Anti-herbivory protection by mutualism in marine ecosystems: The case of the kelps and hydroids.

Plant–herbivore interactions are critical for the functioning of ecosystems, particularly when habitat-forming species are involved. Kelp forests are among the most diverse and productive ecosystems in the world and, along the Chilean coast, they have a high economic importance. Lessonia trabeculata constitutes the main component of the subtidal shallow habitats in Chile. We quantified the consumption of kelp tissues by the snail Tegula tridentata (one of the most important grazers in Chilean kelp habitats), and the modification in this consumption by a guild of epibiotic hydroids growing on kelps. We performed two different sets of experiments with and without the possibility for the snails to select between kelps with hydroids and kelps without them. The consumption by T. tridentata on kelps without hydroids was between 3 and 4 times higher than on kelps with hydroids. Kelp is protected from herbivores by hydroids and can gain nitrogen during low concentration periods of this nutrient in water. Hydroids gain a substratum, and an elevated position above the seafloor where particle capture is facilitated by the effect of kelp in water currents. Predictions using densities of T. tridentate observed in different forests of L. trabeculata along Chilean coasts, show that herbivory pressure can drastically change depending on this density; in forests with high densities, the presence/absence of hydroids could be crucial. Hydroids have shown to be ubiquitous components of the fauna inhabiting the kelp holdfast and forming a rich community in comparison with other epibionts. Despite its low overall biomass, hydroids can be key elements in kelp productivity (affecting, therefore, the community associated to kelps). The kelp-hydroid mutualistic relationship can change the interactions kelp-herbivore

Implications of non-linear responses of diversity to disturbance gradients in the assessment of the European Water Framework Directive ecological status

The Water Framework Directive (WFD) defines the composition and abundance of benthic invertebrates as one of the biological quality elements (BQE) for the classification of ecological status in European coastal and transitional waters..

Nekton response to the freshwater inputs in a Temperate Europen Estuary with regulated riverine inflow

The aim of this 12-year study was to assess the nekton (fish, decapod crustaceans) response to freshwater inputs (rainfall, dam discharges) in a temperate estuary with regulated riverine inflow. Although interannual variability in river discharges to the Guadalquivir estuary has been extremely high since the construction of a dam in 1930, a significant decreasing trend in the dam's discharges has been observed in the last 80. years. During this study, an alternation of wet, standard and dry years occurred in the estuarine area but no significant long-term trend was observed. River discharge, in turn, showed a considerable interannual variability and a significantly decreasing long-term trend. Freshwater inputs had an immediate effect on estuarine salinity and turbidity, and consequently on prey availability (mysids). Although 124 nektonic species were collected, only 47 of them (adding up to 99.7% of total abundance) were regularly present in the estuary: 32 marine migrants, 13 estuarine species and 2 diadromous species. Well-defined temporal changes in species composition and abundance yielded clear seasonal patterns in the estuarine nektonic community. Considerable intermonth and interannual changes were occasionally observed relating to freshwater inputs, mainly in winter/autumn of wet years. Thus, within each two-month period, some significant interannual differences in the nektonic community were also observed, with marine migrants tending to be more abundant in dry years. However, changes in the studied nektonic community did not show long-term trends. In conclusion, natural and human-controlled freshwater inputs currently play a significant role in determining the physicochemical conditions and the biota of the Guadalquivir estuary. However, although freshwater input seemed to transitorily affect the estuarine nekton, either directly (flushing out) or indirectly (through changes in salinity, turbidity and prey availability), a quick reestablishment of the estuarine nekton (strong resilience) was observed following freshwater inputs together with the recovery of environmental conditions within the estuary. © 2012 Elsevier B.V.This study was co-funded by the Spanish Ministry of Economy and Competitiveness, through the projects REN2000-0822 MAR and SCARCE (Consolider-Ingenio 2010 CSD2009-00065), the Environmental and Fishery Agency of Autonomous Andalusia Government and the EU Fishery Grant.Peer Reviewe