Geologia, petrografia e geoquímica dos granitóides arqueanos de Sapucaia - Província Carajás-PA

Os estudos geológicos desenvolvidos na porção leste do Subdomínio de Transição, Província Carajás, a sul da cidade de Canaã dos Carajás e a norte de Sapucaia, permitiram a identificação, individualização e caracterização de uma diversidade de unidades arqueanas, anteriormente englobadas no Complexo Xingu. A unidade mais antiga da área compreende anfibólio tonalitos correlacionados ao Tonalito São Carlos (~2,92 Ga), com foliação orientada segundo NW-SE a E-W, ou, por vezes, aspecto homogêneo. Geoquimicamente, diferem das típicas associações tonalito-trondhjemito-granodiorito (TTG) arqueanas por apresentarem enriquecimento em TiO₂, MgO e CaO, baixos teores de Sr e similares de Rb para amostras com menores teores de sílica, que se refletem em razões Rb/Sr mais elevadas e Sr/Ba mais baixas. Os padrões dos ETR mostram baixo a moderado fracionamento de ETR pesados em relação aos leves, e anomalias negativas de Eu discretas ou moderadas. Seguindo na estratigrafia, e também como a unidade de maior expressão na área, ocorrem rochas de afinidade TTG correspondentes ao Trodhjemito Colorado (~2,87 Ga), intensamente deformadas, com foliações NW-SE a E-W. Intrusivos nesta unidade, ao sul da área, aflora um corpo de aproximadamente 40 km², de rochas de composição leucogranodiorítica porfirítica denominados de Leucogranodiorito Pantanal, e seccionado em sua porção oeste por leucogranitos deformados de composição monzogranítica. O Leucogranodiorito Pantanal têm afinidade cálcio-alcalina peraluminosa, enriquecimento em Ba e Sr, e padrões de ETR sem anomalias expressivas de Eu e com acentuado fracionamento de ETRP, que refletem em altas razões La/Yb semelhante com a Suíte Guarantã (~2,87 Ga) do Domínio Rio Maria. Os leucogranitos revelam assinatura geoquímica de granitos tipo-A reduzidos, possivelmente, originados a partir da fusão desidratada de rochas cálcico-alcalinas peraluminosas durante o Neoarqueano. Além dessas unidades, na porção leste do Leucogranodiorito Pantanal, hornblenda-biotita granito neoarquenos tipo-A oxidados da Suíte Vila Jussara. Ainda correlacionáveis ao magmatismo subalcalino neoarqueano, na porção norte, ocorrem dois stocks graniticos. São tonalitos a granodioritos com assinatura geoquímica de granitos tipo-A oxidados similares a Suíte Vila Jussara, e monzogranitos com assinatura de granitos tipo-A reduzidos que se assemelham a Suíte Planalto. Ao norte da área ocorre uma associação máfico-enderbitica composta de hornblendanoritos, piroxênio-hornblenda-gabros, piroxênio-hornblenda-monzonito, hornblenda-gabros, anfibolitos e enderbitos. Essas rochas estão intensamente deformadas e recristalizadas, provavelmente por retrometamorfismo na presença de água de rochas de série noríticavii charnockítica de origem ígnea associada com outras variedades de rochas não necessariamente cogenéticas. Seu comportamento geoquímico sugere que os hornblendanorito, hornblenda-gabros e anfibolitos são toleíticos subalcalinos, enquanto que os enderbitos, piroxênio-hornblenda-gabro e piroxênio-hornblenda-monzonito têm assinatura cálcico-alcalina. As baixas razões La/Yb das rochas máficas indicam baixo grau de fracionamento, enquanto que as altas razões La/Yb dos enderbitos é indicativo de fracionamento expressivo dos ETR pesados durante a formação ou diferenciação dos seus magmas, e a concavidade no padrão de ETR pesados, indica provável influência de fracionamento de anfibólio durante sua evolução. Na porção central e centro-norte da área ocorrem biotita-monzogranitos peraluminosos, de assinatura cálcio-alcalina, que podem ser desdobrados em dois grupos geoquímicos distindo. Um tem altas razões Sr/Y e (La/Yb)n, mostram possível afinidade com o Granito Bom Jesus da área de Canaã dos Carajás. O outro tem mais baixa razão (La/Yb)n se aproxima mais do Granito Serra Dourada e do Granito Cruzadão também da área de Canaã dos Carajás. Essa comparação deverá ser aprofundada com dados geocronológicos e maior número de amostras.

Cerro Porã Batholith: post-orogenic A-type granite from the Amoguijá Magmatic Arc - Rio ApaTerrane - South of the Amazonian Craton

O Batólito Cerro Porã é um corpo de aproximadamente 30 por 4 km de extensão, localizado na região de Porto Murtinho, Mato Grosso do Sul. Situa-se nos domínios do Terreno Rio Apa, porção sul do Cráton Amazônico. Constitui-se pela Fácies sienogranítica rosa e Fácies monzogranítica cinza. A primeira é caracterizada por textura equi a, essencialmente, inequigranular xenomórfica e pela presença constante de intercrescimentos gráfico e granofíric; constitui-se por feldspatos alcalinos, quartzo e plagioclásio, tendo biotita como único máfico primário. A Fácies monzogranítica cinza apresenta textura porfirítica, com uma matriz de granulação fina gráfica a granofírica e consiste de quartzo, plagioclásio, feldspatos alcalinos e agregados máficos (biotita e anfibólio). Ambas foram metamorfizadas na fácies xisto verde e a Fácies sienogranítica rosa mostra-se milonitizada quando em zonas de cisalhamento. Foi identificado um evento deformacional dúctil-rúptil originado em regime compressivo, responsável pela geração de xistosidade e lineação de estiramento mineral. A Zona de Cisalhamento Esperança relaciona-se a esta fase e reflete a história cinemática convergente, reversa a de cavalgamento, com transporte de topo para NWW. Quimicamente, esses litotipos classificam-se como granitoides do tipo A2 da série alcalina potássica saturada em sílica. Determinação geocronológica obtida pelo método U-Pb (SHRIMP) em zircão, forneceu idade de 1749 ±45 Ma para sua cristalização. Do ponto vista geotectônico, admite-se que o Granito Cerro Porã corresponda a um magmatismo associado a um arco vulcânico desenvolvido no Estateriano e que sua colocação se deu no estágio tardi a pós-orogênico.

Evolução da região de Santana do Araguaia (PA) com base na geologia e geocronologia Pb-Pb em zircão de granitoides

A região de Santana do Araguaia, foco deste trabalho, localiza-se no sudeste do Estado do Pará, que, por sua vez, fica no sudeste do Cráton Amazônico. Sob o ponto de vista tectônico, posiciona-se no Domínio Santana do Araguaia, interpretado como um terreno arqueano afetado pelo Ciclo Transamazônico. Um estudo petrográfico e geocronológico, com suporte de dados de campo, foi empreendido em granitoides da região com o intuito de desvendar a evolução desse domínio. Em termos modais, as rochas estudadas compõem-se de biotita monzogranito, biotita metagranodiorito, hornblenda-biotita granodiorito, hornblenda-biotita metatonalito e enderbito. Essas rochas apresentam-se não deformadas a moderadamente deformadas, com algumas particularidades: o biotita metagranodiorito apresenta foliação seguindo um trend E-W; o hornblenda-biotita metatonalito possui uma foliação seguindo a direção NW-SE, com mergulhos normalmente altos a subverticais; o biotita monzogranito é isotrópico e os litotipos hornblenda-biotita granodiorito e enderbito apresentam apenas uma leve orientação de seus cristais, perceptível principalmente em lâmina delgada. Esses litotipos foram analisados pelo método de evaporação de Pb de zircão, tendo sido obtidas as seguintes idades: biotita metagranodiorito, 3066 ± 3 Ma e 2829 ± 13 Ma, hornblenda-biotita metatonalito, 2852 ± 2 Ma; biotita monzogranito (ML-08), 2678 a 2342 Ma; hornblenda-biotita granodiorito, 1990 ± 7 Ma; e enderbito, 1988 ± 4 Ma. Os dados geocronológicos indicam que as rochas cristalizaram tanto no Arqueano quanto no Paleoproterozoico, contudo, não foram detectadas evidências que comprovem a ação do Ciclo Transamazônico na região.

Granitos pórfiros da região de vila Riozinho, província aurífera do Tapajós: petrografia e geocronologia

A Província Aurífera do Tapajós (PAT) está localizada na porção central do cráton Amazônico e é dominada por rochas graníticas e vulcânicas paleoproterozóicas intermediárias a félsicas em composição. A região de Vila Riozinho, situada na parte centro-leste da PAT e formada pelas localidades de Vila Riozinho, Moraes Almeida e Jardim do Ouro, engloba as principais unidades geológicas que caracterizam a PAT. Este trabalho apresenta novos dados petrográficos e geocronológicos de granitos pórfiros que ocorrem associados a rochas monzograníticas do corpo São Jorge Antigo e a ignimbritos e riolitos da Formação Moraes Almeida e leucogranitos da Suíte Intrusiva Maloquinha. Os dados geocronológicos revelaram, pelo menos, dois períodos distintos de geração de granitos pórfiros na região. O primeiro, associado ao magmatismo cálcico-alcalino de 1,98 Ga e o segundo, a rochas alcalinas de idades em torno de 1,88 Ga. Imagens de elétrons retro-espalhados e análises de EDS (Energy Dispersive Spectrometry) obtidas através de um microscópio eletrônico de varredura (MEV) mostraram que são freqüentes as ocorrências de partículas de ouro nos granitos pórfiros ora preenchendo cavidades em cristais de quartzo e plagioclásio, ora associadas a cristais de epidoto e álcali-feldspato. Tal fato sugere que esses granitos podem ter contribuído para a mineralização de ouro da região de Vila Riozinho e mostra a necessidade de estudos detalhados para elucidar a importância metalogenética dessas rochas na mineralização aurífera da região.

Geomorfologia e paleo-hidrologia dos megaleques dos rios Cuiabá e São Lourenço, quaternário da Bacia do Pantanal

Fundação de Amparo à Pesquisa do Estado de São Paulo (FAPESP)

Geoquímica e geocronologia U-Pb e ­Sm-Nd dos ortognaisses da região de Pontalina (GO), Brasil

Fundação de Amparo à Pesquisa do Estado de São Paulo (FAPESP)

Complex, 3D strain patterns in a synkinematic tonalite batholith from the Aracuai Neoproterozoic orogen (Eastern Brazil): Evidence from combined magnetic and isotopic chronology studies

This work combines structural and geochronological data to improve our understanding of the mechanical behaviour of continental crust involving large amount of magma or partially melted material in an abnormally hot collisional belt. We performed a magnetic and geochronological (U/Pb) study on a huge tonalitic batholith from the Neoproterozoic Aracual belt of East Brazil to determine the strain distribution through space and time. Anisotropy of magnetic susceptibility, combined with rock magnetism investigations, supports that the magnetic fabric is a good proxy of the structural fabric. Field measurements together with the magnetic fabrics highlight the presence in the batholith of four domains characterized by contrasted magmatic flow patterns. The western part is characterized by a gently dipping, orogen-parallel (similar to NS) magmatic foliation that bears down-dip lineations, in agreement with westward thrusting onto the Sao Francisco craton. Eastward, the magmatic foliation progressively turns sub-vertical with a lineation that flips from sub-horizontal to sub-vertical over short distances. This latter domain involves an elongated corridor in which the magmatic foliation is sub-horizontal and bears an orogen-parallel lineation. Finally the fourth, narrow domain displays sub-horizontal lineations on a sub-vertical magmatic foliation oblique (similar to N150 degrees E) to the trend of the belt. U/Pb dating of zircons from the various domains revealed homogeneity in age for all samples. This, together with the lack of solid-state deformation suggests that: 1) the whole batholith emplaced during a magmatic event at similar to 580 Ma, 2) the deformation occurred before complete solidification. and 3) the various fabrics are roughly contemporaneous. The complex structural pattern mapped in the studied tonalitic batholith suggests a 3D deformation of a slowly cooling, large magmatic body and its country rock. We suggest that the development of the observed 3D flow field was promoted by the low viscosity of the middle crust that turned gravitational force as an active tectonic force combining with the East-West convergence between the Sao Francisco and Congo cratons. (C) 2012 Elsevier Ltd. All rights reserved.

Recurring extensional and strike-slip tectonics after the Neoproterozoic collisional events in the southern Mantiqueira province

In Eastern South America, a series of fault-bounded sedimentary basins that crop out from Southern Uruguay to Southeastern Brazil were formed after the main collisional deformation of the Brasiliano Orogeny and record the tectonic events that affected the region from the Middle Ediacaran onwards. We address the problem of discerning the basin-forming tectonics from the later deformational events through paleostress analysis of more than 600 fault-slip data, mainly from the Camaquã Basin (Southern Brazil), sorted by stratigraphic level and cross-cutting relationships of superposed striations, and integrated with available stratigraphic and geochronological data. Our results show that the Camaquã Basin was formed by at least two distinct extensional events, and that rapid paleostress changes took place in the region a few tens of million years after the major collision (c.a. 630 Ma), probably due to the interplay between local active extensional tectonics and the distal effects of the continued amalgamation of plates and terranes at the margins of the still-forming Gondwana Plate. Preliminary paleostress data from the Castro Basin and published data from the Itajaí Basin suggest that these events had a regional nature.

Contribution of tectonic processes to the exhumation of the Cycladic blueschist unit, Greece and Turkey

In dieser Studie werden strukturgeologische, metamorphe und geochronologische Daten benutzt, um eine Quantifizierung tektonischer Prozesse vorzunehmen, die für die Exhumierung der Kykladischen Blauschiefereinheit in der Ägäis und der Westtürkei verantwortlich waren. Bei den beiden tektonischen Prozessen handelt es sich um: (1) Abschiebungstektonik und (2) vertikale duktile Ausdünnung. Eine finite Verformungsanalyse an Proben der Kykladischen Blauschiefereinheit ermöglicht eine Abschätzung des Beitrags von vertikaler duktiler Ausdünnung an der gesamten Exhumierung. Kalkulationen mit einem eindimensionalen, numerischen Model zeigt, daß vertikale duktile Ausdünnung nur ca. 10% an der gesamten Exhumierung ausmacht. Kinematische, metamorphe und geochronologische Daten erklären die tektonische Natur und die Evolution eines extensionalen Störungssystems auf der Insel Ikaria in der östlichen Ägäis. Thermobarometrische Daten lassen erkennen, daß das Liegende des Störungssystems aus ca. 15 km Tiefe exhumiert wurde. Sowohl Apatit- und Zirkonspaltspurenalter als auch Apatit (U-Th)/He-Alter zeigen, daß sich das extensionale Störungssystem zwischen 11-3 Ma mit einer Geschwindigkeit von ca. 7-8 km/Ma bewegte. Spät-Miozäne Abschiebungen trugen zur Exhumierung der letzten ~5-15 km der Hochdruckgesteine bei. Ein Großteil der Exhumierung der Kykladischen Blauschiefereinheit muß vor dem Miozän stattgefunden haben. Dies wird durch einen Extrusionskeil erklärt, der ca. 30-35 km der Kykladischen Blauschiefereinheit in der Westtürkei exhumierte. 40Ar/39Ar und 87Rb/86Sr Datierungen an Myloniten des oberen Abschiebungskontakts zwischen der Selçuk Decke und der darunterliegenden Ampelos/Dilek Decke der Kykladischen Blauschiefereinheit als auch des unteren Überschiebungskontakts zwischen der Ampelos/Dilek Decke und den darunterliegenden Menderes Decken zeigt, daß sich beide mylonitische Zonen um ca. ~35 Ma formten, was die Existenz eines Spät-Eozänen/Früh-Oligozänen Extrusionskeils beweist.

Low-temperature thermochronological evolution of the Menderes and Alanya massifs (Turkey)

The application of two low-temperature thermochronometers [fission-track analysis and (U-Th)/He analyses, both on apatite] to various tectonostratigraphic units of the Menderes and Alanya Massifs of Turkey has provided significant new constraints to the understanding of their structural evolution. The Menderes Massif of western Anatolia is one of the largest metamorphic core complexes on Earth. The integration of the geochronometric dataset presented in this dissertation with preexisting ones from the literature delineates three groups of samples within the Menderes Massif. In the northern and southern region the massif experienced a Late Oligocene-Early Miocene tectonic denudation and surface uplift; whereas data from the central region are younger, with most ages ranging between the Middle-Late Miocene. The results of this study are consistent with the interpretation for a symmetric exhumation of the Menderes Massif. The Alanya Massif of SW Anatolia presents a typical nappe pile consisting of thrust sheets with contrasting metamorphic histories. Petrological and geochronological data clearly indicate that the tectonometamorphic evolution Alanya started from Late Cretaceous with the northward subduction of an ‘Alanya ocean’ under the Tauride plate. As an effect of the closure of the İzmir–Ankara–Erzincan ocean, northward backthrusting during the Paleocene-Early Eocene created the present stacking order. Apatite fission-track ages from this study range from 31.8 to 26.8 Ma (Late Rupelian-Early Chattian) and point to a previously unrecognized mid-Oligocene cooling/exhumation episode. (U-Th)/He analysis on zircon crystals obtained from the island of Cyprus evidentiate that the Late Cretaceous trondhjemites of the Troodos Massif not recorded a significant cooling event. Instead results for the Late Triassic turbiditic sandstones of the Vlambouros Formation show that the Mamonia mélange was never buried enough to reach the closure temperature of the ZHe radiometric system (ca. 200°C), thus retaining the Paleozoic signature of a previous sedimentary cycle.

Ancient Greek harbours used as geo-archives for palaeotsunami research : case studies from Krane (Cefalonia), Lechaion (Gulf of Corinth) and Kyllini (Peloponnese)

Since historical times, coastal areas throughout the eastern Mediterranean are exposed to tsunami hazard. For many decades the knowledge about palaeotsunamis was solely based on historical accounts. However, results from timeline analyses reveal different characteristics affecting the quality of the dataset (i.e. distribution of data, temporal thinning backward of events, local periodization phenomena) that emphasize the fragmentary character of the historical data. As an increasing number of geo-scientific studies give convincing examples of well dated tsunami signatures not reported in catalogues, the non-existing record is a major problem to palaeotsunami research. While the compilation of historical data allows a first approach in the identification of areas vulnerable to tsunamis, it must not be regarded as reliable for hazard assessment. Considering the increasing economic significance of coastal regions (e.g. for mass tourism) and the constantly growing coastal population, our knowledge on the local, regional and supraregional tsunami hazard along Mediterranean coasts has to be improved. For setting up a reliable tsunami risk assessment and developing risk mitigation strategies, it is of major importance (i) to identify areas under risk and (ii) to estimate the intensity and frequency of potential events. This approach is most promising when based on the analysis of palaeotsunami research seeking to detect areas of high palaeotsunami hazard, to calculate recurrence intervals and to document palaeotsunami destructiveness in terms of wave run-up, inundation and long-term coastal change. Within the past few years, geo-scientific studies on palaeotsunami events provided convincing evidence that throughout the Mediterranean ancient harbours were subject to strong tsunami-related disturbance or destruction. Constructed to protect ships from storm and wave activity, harbours provide especially sheltered and quiescent environments and thus turned out to be valuable geo-archives for tsunamigenic high-energy impacts on coastal areas. Directly exposed to the Hellenic Trench and extensive local fault systems, coastal areas in the Ionian Sea and the Gulf of Corinth hold a considerably high risk for tsunami events, respectively.Geo-scientific and geoarcheaological studies carried out in the environs of the ancient harbours of Krane (Cefalonia Island), Lechaion (Corinth, Gulf of Corinth) and Kyllini (western Peloponnese) comprised on-shore and near-shore vibracoring and subsequent sedimentological, geochemical and microfossil analyses of the recovered sediments. Geophysical methods like electrical resistivity tomography and ground penetrating radar were applied in order to detect subsurface structures and to verify stratigraphical patterns derived from vibracores over long distances. The overall geochronological framework of each study area is based on radiocarbon dating of biogenic material and age determination of diagnostic ceramic fragments. Results presented within this study provide distinct evidence of multiple palaeotsunami landfalls for the investigated areas. Tsunami signatures encountered in the environs of Krane, Lechaion and Kyllini include (i) coarse-grained allochthonous marine sediments intersecting silt-dominated quiescent harbour deposits and/or shallow marine environments, (ii) disturbed microfaunal assemblages and/or (iii) distinct geochemical fingerprints as well as (iv) geo-archaeological destruction layers and (v) extensive units of beachrock-type calcarenitic tsunamites. For Krane, geochronological data yielded termini ad or post quem (maximum ages) for tsunami event generations dated to 4150 ± 60 cal BC, ~ 3200 ± 110 cal BC, ~ 650 ± 110 cal BC, and ~ 930 ± 40 cal AD, respectively. Results for Lechaion suggest that the harbour was hit by strong tsunami impacts in the 8th-6th century BC, the 1st-2nd century AD and in the 6th century AD. At Kyllini, the harbour site was affected by tsunami impact in between the late 7th and early 4th cent. BC and between the 4th and 6th cent. AD. In case of Lechaion and Kyllini, the final destruction of the harbour facilities also seems to be related to the tsunami impact. Comparing the tsunami signals obtained for each study areas with geo-scientific data from palaeotsunami events from other sites indicates that the investigated harbour sites represent excellent geo-archives for supra-regional mega-tsunamis.

Geochemistry and isotopic ratios of samples from the Tiger gabbroic complex, Northern Victoria Land, Antarctica

Subduction related mafic/ultramafic complexes marking the suture between the Wilson Terrane and the Bowers Terrane in northern Victoria Land (Antarctica) are well-suited for evaluating the magmatic and structural evolu- tion at the Palaeo-Pacific continental margin of Gondwana. One of these intru- sions is the "Tiger Gabbro Complex" (TGC), which is located at the southern end of the island-arc type Bowers Terrane. The TGC is an early Palaeozoic island-arc related layered igneous complex characterized by extraordinarly fresh sequences of ultramafic, mafic and evolved lithologies and extensive development of high-temperature high-strain zones. The goal of the present study is to establish the kinematic, petrogenetic and temporal development of the TGC in order to evaluate the magmatic and structural evolution of the deep crustal roots of this Cambrian-aged island-arc. Fieldwork during GANOVEX X was carried out to provide insight into: (i) the spatial relations between the different igneous lithologies of the TGC, (ii) the nature of the contact between the TGC and Bowers Terrane, and (iii) the high-temperature shear zones exposed in parts of the TGC. Here, we report the results of detailed field and petrological observations combined with new geochronological data. Based on these new data, we tentatively propose a petrogenetic-kinematic model for the TGC, which involves a two-phase evolution during the Ross orogeny. These phases can be summarized as: (i) an early phase (maximum age c. 530 Ma) involving tectono-magmatic processes that were active at the deep crustal level represented by the TGC within the Bowers island arc and within a general NE-SW directed contractional regime and (ii) a late phase (maximum age c. 490 Ma) attributed to the late Ross orogenic intrusion of the TGC into the higher-crustal metasedimentary country rocks of the Bowers Terrane under NE-SW directed horizontal maximum stress and subsequent cooling.

Isotopic composition and major and trace element concentrations of mafic rocks obtained from western Dronning Maud Land

On the basis of new bulk major and trace element (including REE) as well as Sm-Nd and Rb-Sr isotope data, used in conjunction with available geochronological data, a post-tectonic mafic igneous province and four groups of pre- to syntectonic amphibolite are distinguished in the polymetamorphic Maud Belt of western Dronning Maud Land, East Antarctica. Protoliths of the Group 1 amphibolites are interpreted as volcanic arc mafic intrusions with Archaean to Palaeoproterozoic Nd model ages and depletion in Nb and Ta. Isotopic and lithogeochemical characteristics of this earliest group of amphibolite indicate that the Maud Belt was once an active continental volcanic arc. The most likely position of this arc, for which a late Mesoproterozoic age (c. 1140 Ma) is indicated by available U-Pb single-zircon age data, was on the southeastern margin of the Kaapvaal-Grunehogna Craton. The protoliths of Group 2 amphibolites are attributed to the 1110 Ma Borgmassivet-Umkondo thermal event on the basis of comparable Nd model ages and trace element distributions. Group 3 amphibolite protoliths are characterized by mid-ocean ridge basalt-type REE patterns and low Th/Yb ratios, and they are related to Neoproterozoic extension. Group 4 amphibolite protoliths are distinguished by high Dy/Yb ratios and are attributed to a phase of syntectonic Pan-African magmatism as indicated by Rb-Sr isotope data.

Ages of rocks and minerals from the Okhotsk-Chukotka volcanic belt

Current geochronological data on the Okhotsk-Chukotka volcanic belt (OCVB) and relevant problems are discussed. The belt evolution is suggested to be modeled based on 40Ar/39Ar and U-Pb dates more useful in several aspects than common K-Ar or Rb-Sr dates and methods of paleobotanical correlation. Based on new40Ar/39Ar and U-Pb dates obtained for volcanic rocks in the OCVB northern part, the younger (Coniacian) age is established for lower stratigraphic units in the Central Chukotka segment of the belt, and eastward migration of volcanic activity is shown for terminal stages of this structure evolution.