South West (SW) Atlantic intertidal

South West (SW) Atlantic intertidal sediments are mostly pristine
systems, which are intensely bioturbated by the burrowing crab
Neohelice (Chasmagnathus) granulata. Bioturbation coefficients in these
sediments are among the highest reported worldwide, with values
around 250 cm−2 yr−1 (Fanjul et al., 2007) and sediment reworking
rates of up to 5.9 kg dry sediment m−2 d−1 (Iribarne et al., 1997), values
that are similar to those found for the ghost shrimp Callichirus kraussi
(up to 12 kg wet sediment m−2 d−1 Branch and Pringle, 1987;
Kristensen et al., 2012). This burrowing crab, according to the reworking
mode, is a “regenerative” bioturbator (sensu Solan and Wigham, 2005;
Kristensen et al., 2012), and affects the whole intertidal ecosystem functioning.
For example, crab-bioturbation favors plant growth (Daleo
et al., 2007), modifies benthic community structure (Escapa et al.,
2004), mediates predator–prey interactions (Escapa et al., 2004;
Martinetto et al., 2005), and affects microalgal assemblages (Alvarez
et al., 2013). Crab-bioturbation also affects carbon burial (Gutiérrez
et al., 2006), enhances sediment oxygenation (Daleo et al., 2007), benthic
metabolism (Fanjul et al., 2011) and nutrient benthic flux (Fanjul
et al., 2011). Oxygen uptake increases from 200 μmol O2 m−2 h−1 in
non-bioturbated zones up to 6000 μmol O2 m−2 h−1 in bioturbated
zones (Fanjul et al., 2011). In marshes with low content of dissolved inorganic
nitrogen (~18 μM), crabs favor dissolved inorganic nitrogen flux
toward the sediment, increasing from −100 μmol N m−2 h−1 at nonbioturbated
sediments to −700 μmol N m−2 h−1 at bioturbated sediments
(Fanjul et al., 2011).