265 research outputs found
Thermal adaptation and physiological responses to environmental stress in tunicates
Understanding the multifaceted nature of environmental fluctuations is crucial to
predicting the physiological adjustments utilised by organisms in resisting or adapting to changes
over time. Here we investigate the effects of 2 environmental stressors on tunicates, whose fitness
can have important repercussions on the quality of habitat. Specifically, we report respiration rate
(RR), clearance rate (CR), and assimilation efficiency (AE) of the ascidian Styela plicata in
response to a range of temperatures and varying food availability. Temperature-dependent RR
was observed only within a portion of the thermal window of the species. Significant differences
in clearance rates were detected among organisms fed with varying algal concentrations, while no
significant influence of food concentrations on AE was observed. This plasticity of the physiological
rates and the development of ubiquitous mechanisms such as temperature-insensitive aerobic
metabolism suggest a competitive advantage of this group. Such knowledge may allow for more
accurate predictions of the physiological and evolutionary mechanisms driving current and future
distribution of this species
Development of an Integrated Mariculture for the Collagen-Rich Sponge <em>Chondrosia reniformis</em>
Development of an Integrated Mariculture for the Collagen-Rich Sponge <em>Chondrosia reniformis</em>
Response of captive seabass and seabream as behavioural indicator in aquaculture
Welfare of cultivate fish at high-density represents an important concern for modern aquaculture.
The behaviour of European seabass (Dicentrarchus labrax) and seabream (Sparus aurata) reared in cages was studied
in a fish farm of northern Sardinia (Italy) in autumn 2006 to test whether captive condition had an effect on
the movement patterns of these two species.Video images recorded before, during and after the manual feeding distribution
allowed us to collect data on different behaviours of captive fish. Thus, behaviours indicating the position
of fish in the water column, swimming direction and possible aggressive behaviours (aggression, direction change
and collision) showed juveniles and adults of seabass and seabream were overall affected by feeding rhythms and
captive overcrowding. Seabream had a major tendency to swim towards the bottom and higher frequency of horizontal
swimming and collisions than seabass. The overall behavioural difference between two species was explained
in terms of their differences in ecological features in the wild
Unveiling the Relationship Between Sea Surface Hydrographic Patterns and Tuna Larval Distribution in the Central Mediterranean Sea
Thunnus thynnus (Atlantic bluefin tuna, ABT) and other tuna species reproduce in the Mediterranean Sea during the summer period. Despite the Central Mediterranean Sea, the Strait of Sicily in particular, being a key spawning site for many tuna species, little is known on the effects of oceanographic variability on their larval distribution in this area. The abundance and presence-absence of larval specimens for three tuna species (ABT, bullet tuna and albacore) were modeled in order to examine their relationships with environmental factors, by analysing historical in situ information collected during seven annual surveys (2010–2016). The results revealed that most tuna larvae for the three species were found in the easternmost part of the study area, south of Capo Passero. This area is characterized by a stable saline front and warmer nutrient-poor water, and it has different environmental conditions, compared with the surrounding areas. The models used to investigate the presence-absence and abundance of the three species showed that ABT was the most abundant, followed by bullet tuna and albacore. The presence and abundance data collected are comparable with those of other spawning areas in the Mediterranean. Regarding biological and physical parameters, the results suggest that temperature, salinity, and day of the year are the key factors for understanding the ecological mechanisms and geographical distribution of these species in this area. Temperature affects the presence of ABT larvae and salinity, which, with a physical barrier effect, is a key factor for the presence-absence of bullet and albacore and for albacore abundance
A biologically relevant rapid quantification of physical and biological stress profiles on rocky shores.
Different combinations and intensities of physical (e.g. thermal) and biological (e.g.competition or predation) stress operate on organisms in different locations. Variation in these stresses can occur over small to medium spatial scales (cm to 10s m) in heterogeneous environments such as rocky shores, due to differences in sun and wave exposure, shore topography and/or recruitment. In this study we demonstrate how simple measurements can be taken that represent physical and biological stresses (stress profiles)in a given location. Using a bootstrapped principal component analysis, we identified significantly different stress profiles at four sites separated by only 10s to 100s of metres on the Shek O peninsula in Hong Kong. We then measured response to thermal stress, as determined by detachment temperature, in the limpet Cellana grata (which is known to be a sensitive indicator species to thermal stress) from each location. Significant differences in stress profile between locations were also seen in thermal stress tolerance of limpets from those locations. At locations where the major stresses are likely to be more physical or less biological in nature (e.g. southerly facing aspect or lower density of grazers), the mean detachment temperature was higher, whereas detachment temperature was lower at sites with more biological or less physical stress. This method is, therefore, able to determine biologically meaningful differences in stress profiles over small to medium spatial scales, and demonstrates that localised adaptation (i.e. post planktonic settlement) or acclimation of species may occur in response to these different stress profiles. The technique can be adapted to different environments and smaller or larger spatial scales as long as the stress experienced by the study species is relevant to these scales
The duality of ocean acidification as a resource and a stressor
Ecologically dominant species often define ecosystem states, but as human disturbances intensify, their subordinate counterparts increasingly displace them. We consider the duality of disturbance by examining how environmental drivers can simultaneously act as a stressor to dominant species and as a resource to subordinates. Using a model ecosystem, we demonstrate that CO2-driven interactions between species can account for such reversals in dominance; i.e., the displacement of dominants (kelp forests) by subordinates (turf algae). We established that CO2 enrichment had a direct positive effect on productivity of turfs, but a negligible effect on kelp. CO2 enrichment further suppressed the abundance and feeding rate of the primary grazer of turfs (sea urchins), but had an opposite effect on the minor grazer (gastropods). Thus, boosted production of subordinate producers, exacerbated by a net reduction in its consumption by primary grazers, accounts for community change (i.e., turf displacing kelp). Ecosystem collapse, therefore, is more likely when resource enrichment alters competitive dominance of producers, and consumers fail to compensate. By recognizing such duality in the responses of interacting species to disturbance, which may stabilize or exacerbate change, we can begin to understand how intensifying human disturbances determine whether or not ecosystems undergo phase shifts
Moving Toward a Strategy for Addressing Climate Displacement of Marine Resources: A Proof-of-Concept
Realistic predictions of climate change effects on natural resources are central to adaptation policies that try to reduce these impacts. However, most current forecasting approaches do not incorporate species-specific, process-based biological information, which limits their ability to inform actionable strategies. Mechanistic approaches, incorporating quantitative information on functional traits, can potentially predict species- and population-specific responses that result from the cumulative impacts of small-scale processes acting at the organismal level, and can be used to infer population-level dynamics and inform natural resources management. Here we present a proof-of-concept study using the European anchovy as a model species that shows how a trait-based, mechanistic species distribution model can be used to explore the vulnerability of marine species to environmental changes, producing quantitative outputs useful for informing fisheries management. We crossed scenarios of temperature and food to generate quantitative maps of selected mechanistic model outcomes (e.g., Maximum Length and Total Reproductive Output). These results highlight changing patterns of source and sink spawning areas as well as the incidence of reproductive failure. This study demonstrates that model predictions based on functional traits can reduce the degree of uncertainty when forecasting future trends of fish stocks. However, to be effective they must be based on high spatial- and temporal resolution environmental data. Such a sensitive and spatially explicit predictive approach may be used to inform more effective adaptive management strategies of resources in novel climatic conditions
Mitochondrial simple sequenze repeats and 12s – rRNA gene reveal two distinct lineages of Crocidura russula (Mammalia, Sorcidae)
A short segment (135 bp) of the control region and a partial
sequence (394 bp) of the 12S-rRNA gene in the mitochondrial
DNA of Crocidura russula were analyzed in order to test a
previous hypothesis regarding the presence of a gene flow
disruption in northern Africa. This breakpoint would have
separated northeast-African C. russula populations from
the European (plus the northwest-African) populations. The
analysis was carried out on specimens from Tunisia (C. r. cf
agilis), Sardinia (C. r. ichnusae), and Pantelleria (C. r.
cossyrensis), and on C. r. russula from Spain and Belgium.
Two C. russula lineages were identified; they both shared R2
tandem repeated motifs of the same length (12 bp), but not the
same primary structure. These simple sequence repeats were
present in 12–23 copies in the right domain of the control
region. Within the northeast-African populations, a polymorphism
of repeat variants, not yet found in Europe, was recorded.
A neighbor-join tree, which was built by sequences of the conserved 12S-rRNA gene, separated the two sister groups; it
permitted us to date a divergence time of 0.5Myr. Our data
discriminated two different mitochondrial lineages in accordance
with the previous morphological and karyological data.
Ecoclimatic barriers formed during the Middle Pleistocene
broke the range of ancestral species in the Eastern Algeria
(Kabile Mountains), leading to two genetically separate and
modern lineages. The northeast-African lineage can today be
located in Tunisia, Pantelleria, and Sardinia. The northwest-
African lineage (Morocco and West Algeria), reaching Spain
by anthropogenic introduction, spread over north Europe in
modern times. The Palaearctic C. russula species is monophyletic,
but a taxonomical revision (ie, to provide a full species
rank for the northeast taxa and to put in synonymy some
insular taxa) is required
Effects of ocean acidification on invertebrate settlement at volcanic CO<inf>2</inf> vents
We present the first study of the effects of ocean acidification on settlement of benthic invertebrates and microfauna. Artificial collectors were placed for 1 month along pH gradients at CO2 vents off Ischia (Tyrrhenian Sea, Italy). Seventy-nine taxa were identified from six main taxonomic groups (foraminiferans, nematodes, polychaetes, molluscs, crustaceans and chaetognaths). Calcareous foraminiferans, serpulid polychaetes, gastropods and bivalves showed highly significant reductions in recruitment to the collectors as pCO2 rose from normal (336-341 ppm, pH 8.09-8.15) to high levels (886-5,148 ppm) causing acidified conditions near the vents (pH 7.08-7.79). Only the syllid polychaete Syllis prolifera had higher abundances at the most acidified station, although a wide range of polychaetes and small crustaceans was able to settle and survive under these conditions. A few taxa (Amphiglena mediterranea, Leptochelia dubia, Caprella acanthifera) were particularly abundant at stations acidified by intermediate amounts of CO2 (pH 7. 41-7.99). These results show that increased levels of CO2 can profoundly affect the settlement of a wide range of benthic organisms. © 2010 Springer-Verlag
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