Island Arc

Papers
(The TQCC of Island Arc is 3. The table below lists those papers that are above that threshold based on CrossRef citation counts [max. 250 papers]. The publications cover those that have been published in the past four years, i.e., from 2020-11-01 to 2024-11-01.)
ArticleCitations
Variety of the drift pumice clasts from the 2021 Fukutoku‐Oka‐no‐Ba eruption, Japan33
A Paleogene magmatic overprint on Cretaceous seamounts of the western Pacific15
Recognition of an Early Triassic accretionary complex in the Nedamo Belt of the Kitakami Massif, Northeast Japan: New evidence for correlation with Southwest Japan12
The δ13Cδ18O variations in marble in the Hida Belt, Japan11
Fine‐scale chemostratigraphy of cross‐sectioned hydrogenous ferromanganese nodules from the western North Pacific11
Post‐rift stress history of Southwest Japan inferred from early to middle Miocene intrusions and meso‐scale faults in the Tajima–Myokensan area10
Multistage zircon growth recording polyphase metamorphic evolution caused by pulsed granitoid intrusions into a low‐P/T type metamorphic belt: P–T–D–t evolut8
Giant palaeotsunami in Kiribati: Converging evidence from geology and oral history8
Multiple sulfur isotope chemostratigraphy across the Permian–Triassic boundary at Chaotian, China: Implications for a shoaling model of toxic deep‐waters8
Tectonic setting and formation of the Setouchi volcanic rocks in the western Seto Inland Sea, Japan8
Multi‐approach characterization of shallow‐water carbonates off Minamitorishima and their depositional settings/history7
Rejuvenated extension of the Philippine Sea plate and its effect on subduction dynamics in the Nankai Trough7
The emplacement ofin situgreenstones in the northern Hidaka belt: The tectonic relationship between subduction of the Izanagi–Pacific ridge and Hidaka magmatic activity7
Spathian to Aegean (upper Lower Triassic to lower Middle Triassic) carbon isotope stratigraphy constrained by the conodont biostratigraphy of carbonates on top of a mid‐oceanic seamount formed in the 6
Arc‐parallel extension in preparation of the rotation of southwest Japan: Tectonostratigraphy and structures of the Lower Miocene Ichishi Group6
Slab‐fluid metasomatism in the Early Paleozoic forearc mantle deduced from the Motai serpentinites, South Kitakami Belt, northeast Japan6
Trace‐element zoning patterns in porphyroblastic garnets in low‐T eclogites: Parameter optimization of the diffusion‐limited REE‐uptake model5
U–Pb dating of detrital zircon from Permian successions of the South Kitakami Belt, Northeast Japan: Clues to the paleogeography of the belt5
Ubiquitous post‐peak zircon in an eclogite from the Kumdy‐Kol, Kokchetav UHP‐HP Massif (Kazakhstan): Significance of exhumation‐related zircon growth and modification in continen5
Determining the origin of volcanic rocks in the mélange complex of Karangsambung based on the electrical resistivity imaging5
Detailed paleoseismic history of the Hinagu fault zone revealed by the high‐density radiocarbon dating and trenching survey across a surface rupture of the 2016 Kumamoto earthquake, Kyushu, Japan5
Alteration processes recorded by back‐arc mantle peridotites from oceanic core complexes, Shikoku Basin, Philippine Sea5
Rock pillars shaped by columnar joints in granite at Mt. Mizugaki, Central Japan5
Trace‐element composition of zircon in Kofu and Tanzawa granitoids, Japan: Quantitative indicator of sediment incorporated in parent magma5
Petrogenetic implications and geochronology of middle Miocene Tannayama igneous rocks, Goto Islands, Japan Sea southern margin, northwestern Kyushu, Japan5
Zircon trace‐element compositions in Miocene granitoids in Japan: Discrimination diagrams for zircons in M‐, I‐, S‐, and A‐type granites5
LateTriassic A‐type granite boulders in Lower Cretaceous conglomerate of theHida belt, Japan: Their origin and bearing on theYamatotectonic line inFar East Asia5
Stratigraphic reconstruction of the lower–middle Miocene Goto Group, Nagasaki Prefecture, Japan4
Miocene provenance change in Himalayan foreland basin and Bengal Fan sediments, with special reference to detrital garnet chemistry4
Occurrence and chemical composition of the Eoarchean carbonate rocks of the Nulliak supracrustal rocks in the Saglek Block of northeastern Labrador, Canada4
Teshima pyroclastics: Onset of characteristic Setouchi magmatism induced by slab melting at 14.8 Ma4
Late Cretaceous–Paleogene terrestrial sequence in the northern Kitakami Mountains, Northeast Japan: Depositional ages, clay mineral contents, and vitrinite reflectance4
Zircon U–Pb ages of Miocene granitic rocks in the Koshikijima Islands: Implications for Neogene tectonics in the Kyushu region, southwest Japan3
An automatic peak deconvolution method for Raman spectra of terrestrial carbonaceous material for application to the geothermometers of Kouketsu et al. (2014)3
Non‐metamorphosed autochthonous Kuncha‐Naudanda‐Heklang Formations and their differences from those of the Kuncha nappe: A multichronological approach3
The versatility of petrological modeling: Thermobarometry of high‐pressure metabasites from the Renge and Sanbagawa belts and phase evolution during warm subduction at Nankai3
Styles of mesoscale brittle deformations associated with the Miocene folding of the Taishu Group, Tsushima, between the Japan Sea and East China Sea backarc basins3
Solidification depth and crystallization age of the Shiaidani Granodiorite: Constraints to the average denudation rate of the Hida Range, central Japan3
U–Pb ages of zircons from metamorphic rocks in the upper sequence of the Hidaka Metamorphic Belt, Hokkaido, Japan: Identification of two metamorphic events and implications for regional tectonics3
MioceneNautilus(Mollusca, Cephalopoda) from Taiwan, and a review of the Indo‐Pacific fossil record ofNautilus3
Identification of the source caldera for the Middle Miocene ash‐flow tuffs in the Kii Peninsula based on apatite trace‐element composition3
Role of mantle carbonation in trench outer‐rise region in the global carbon cycle3
Chronological and geochemical characteristics of metavolcanic rocks in the Nanping‐Ninghua tectonic belt: Constraints on the formation of the Cathaysia block3
A major change in magma sources in late Mesozoic active margin of the circum‐Sea of Japan domain: Geochemical constraints from late Paleozoic to Paleogene mafic dykes in the Sergeevka belt,3
Upper Eocene travertine‐lacustrine carbonate in the Jianchuan basin, southeastern Tibetan Plateau: Reappraisal of its origin and implication for the monsoon climate3
0.030977010726929