The dynamics of benthic nutrient pools and fluxes in tropical mangrove forests

Author: Daniel M. Alongi

Source: Journal of Marine Research, Volume 54, Number 1, 1 January 1996 , pp. 123-148(26)

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• In this Subject: Oceanography
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Abstract:

Variations in benthic nutrient pools and rates of dissolved nutrient exchange between the forest floor and tidal waters were examined over a 5-yr period in mixed Rhizophora forests lining Coral Creek on Hinchinbrook Island in Queensland, Australia. Seasonal and spatial changes in redox status, porewater and solid-phase nutrients, and in exchange rates were not consistent and did not correlate with temperature. Below-ground roots, on average, accounted for 79%, 37% and 26% of bulk sediment TOC, total N and total P pools, respectively. Porewater nutrient concentrations were dominated by Si(OH)₄⁺ and DON with consistently low levels of NO₂^- + NO₃^-. At most sampling periods, porewater NH₄⁺ and PO₄^3- concentrations were higher in creek bank sediments than in mangrove sediments indicating uptake by trees. These sediments have low adsorption capacity (K = 0.17–0.47) for NH₄⁺, but a moderate capacity (K = 0.8–4.8) for PO₄^3- adsorption. Most measured benthic fluxes of dissolved nitrogen and phosphorus showed uptake by sediments, prop roots and timber lying on the forest floor. Relative (per ha) estimates indicate that low-intertidal Rhizophora forests import 2220 mmol N ha^-1d^-1 and 496 mmol P ha^-1d^-1, with sediments accounting for nearly all uptake while Si is exported (2475 mmol ha^-1d^-1. Mid-intertidal forests import 1385, 93 and 4720 mmol ha^-1d^-1 of N, P and Si, respectively; sediments, prop roots and timber respectively account for 36%, 62% and 2% of the N import. Mid-intertidal sediments account for all net P uptake, but prop roots and sediments account for 60% and 40% of total Si uptake. On an absolute basis, low-intertidal forests (78 ha total area) in Coral Creek import 881 kgN yr^-1, 436 kgP yr^-1 and export 1963 kgSi yr^-1, and the mid-intertidal forests (338 ha total area) import 2392 kgN yr^-1, 356 kgP yr^-1 and 16300 kgSi yr^-1. The sum of these estimates equates to 95% of the net annual import of total dissolved N and 66% of the net annual import of total dissolved P into the Coral Creek tidal basin from adjacent coastal waters. By difference, 14337 kgSi yr^-1 is imported into the system. This indicates that mangrove forests are a very efficient sink of dissolved nitrogen, phosphorus and silicon in this tidally-driven coastal ecosystem. This import may be driven by the consistently high rates of microbial and plant growth and productivity within the forests.

Document Type: Research article

DOI: 10.1357/0022240963213475