725 research outputs found
Quinoa (Chenopodium quinoa Willd.) flour as novel and safe ingredient in bread formulation.
Aims of this study were to investigate the protein fraction of quinoa flour and to evaluate its in-vitro digestibility for bread formulation. The chemical composition of quinoa protein isolate and flour were investigated. Quinoa flour showed an excellent nutritional profile, including a high protein (about 14%), lipid (about 7%) and ash (about 2%) content. Proteomic and R5 ELISA analyses showed absence of gluten, confirming quinoa as a naturally gluten-free crop. The microstructure of flour and protein isolate, dough and quinoa bakery product were observed through Scanning Electron Microscopy (SEM). Furthermore, we studied the protein fraction of quinoa flour and protein isolate and to evaluate their in-vitro digestibility for a functional bread development using a static in vitro model of protein gastrointestinal digestion Romano et al. (2017). MS/MS analysis of gastrointestinal digests had a high degree of digestibility and survival of only few resistant peptides, none of which recognized by western blotting with sera of individuals allergic to cereals nor by in silico screening on allergenic sequence databases. Bakery product exclusively based on quinoa flour was prepared with valid nutritional properties. Results indicated that quinoa flour had a high degree of digestibility, supporting its excellent nutritional value and the use of quinoa as ingredient in substitutive dough formulations
Advancements towards restoration of the endangered limpet Patella ferruginea Gmelin, 1791 through controlled reproduction
The ferruginous limpet is one of the most threatened invertebrate species in the Mediterranean Sea. Its controlled reproduction has been considered one of the potentially most effective strategies for the production of juveniles for population restocking or for recolonization of areas where the species was brought to extinction by human pressure but is now under protection (e.g., MPAs). This approach has been pursued for at least two decades but with partial results: at most, some juveniles have been obtained and have reached adult stage, yet not starting from spawning induction but through sacrifice of female specimens (lethal approach), additionally resulting in low genetic diversity of the juveniles produced. Herein, we describe, for the first time, positive results of the spawning induction in P. ferruginea. The fertilizations made after these experiences allow describing the larval development of the species from its early stages to its metamorphosis. The fertilization rate in these spawning events was much higher (>97%) than in previous studies that were based on the extraction of oocytes by dissection. The rate of non-anomalous larvae after 15 hours was not negligible but variable, depending perhaps on the quality of the sperm available at each fertilization. The timing of larval development of the species and its variability, particularly regarding metamorphosis, are described. Settlement ability is reached at 3\u20134 days after fertilization, depending on water temperature, while a large variability is observed in metamorphosis, occurring between 7 and 32 days (probably up to 40 days), although inducing factors are still unknown
Deformed Pleistocene marine terraces along the Ionian sea margin of southern Italy: unveiling blind fault-related folds contribution to coastal uplift
Morphotectonic analysis and fault numeric modeling of uplifted marine terraces along the Ionian Sea coast of the Southern Apennines allowed us to place quantitative constraints on middle Pleistocene-Holocene deformation. Ten terrace orders uplifted to as much as +660 m were mapped along ~80 km of the Taranto Gulf coastline. The shorelines document both a regional and a local, fault-induced contribution to uplift. The intermingling between the two deformation sources is attested by three 10 km scale undulations superimposed on a 100 km scale northeastward tilt. The undulations spatially coincide with the trace of NW-SE striking transpressional faults that affected the coastal range during the early Pleistocene. To test whether fault activity continued to the present, we modeled the differential uplift of marine terraces as progressive elastic displacement above blind oblique-thrust ramps seated beneath the coast. Through an iterative and mathematically based procedure, we defined the best geometric and kinematic fault parameters as well as the number and position of fault segments. Fault numerical models predict two fault-propagation folds cored by blind thrusts with slip rates ranging from 0.5 to 0.7 mm/yr and capable of generating an earthquake with a maximum moment magnitude of 5.9–6.3. Notably, we find that the locus of predominant activity has repeatedly shifted between the two fault systems during time and that slip rates on each fault have temporally changed. It is not clear if the active deformation is seismogenic or dominated by aseismic creep; however, the modeled faults are embedded in an offshore transpressional belt that may have sourced historical earthquakes
The chiral 1:2 adduct (S)S(S)C(-)589-ethyl 2-phenylbutyl sulphide-mercury (II) chloride:(-)589[(S)S(S)C-Et(2-PhBu)S.(HgCl2)2]. Stereoselective synthesis, asymmetric oxidation, crystal and molecular structure and circular dichroism spectra
Optically active (-)589ethyl (S)-2-phenylbutyl thioether, (-)(S)C-Et(PhBu)S (I), and its new diastereoisomeric mercury (II) chloride adduct, 1:2, (-)[(S)S(S)C-Et(PhBu)S.(HgCl2)2]2, (II) were stereoselectively synthesized; the absorbance (UV) and circular dichroism (CD) spectra were measured and the crystal and molecular structure of complex (II) was determined by single-crystal X-ray diffraction. Two different Hg centres are present whose coordination environments are built by two short bonds to chloride ligands in one case, and to one chloride and one sulphur in the other one. These originate digonal units. Electroneutrality is achieved by a further chlorine, which can be considered prevalently ionic and bonded to the two Hg centres, forming square bridging systems nearly perpendicular to the digonal molecules. The coordination polyhedra can be interpreted as 2 + 4 tetragonally-compressed octahedra with the four longer contacts lying in the equatorial plane. IR spectroscopic data are consistent with the presence of one bent and one linear Cl–Hg–Cl moiety. The absolute configurations at both stereogenic centres of the formed diastereoisomeric complex (II) are (S). The (S)S absolute configuration at the stereogenic sulphur atom bonded to the mercury(II) atom in complex (II) has been related with the negative Cotton effect assigned in its circular dichroism (CD) spectrum to a charge-transfer transition at ca. 230 nm. The stereoselective oxidation of (I) and (II) with hydrogen peroxide, induced by the stereogenic carbon atom (S)C of the enantiopure sulphide, gave (-)598ethyl (S)C-2-phenylbutyl(S)S-sulphoxide, (-)598[(S)S(S)C-Et(PhBu)SO], (III), having 18.1% de. Oxidations carried out in the presence of a 200 molar excess of mercury(II) chloride gave (-)598ethyl (S)C-2-phenylbutyl(R)S-sulphoxide, (-) 598[(R)S(S)C-Et(PhBu)SO], (IV) with 31% de, showing the cooperative influence of mercury(II) chloride on the selectivity of the oxidation reaction
Morfologia e morfometria del settore ionico del Golfo di Taranto.
Il versante Ionico del Golfo di Taranto \ue8 caratterizzato dalla presenza di alti strutturali e bacini che
rappresentano l\u2019espressione morfologica di sistemi di faglie pleistoceniche transpressive. La dorsale di
Amendolara si estende per 45 Km in direzione N130\ub0E, ed \ue8 caratterizzato dalla presenza di tre alti
batimetrici minori (denominati Amendolara, Rossano e Cariati). Verso NE, la dorsale di Capo Spulico si
estende per 40 Km in direzione !N115\ub0E.
Durante la Campagna Oceanografica \u201cTeatioca\u201d sono stati acquisiti 1100Km2 di dati batimetrici
multibeam e profili sismici monocanale ad alta (Sparker) ed altissima risoluzione (Subbottom Chirp).
L\u2019analisi integrata dei nuovi dati ha consentito di ottenere una sintesi morfostrutturale preliminare dell\u2019area
sud-orientale del Golfo di Taranto [Santoro et al., 2012].
L\u2019insieme dei dati morfometrici evidenzia un ruolo chiave nell\u2019attivit\ue0 traspressiva della faglia che borda
a SW la dorsale di Amendolara, in quanto la regolarit\ue0 dei pendii rivolti a S \ue8 legata alla deformazione e
sollevamento dei versanti, che tende a superare l\u2019effetto dei processi erosivi (versanti a controllo morfostrutturale).
Il processo di basculamento guidato dall\u2019azione della faglia sembra essere all\u2019originedei processi
responsabili dell\u2019erosione gravitazionale canalizzata sui pendii esposti a nord (versanti a controllo morfosedimentario).
Sette ordini di terrazzi sono stati riconosciuti sul top del Banco di Amendolara, attraverso tecniche di
analisi dei picchi nel diagramma di distribuzione delle quote [Passaro et al., 2011]. Tale dato e le statistiche
sui profili estratti dal DTM testimoniano la presenza di tassi differenziali di sollevamento ed un complessivo
tilt (verso E) del settore frontale ionico dell\u2019Appennino Meridionale, in accordo con quanto suggerito in
letteratura [Ferranti et al., 2009].
Bibliografia
Ferranti, L., Santoro, E., Mazzella, M.E., Monaco, C., Morelli, D., (2009). Active transpression in the
northern Calabria Apennines, southern Italy. Tectonophysics, 476 (1-2), 226-251.
Passaro, S., Ferranti, L., de Alteriis, G., (2011). The use of high resolution elevation histograms for mapping
submerged terraces: a test from the Eastern Tyrrhenian Sea and the Eastern Atlantic Ocean. Quat. Int.,
232, 1-2, 238-249.
Santoro, E., Ferranti, L., Passaro, S., Burrato, P., Morelli, D., (2012). Morphometric analysis in the offshore
of the southern Taranto Gulf: unveiling the structures controlling the Late Pleistocene-Holocene
bathymetric evolution. Rend. On. Soc. Geol. It., 21 (2), 1132-1135
Geometria e modellazione di un sistema di retro-scorrimenti attivosulla base di dati di geofisica marina ad alta risoluzione:la Dorsale di Amendolara (Golfo di Taranto).
Nuovi dati sismici ad alta (Sparker) ed altissima (Subbottm Chirp) risoluzione, acquisiti durante la
Campagna Oceanografica “Teatioca_2010”, integrati da dati sismici multicanale ad alta penetrazione,
pubblici disponibili sul sito www.videpi.com, calibrati con pozzi profondi, batimetrici multifascio e
carotaggi, rivelano che la dorsale di Amendolara, estensione sottomarina della zona frontale del sistema a
thrust dell’Appennino meridionale, è stata controllata nel Quaternario da un sistema di retro-scorrimenti e
faglie transpressive (ATFS) che dislocano verso SW la catena mio-pliocenica NE-vergente.
Il pacco di sequenze deposizionali attribuito, sulla base della facies sismica e della presenza di
discordanze controllate dalle oscillazioni glacio-eustatiche, al Pleistocene medio-superiore risulta piegato in
maniera consistente con le strutture desumibili dai profili multicanale. I dati morfometrici e sismici
documentano che la dorsale, orientata NW-SE, è formata da 3 banchi lunghi ~10-20 km, cresciuti sopra
rampe di sovrascorrimenti ciechi (~2 km) disposti en-echelon a formare un sistema segmentato. Sono stati
individuati e modellati i segmenti di Amendolara a NW e Cariati a SE, collegati da una piĂą piccola rampa
laterale (segmento di Rossano). La modellazione numerica calibrata sui dati batimetrici e sismici indica che
le rampe hanno inclinazione di ~45° e sono radicate a ~10 km di profondità a possibili scollamenti o strutture
maggiori. I tassi di scorrimento negli ultimi 4-500 ka, calcolati per i segmenti sulla base degli strati di
crescita nei bacini sin tettonici variano da 0.5-0-9 mm/a per il segmento di Amendolara a 0.35-0.5 mm/a per
quello di Cariati.
L’ATFS coincide con una fascia di moderata sismicità (Mw<4.7) con meccanismi focali inversi o
transpressivi. L’orientazione degli assi di strain incrementale (sismico) e finito (geologico, come
documentano i dati a terra) suggerisce per i segmenti dell’ATFS un movimento da inverso a obliquo sinistro.
In base alla dimensione dei segmenti di faglia, nell’ipotesi di deformazione puramente elastica, si stima una
magnitudo potenziale massima per l’ATFS di M~6.1-6.4, ma è verosimile che buona parte della
deformazione sia asismica o microsismica. L’epicentro macrosismico del terremoto del 1988 (Mw=4.9)
ricade su un tratto del segmento di Cariati che mostra rotture a fondo mare e possibile risalita di fluidi
localizzata lungo strutture attive. La crescita dell’ATFS è stata verosimilmente controllata da un interfaccia
meccanica tra la spessa crosta apula e la crosta ionica assottigliata o in parte oceanica, quando in tempi
recenti la convergenza Adria-Europa ha prevalso sull’arretramento della cerniera della subduzione ionica
Studio morfometrico e statistico degli eventi di frananel settore marino orientale del Golfo di Taranto.
La campagna oceanografica “Teatioca” è il frutto della collaborazione fra l’Istituto per l’Ambiente
Marino Costiero (IAMC) di Napoli, l’Università Federico II di Napoli, l’Università di Palermo e Trieste e
l’INGV di Roma. Durante tale campagna, effettuata a bordo della N/O Urania del CNR nel 2011, sono stati
acquisiti dati batimetrici multibeam ad alta risoluzione ed una fitta maglia di dati sismici ad alta (Sparker) ed
altissima (Chirp) risoluzione nell’area ionica del Golfo di Taranto.
L’analisi integrata del Modello Digitale del Terreno (10m, 5m e 2m) generato dai dati multibeam con i
nuovi dati sismo-stratigrafici ha consentito di analizzare in dettaglio l’instabilità dei versanti. Una serie di
computazioni standard sul DTM (aspect, pendenza, gradienti e curvatura del profilo) hanno fornito una
prima valutazione della diversa esposizione dei versanti della dorsale di Capo Spulico e della dorsale di
Amendolara, i due alti strutturali presenti nell’area di studio. Tale area è stata successivamente suddivisa in 9
diversi settori, ognuno dei quali rappresenta un areale morfologico (versante o bacino), allo scopo di
caratterizzare il potenziale di franositĂ di ogni singola area e di evidenziare eventuali correlazioni fra le
diverse aree. Oltre 400 evidenze di eventi di frana nell’area in esame sono stati cartografate, classificate e
interpretate, fino ad ottenere carte tematiche utili all’interpretazione della franosità dei versanti su larga scala
(carte della pendenza media per ogni evento, della pendenza massima e minima, gradiente medio, etc.). Sulla
base dei dati acquisiti e delle computazioni effettuate sul DTM si è evidenziato che la pendenza non è il
parametro principale in termini di meccanismo di innesco degli eventi di frana. Questa considerazione risulta
anche dall’esame morfologico dei versanti meridionali della dorsale di Capo Spulico e del Banco di Cariati
[Santoro et al., 2012], che sono caratterizzati dai maggiori valori di pendenza nel DTM e dalla scarsitĂ di
processi gravitazionali. I maggiori eventi di frana sono quasi totalmente localizzati sulle pendici nord-est
delle dorsali ridge. Tale distribuzione è principalmente legata alla giacitura dei sedimenti (a franapoggio
verso SO). Un’eccezione è rappresentata dal settore meridionale del Banco di Amendolara, dove sporadici
eventi di scorrimento rotazionale sono probabilmente legati all’attività tettonica della faglia di Amendolara.
L’utilizzo di un approccio statistico multivariato implementato in “R” conferma, infine, la concentrazione
degli eventi sui versanti controllati da evoluzione morfologica rispetto ai versanti controllati dalla tettonica.
Bibilografia
Santoro, E., Ferranti, L., Passaro, S., Burrato, P., Morelli, D., (2012). Morphometric analysis in the offshore
of the southern Taranto Gulf: unveiling the structures controlling the Late Pleistocene-Holocene
bathymetric evolution. Rend. On. .Soc. Geol. It., 21 (2), 1132-1135
Seismotectonics of the active thrust front in southwestern Sicily: hints on the Belice and Selinunte seismogenic sources
We present a seismotectonic model of the active thrust front in western Sicily, which includes the area hit by the
1968 Belice earthquake sequence. The ~40 km long South-WEstern Sicilian Thrust (SWEST) is formed by two aligned
albeit non-parallel fault arrays, the Granitola-Castelevetrano Thrust System (GCTS) in the west and the Partanna-
Poggioreale Thrust System (PPTS) in the east.
The ~NE-SW trending, NW-dipping GCTS straddles from the Pelagian coastline to Castelvetrano, is ~18 km long
and composed of two segments, with the northern, ~12 km long one showing geodetic and geologic evidence of active
deformation (Barreca et al., 2014). The segment is marked by a sharp gradient in Differential SAR interferometry
(DinSAR and STAMPs) and GPS velocity fields. Geologic evidence include an up to 60 m high, and up to 15° steep
scarp, which is the fore-limb of a broad fold involving Lower Pleistocene shore calcarenites, and cm-scale reverse
displacement of an ancient road dated as early Bronze-Hellenistic age. Inversion of fault slip-lineation data from
structures displacing the archaeological remains yields a ~N110°E shortening axis, consistent with the geodetic
shortening direction estimated from GPS differential velocities.
The ~ENE-WSW trending PPTS stretches from Partanna to the macro-seismic area of the 1968 earthquake sequence
and is composed of two ~10 km long segments limited by relay ramps. Although geologic and geodetic evidence of
deformation are less clear than for the GCTS, we nonetheless observe a gradient in interferometry data for the western
segment, and evidence of slow deformation (creep?) in historical to recent (last ~400 yr?) man-made structures.
Integration of geologic, geodetic and seismology data suggests the active folds and thrusts are the uppermost
expression of steep (45°) crustal ramps (Monaco et al., 1996) which upthrust the Saccense platform at depth.
Based on macroseismic and seismological evidence (Monaco et al., 1996), we contend that the PPTS was partly
activated during the 1968 sequence, and that rupture stopped at the junction with the GCTS. The current geodetic strain
accumulation on the GCTS, on the other hand, suggests that the fault array has been significantly loaded, and that its
last important co-seismic event could have been caused the 4th–5th century A.D. destruction of Selinunte (Bottari et al.,
2009)
An active oblique-contractional belt at the transition between the Southern Apennines and Calabrian Arc: The Amendolara Ridge, Ionian Sea, Italy
High-resolution, single-channel seismic and multibeam bathymetry data collected at the
Amendolara Ridge, a key submarine area marking the junction between the Apennine collision belt and
the Calabrian subduction forearc, reveal active deformation in a supposedly stable crustal sector. New data,
integrated with existing multichannel seismic profiles calibrated with oil-exploratory wells, show that middle
to late Pleistocene sediments are deformed in growth folds above blind oblique-reverse faults that bound a
regional pop-up. Data analysis indicates that ~10 to 20 km long banks that top the ~80 km long, NW-SE
trending ridge are structural culminations above en echelon fault segments. Numeric modeling of bathymetry
and stratigraphic markers suggests that three 45\ub0 dipping upper crustal (2\u201310km) fault segments underlie the
ridge, with slip rates up to ~0.5mm/yr. Segments may be capable with M~ 6.1\u20136.3 earthquakes, although an
unknown fraction of aseismic slip undoubtedly contributes to deformation. The fault array that bounds the
southern flank of the ridge (Amendolara Fault System) parallels a belt of Mw<4.7 strike-slip and thrust
earthquakes, which suggest current left-oblique reverse motion on the array. The eastern segment of the array
shows apparent morphologic evidence of deformation and might be responsible for Mw 64 5.2 historic events.
Late Pliocene-Quaternary growth of the oblique contractional belt is related to the combined effects of stalling
of Adriatic slab retreat underneath the Apennines and subduction retreat of the Ionian slab underneath
Calabria. Deformation localization was controlled by an inherited mechanical interface between the thick
Apulian (Adriatic) platform crust and the attenuated Ionian Basin crust
Metabolomics analysis of plasma samples of patients with fibromyalgia and electromagnetic sensitivity using GC–MS technique
Fibromyalgia (FM) is a chronic and systemic condition that causes widespread chronic pain, asthenia, and muscle stiffness, as well as in some cases depression, anxiety, and disorders of the autonomic system. The exact causes that lead to the development of FM are still unknown today. In a percentage of individuals, the symptoms of FM are often triggered and/or exacerbated by proximity to electrical and electromagnetic devices. Plasma metabolomic profile of 54 patients with fibromyalgia and self-reported electromagnetic sensitivity (IEI-EMF) were compared to 23 healthy subjects using gas chromatography-mass spectrometry (GC-MS) coupled with multivariate statistical analysis techniques. Before the GC-MS analysis the plasma samples were extracted with a modified Folch method and then derivatized with methoxamine hydrochloride in pyridine solution and N-trimethylsilyltrifuoroacetamide. The combined analysis allowed to identify a metabolomic profile able of distinguishing IEI-EMF patients and healthy subjects. IEI-EMF patients were therefore characterized by the alteration of 19 metabolites involved in different metabolic pathways such as energy metabolism, muscle, and pathways related to oxidative stress defense and chronic pain. The results obtained in this study complete the metabolomic "picture" previously investigated on the same cohort of IEI-EMF patients with 1H-NMR spectroscopy, placing a further piece for better understanding the pathophysiological mechanisms in patients with IEI-EMF
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