora stands, probably as a result of their uptake by the root systems. However, in the unvegetated salt-flat, NH4+ can accumulate in organic rich and anoxic layers. This study shows: (i) the evolution of mangrove sediment biogeochemistry along the intertidal zone as a result of the different duration of tidal inundation and organic enrichment, and (ii) the strong links between the distribution and speciation of the different elements.
- Published
- 2015