Sistemática integrativa de Cichlasoma orientale Kullander 1983 e Crenicichla menezesi Ploeg 1991 (Teleostei: Cichlidae) das bacias hidrográficas do Nordeste do Brasil

Understanding the historical and ecological relationships which are influent in current biological diversity is one of the most challenging tasks of evolutionary biology. Recent systematics emphasizes the need of integrative approaches to delimit different lineages and species. The northeastern Brazil, mostly placed in Caatinga biome, is characterized by a semi-arid weather, low precipitation and seasonal behavior of rivers. This region is regarded lacking as ichthyological knowledge and one of the most threatened by anthropic activities. Further, will be affected by a massive water diverpsion work that will transfer waters from São Francisco basin, to other major four basins: Jaguaribe, Apodi-Mossoró, Piranhas-Açu and Paraiba do Norte. Loss of diversity and richness, hibridizitation, community interactions changes, population homogenization, changes in water quality and flow regime, are examples of environmental impacts already related with similar works. The present study aims to investigate morphological and molecular variation of Cichlasoma orientale Kullander 1983 and Crenicichla menezesi Ploeg 1991, two cichlid species present in northeastern Brazil basins. Further, the study aims to evaluate the influence of geomorphological and climatic processes in this variation, and point some possible impacts of the artificial connectivity which can be brought by São Francisco interbasin water transfer to their population dynamics. Geometric morphometrics and phylogeographical analysis were used to investigate the populations from three different hydrological regions. Our results showed a significant morphological variation of populations from basins that are involved in the São Franscisco s diversion project, not related to an ancient separation between populations, emphasizing morphological variation which could represent a set of plastic responses to the variable hydrological regime in Northeastern Brazil. The role of plastical responses in naturally variable habitats as well as the potential disturbs that could be brought by the interbasin water transfer works are discussed here. Further, our molecular data allowed us to make inferences about species distribution and their taxonomy, and identification of a potential new species of Crenicichla for São Francisco river basin. Our data also allowed to identify some shared haplotypes for both species, which could be related to lineage sorting scenarios or recent gene flow between populations. However a strong structure in most of the pairwise comparisons between populations for both species was revealed. Climatic events such as Atlantic forest regression during the Pleistocene, sea level fluctuations and dispersion by paleorivers in the mouth of Apodi-Mossoró river, and neotectonic events regulating the connection between drainages are likely to have had a contribution for the actual lineages distribution in northeastern Brazil. Further, analysis of molecular variation (AMOVA and SAMOVA) showed that the actual basin s isolation is an important factor to molecular variation, in spite of the signal of recent contact between some basins. Different genetic diversity patterns between species could be related to multiple historic events of colonization, basins landscapes or biological differences. The present study represents the first effort of integrative systematics involving fish species of northeastern Brazil, and showed important morphological and molecular patterns which could be irrecoverably affected by the artificial connection that might be caused by the São Francisco interbasin water transfer

Dinamica sedimentaria torbiditica in bacini confinati: margine orientale della Sardegna

La sedimentazione clastica di mare profondo è attualmente uno dei principali argomenti della ricerca sedimentologica sia in ambito puramente accademico che in ambito petrolifero-industriale. Gli studi recenti hanno enfatizzato l'influenza fondamentale della topografia preesistente del fondo marino sulla crescita e la morfologia sui fan di mare profondo; si è visto come, in molti systemi torbiditici, l’evoluzione dei processi deposizionali sia stata da moderatamente a fortemente controllata dall’ effetto di confinamento di scarpate tettoniche, ridge strutturali e seamounts. Scopo di questo lavoro è studiare l'effetto del confinamento alla scala di bacino sui principali sistemi torbiditici del margine orientale della Sardegna che rappresenta un margine passivo articolato di bacini di intraslope confinati verso mare da seamounts. Lo studio dei sistemi deposizionali è stato eseguito attraverso l'interpretazione di dati di batimetria multibeam ad alto dettaglio acquisiti dall’ISMAR di Bologna durante la crociera Tir99. L’ interpretazione multibeam è stata integrata con l’ analisi di profili sismici a riflessione per comprendere la morfologia l’organizzazione interna e l’evoluzione nel tempo dei principali elementi deposizionali dei sistemi torbiditici. Tre bacini di intraslope (Olbia, Baronie e il settore settentrionale del bacino Ogliastra) sono stati investigati. Il bacino di Olbia è il bacino più settentrionale del margine orientale della Sardegna ed è limitato verso mare dai seamount Etruschi e Baronie. Il principale sistema torbiditico del bacino di Olbia è costituito dal Caprera, articolato in un sistema di canyon alimentatori nella piattaforma e nella scarpata continentale e da un ampio canale con argini alla base della scarpata. Il Caprera è fiancheggiato da un ampia piattaforma continentale, e questa, fungendo da “magazzino” per il materiale piu grossolando, può spiegare la peculiare architettura sedimentaria del suo fan. L'effetto di confinamento del bacino sulla forma e sull'evoluzione del fan del Caprera è evidente soprattutto sull'asimmetria dei leve e su fenomeni di avulsione che hanno coinvolto il canale. Il bacino di intraslope di Olbia appare completamente riempito, e, nel bordo orientale, è presente il canyon di intrabacino verso il bacino sottostante. Gli effetti dell'abbassamento del livello di base sono visibili nel settore distale del sistema, dove si ha lo sviluppo di canali distributari e di valli erosive a basso rilievo, che rappresentano le porzioni "upslope" dei canyon di "bypass". Il bacino di intraslope del Baronie è il bacino centrale del margine, confinato verso mare dal seamount delle Baronie, e presenta una via di fuga laterale rappresentato dal sistema di canyon di Gonone-Orosei. Il Posada è il sistema torbiditico principale, consiste di un canyon profondamente inciso nella piattaforma e nella scarpata, e sviluppa alla base della scarpata un piccolo fa radiale. La morfologia del è il risultato dell'interazione complessa tra la geoemtria del bacino ricevente ed il comportamento dei flussi sedimentari. La forma del bacino ha costretto il sistema torbiditico a cambiare la direzione di sviluppo, da est verso sud. Processi di framanento in massa a grande scala hanno inoltre contribuito alla riorganizzazione del sistema torbiditico. Il bacino dell’Ogliastra è localizzato nel settore meridionale del margine, limitato verso mare dal seamount Quirra. Il settore settentrionale della scarpata continentale del bacino Ogliastra è caratterizzato da canyon e incisioni di carattere ibrido, con tratti deposizionali ed erosivi. L'Arbatax è il principale sistema torbiditico del bacino di Ogliastra caratterizzato da un settore meridionale dominato da un canale alimentatore e da un settore settentrionale abbandonato, caratterizzato da fenomeni di smantellamento e instabilità gravitativa. In generale i risultati dello studio evidenziano l'importanza della combinazione dei fattori di controllo esterni, e della topografia preesistente, nello sviluppo dei processi sedimentari e degli elementi deposizionali dei sistemi torbiditici. In particolare, appare evidente come lo stile deposizionale dei sistemi torbiditici in ambiente confinato diverga sostanzialmente da quello previsto dai modelli di fan sottomarini usati come strumenti predittivi nella esplorazione e sfruttamento dei giacimenti di idrocarburi.

Moda orientale

La frequenza è vivamente consigliata. Gli studenti sono pregati di concordare con il docente l'argomento del loro paper.

Provenienza dei sedimenti arenitici nel bacino di Tracia (eo-oligocene, Turchia nord-occidentale e Grecia nord-orientale)

The Thrace Basin is the largest and thickest Tertiary sedimentary basin of the eastern Balkans region and constitutes an important hydrocarbon province. It is located between the Rhodope-Strandja Massif to the north and west, the Marmara Sea and Biga Peninsula to the south, and the Black Sea to the est. It consists of a complex system of depocenters and uplifts with very articulate paleotopography indicated by abrupt lateral facies variations. Its southeastern margin is widely deformed by the Ganos Fault, a segment of the North Anatolian strike-slip fault system . Most of the Thrace Basin fill ranges from the Eocene to the Late Oligocene. Maximum total thickness, including the Neogene-Quaternary succession, reaches 9.000 meters in a few narrow depocenters. This sedimentary succession consists mainly of basin plain turbiditic deposits with a significant volcaniclastic component which evolves upwards to shelf deposits and continental facies, with deltaic bodies prograding towards the basin center in the Oligocene. This work deals with the provenance of Eocene-Oligocene clastic sediments of the southern and western part of Thrace Basin in Turkey and Greece. Sandstone compositional data (78 gross composition analyses and 40 heavy minerals analyses) were used to understand the change in detrital modes which reflects the provenance and geodinamic evolution of the basin. Samples were collected at six localities, which are from west to est: Gökçeada, Gallipoli and South-Ganos (south of Ganos Fault), Alexandroupolis, Korudağ and North-Ganos (north of Ganos Fault). Petrologic (framework composition and heavy-mineral analyses) and stratigraphic-sedimentologic data, (analysis of sedimentologic facies associations along representative stratigraphic sections, paleocurrents) allowed discrimination of six petrofacies; for each petrofacies the sediment dispersal system was delineated. The Thrace Basin fill is made mainly of lithic arkoses and arkosic litharenites with variable amount of low-grade metamorphic lithics (also ophiolitic), neovolcanic lithics, and carbonate grains (mainly extrabasinal). Picotite is the most widespread heavy mineral in all petrofacies. Petrological data on analyzed successions show a complex sediment dispersal pattern and evolution of the basin, indicating one principal detrital input from a source area located to the south, along both the İzmir-Ankara and Intra-Pontide suture lines, and a possible secondary source area, represented by the Rhodope Massif to the west. A significant portion of the Thrace Basin sediments in the study area were derived from ophiolitic source rocks and from their oceanic cover, whereas epimetamorphic detrital components came from a low-grade crystalline basement. An important penecontemporaneous volcanic component is widespread in late Eocene-Oligocene times, indicating widespread post-collisional (collapse?) volcanism following the closure of the Vardar ocean. Large-scale sediment mass wasting from south to north along the southern margin of the Thrace Basin is indicated (i) in late Eocene time by large olistoliths of ophiolites and penecontemporaneous carbonates, and (ii) in the mid-Oligocene by large volcaniclastic olistoliths. The late Oligocene paleogeographic scenario was characterized by large deltaic bodies prograding northward (Osmancik Formation). This clearly indicates that the southern margin of the basin acted as a major sediment source area throughout its Eocene-Oligocene history. Another major sediment source area is represented by the Rhodope Massif, in particolar the Circum-Rhodopic belt, especially for plutonic and metamorphic rocks. Considering preexisting data on the petrologic composition of Thrace Basin, silicilastic sediments in Greece and Bulgaria (Caracciolo, 2009), a Rhodopian provenance could be considered mostly for areas of the Thrace Basin outside our study area, particularly in the northern-central portions of the basin. In summary, the most important source area for the sediment of Thrace Basin in the study area was represented by the exhumed subduction-accretion complex along the southern margin of the basin (Biga Peninsula and western-central Marmara Sea region). Most measured paleocurrent indicators show an eastward paleoflow but this is most likely the result of gravity flow deflection. This is possible considered a strong control due to the east-west-trending synsedimentary transcurrent faults which cuts the Thrace Basin, generating a series of depocenters and uplifts which deeply influenced sediment dispersal and the areal distribution of paleoenvironments. The Thrace Basin was long interpreted as a forearc basin between a magmatic arc to the north and a subduction-accretion complex to the south, developed in a context of northward subduction. This interpretation was challenged by more recent data emphasizing the lack of a coeval magmatic arc in the north and the interpretation of the chaotic deposit which outcrop south of Ganos Fault as olistoliths and large submarine slumps, derived from the erosion and sedimentary reworking of an older mélange unit located to the south (not as tectonic mélange formed in an accretionary prism). The present study corroborates instead the hypothesis of a post-collisional origin of the Thrace Basin, due to a phase of orogenic collapse, which generated a series of mid-Eocene depocenters all along the İzmir-Ankara suture (following closure of the Vardar-İzmir-Ankara ocean and the ensuing collision); then the slab roll-back of the remnant Pindos ocean played an important role in enhancing subsidence and creating additional accommodation space for sediment deposition.

Celti e Reti tra V e I sec. a.C. Oggetti tipo LaTène all'interno della cerchia culturale Fritzens-Sanzeno (arco alpino centro-orientale)

The study of the objects LaTène type found in middle-eastern alpine region (Trentino Alto Adige-Südtirol, Engadina, North Tirol, Voralberg and Villach basin) is aimed to a better comprehension of the complex net of relationships established among the Celts, settled both in the central Europe territories and, since the IV century b.C., in the Po Plain, and the local populations. The ancient authors, who called the inhabitants of this area Raeti, propose for this territory the usual pattern according to which, the population of a region was formed consequently to a migration or was caused by the hunting of pre-existing peoples. The archaeologists, in the last thirty years, recognized a cultural facies typical of the middle-eastern alpine territory during the second Iron Age, and defined that as Fritzens-Sanzeno culture (from the sites of Fritzens, Inn valley, and Sanzeno, Non Valley). The so-called Fritzens-Sanzeno culture spread out without breaks from the material culture of the final Bronze Age and the first Iron Age. This local substratum, characterized by a ceramic repertoire strongly standardized, by peculiar architectural solutions and by a particular typology of rural sacred places (Brandopferplätze), accepted, above all during the second Iron Age, the strong influences coming from the Etruscan world and from the Celtic one (evident in the presence of objects of ornament, of glass artefacts, of elements of the weaponry and of coins). The objects LaTène type become, with different degrees of reliability, important markers of the relationships existing between the Celts and the Raeti, although the ways of interaction (cultural influence, people's movements, commercial exchanges, gifts among élites etc.) is not still clear. The revision of published data and the study of unpublished materials allows to define a rich and articulated picture both to chronological level and to territorial one.