974 research outputs found
Sur des spĂ©cimens historiques inĂ©dits dâarthropodes marins des Calcaires Lithographiques de Solnhofen et Nusplingen (Jurassique supĂ©rieur, Allemagne) conservĂ©s au MusĂ©um national dâHistoire naturelle, Paris
International audiencePlusieurs spĂ©cimens fossiles dâarthropodes marins inĂ©dits, conservĂ©s au MusĂ©um national dâHistoire naturelle Ă Paris (France) et provenant des Calcaires lithographiques de Solnhofen et de Nusplingen (Jurassique supĂ©rieur, Allemagne), sont dĂ©crits et illustrĂ©s. Nous dĂ©crivons notamment des spĂ©cimens dâAntrimpos undenarius Schweigert, 2001, dâEryma modestiforme (Schlotheim, 1822) et de Mecochirus longimanatus (Schlotheim, 1820). Mecochirus foresti SecrĂ©tan, 1968 est considĂ©rĂ© comme un synonyme plus rĂ©cent de Mecochirus longimanatus. Une rĂ©vision des spĂ©cimens dĂ©crits prĂ©cĂ©demment est Ă©galement rĂ©alisĂ©e. Cet article fournit ainsi de nouvelles informations sur les espĂšces dâAntrimpos prĂ©sentes dans les Plattenkalks de Solnhofen et donne un aperçu complet des arthropodes marins fossiles provenant de ces localitĂ©s et disponibles au MNHN
Early Maladaptive Schemas among children: a new way to screen for depressed child
How can childrenâs schemas evolve into adult schemas that are responsible for depression? To answer
this question, we translated Schmidt, Joiner, Young, and Telchâs (1995) Early Maladaptive Schema
Questionnaire into French and adapted it to children. We administered the questionnaire to two groups
of children in years seven to ten (N = 252), one group containing children suffering from depression
and the other containing children with no psychiatric disorders. The results provided insight into the
structure of depression schemas. From a clinical perspective, we stress the possibility of using this
tool to individually or collectively detect «normal» and «abnormal» schemas in children
Early maladaptive schemas among children: a new way to screen for depressed child
The âMirageâ Sensor in a Industrial Environment: Optical and Thermal Losses Determinations
Since the first âMirageâ experiment run in the laboratory of ESPCI in 1979 [1], this method has been used by many other laboratories for the determination of optical and thermal properties and for non destructive evaluation [2] [3] [4]
Terrestrial groundwater and nutrient discharge along the 240-km-long Aquitanian coast
We collected samples from sea water, runnel water, beach pore waters, water from the unconfined surficial aquifer discharging at the beach face, groundwater, and rainwater from the Aquitanian coast in order to determine the flux of dissolved inorganic nitrogen (DIN), phosphorus and silica from terrestrial submarine groundwater discharge (SGD). The flux of fresh groundwater was obtained from a water balance calculation based on precipitation and evapotranspiration and assessment of the coastal watershed from hydrograph separation. Waters with intermediate salinities between sea water and freshwaters are found all along the 240-km-long coast, indicating that SGD is ubiquitous. The estimated fresh water flux is 2.25 m3 dâ 1 mâ 1 longshore. Terrestrial SGD provides a DIN flux of 9·106 mol each year to the adjacent coastal zone. This flux is about four times lower than the release of DIN due to tidally driven saline SGD. The freshwater DIN flux is low because the upland land use consists almost exclusively of pine forest. Dissolved organic nitrogen represents more than 60% of the total dissolved nitrogen flux. Dissolved iron, phosphorus and silica have much higher concentrations in the anoxic forest aquifer than in the fresh-water end-member of the subterranean estuary sampled in the upper beach aquifer. This suggests that the salinity gradient of the estuary does not correspond to a redox gradient. The redox front between anoxic groundwater and fresh oxic waters occurs below the soil-depleted foredune/yellow dune. Anoxic P- and Si-rich waters seep directly on the beach face only in the north Gironde, where the foredunes are eroded. This study reveals the role of the sandy foredune aquifer in biogeochemical fluxes from SGD, which is to dilute and oxidize waters from the unconfined surficial upland aquifer
REVIEW OF EARLY TRIASSIC THYLACOCEPHALA
Thylacocephala (Euarthropoda: Eucrustacea?) is a group of enigmatic fossil euarthropods, known from at least the Silurian to the Cretaceous. The Triassic is considered to be the period during which thylacocephalans were the most diversified with 17 species reported from 19 localities in nine countries. However, Thylacocephala were assumed to be rare during the Early Triassic until recent discoveries in Japan, Nevada and Idaho, U.S.A. Our study focuses on thylacocephalans from the Early Triassic, especially from Madagascar and Idaho. The revision of previously known taxa from Madagascar provides new important information. A new kind of ornamentation is reported for Paraostenia ambatolokobensis nov. comb., previously assigned to Ostenocaris ambatolokobensis. In addition, Ankitokazocaris acutirostris and Paraostenia ambatolokobensis are only the third and fourth thylacocephalan taxa for which possible cephalic appendages are described. New occurrences of Thylacocephala in Nevada and Idaho, U.S.A., lead to the description of one new taxon and to the reassignement of Parisicaris triassica to Ankitokazocaris triassica nov. comb. Those occurrences provide a significant contribution to the knowledge of Thylacocephala taxonomic diversity and geographic distribution during the Early Triassic. An important revision of Early Triassic thylacocephalan taxa from Japan and China is also performed, including Ankitokazocaris chaohuensis, Ankitokazocaris parva nov. comb., Ankitokazocaris utatsuensis nov. comb. and Paraostenia sp. Overall, the taxonomic diversity of Triassic thylacocephalans has likely been slightly over-estimated (17 species before, 15 now). However, the Triassic represents the richest period in terms of thylacocephalan-bearing outcrops (19 localities from nine countries)
Benthic oxygen exchange over a heterogeneous Zostera noltei meadow in a temperate coastal ecosystem
Seagrass meadows support intense but highly variable benthic metabolic rates that still need to be better evaluated to determine an accurate trophic status. The present study assessed how seagrasses and associated benthic macrofauna control spatiotemporal changes in benthic oxygen exchanges within a temperate bay. Based on seasonal sampling over a complete year cycle, the diffusive oxygen uptake (DOU), community respiration (CR) and gross primary production (GPP) were measured in a Zostera noltei meadow within Arcachon Bay, taking into account its spatial heterogeneity. Oxygen fluxes were assessed in sediment cores, within which benthic macrofauna and seagrass abundances and biomasses were quantified. The presence of Z. noltei did not significantly affect the DOU. Seasonal changes in CR and GPP correlated strongly with temperature in the presence of Z. noltei. The characteristics of benthic macrofauna associated with Z. noltei only weakly affected seasonal changes in CR. High spatial changes in both GPP and CR were mainly driven by the aboveground biomass of Z. noltei. When extrapolated to the whole intertidal area of the bay, in spite of limitations, our results suggest (1) overall higher contributions to CR and GPP from the seagrass meadow than from bare sediments, even though alternative primary producers in bare sediments (likely microphytobenthos) contributed significantly during winter; (2) an annual decrease in CR and GPP of 35 and 41%, respectively, resulting from the decline in Z. noltei of 25% between 2005 and 2007; and (3) a strong seasonality in the magnitude of this decrease, which was high during autumn and low during winter.
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