Abstract
Abstract. Mangrove forests are extremely productive ecosystems, are sources and sinks of organic carbon, and provide essential services both to the marine environment and people. We have studied the composition and species richness of modern benthic foraminiferal assemblages from mangrove swamps along the Mamanguape River in Paraíba, northern Brazil. Sampling points for foraminifera were selected to acquire information on the composition of foraminiferal assemblages from dense mangrove stands collected along a river transect. Almost 100 species of benthic foraminifera were identified within the shallow mangrove habitats. The large number of identified mangrove taxa is the highest recorded so far for true mangrove habitats. The high species richness rivals shallow-water assemblages recorded from nearby offshore and reef environments and indicates that a particularly large number of species is capable of growing and flourishing under multiple stressor conditions. Numerical analysis of the faunal assemblages shows that specific taxa, which were previously known to be uncommon in mangrove environments, are abundant in the Mamanguape River estuary. The atypical foraminiferal fauna found in the Mamanguape River estuary resembles shallow-water offshore assemblages, is characterized by high percent abundances of perforate and miliolid taxa, and contains only very few of the otherwise typical and numerically abundant agglutinated mangrove taxa. The unusual structure of the assemblages recorded provides insight into what combination of environmental variables controls their composition and novel perspectives to reconstruct past mangrove environments. Distribution, diversity, and species-specific analysis will provide guidance on the use of Brazilian mangrove foraminifera as indicators for the strength of tidal activity, pollution, and anoxia in coastal waters and sea-level reconstructions.
Highlights
Mangrove ecosystems around the world play an important role in protecting biodiversity, preserving shorelines, and regulating carbon cycling
Numerical analysis of the faunal assemblages shows that specific taxa, which were previously known to be uncommon in mangrove environments, are abundant in the Mamanguape River estuary
The objectives of the present study were (i) to provide detailed documentation on the structure and species richness of foraminiferal assemblages in mangroves of the Mamanguape River estuary of northern Brazil, (ii) to understand the driving forces contributing to the unusual composition and high diversity of these assemblages, and (iii) to discuss implications for interpreting the fossil record of foraminiferal mangrove assemblages
Summary
Mangrove ecosystems around the world play an important role in protecting biodiversity, preserving shorelines, and regulating carbon cycling. They respond actively to coastal processes and sediment input and are considered one of the best geological indicators for the detection of modifications in coastal zone dynamics (Cunha-Lignon et al, 2009). Inhabiting the interface between land and sea at low latitudes, these ecosystems occupy a harsh environment and are subject to daily tidal, temperature, and salinity variations as well as varying degrees of anoxia Mangrove forests and their inhabitants are rather robust and highly tolerant to life in their saline environments within warm, subtropical, and tropical seascapes (Alongi, 2008). In addition to the natural fluctuations, anthropogenic activities affect these ecosystems
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