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Rivers are an excellent witness of the dynamics affecting Earth’s surface due to their sedimentary products and morphological expression, which may be considered as fluvial archives. Until now, the focus has been on evaluating the general impact of individual external factors. However, the importance of the specific environmental characteristics of these factors has become increasingly recognized, as highlighted in recent case studies. For example, the effects of regional climate, differentiated topography and vegetation, and frozen ground appear to play an essential role in the evolution of the fluvial system. Integration of such environmental conditions in the processes that were active within the complex fluvial system will open new perspectives in our progressive understanding of the evolution of landscape form, ecology, sediment fluxes, and hydrology of the system within the framework of the external drivers such as tectonics, general climate, and human activity. This is an appealing challenge that we wish to address in the present Special Issue under the aegis of the Fluvial Archives Group (FLAG).
n/a --- Tisa --- dikes --- OSL dating --- last glacial --- legacy sediments --- fluvial archives --- western Iberia --- fire --- river engineering --- uplift --- crustal properties --- craton --- fluvial evolution --- OSL-dating --- local conditions --- Pannonian Basin --- deforestation --- eastern Australia --- tectonic impact --- Holocene --- optically stimulated luminescence --- paleo-fluvial --- environmental change --- terrace development --- vegetation-induced sedimentary structures --- alluvial fan --- FLAG --- dams --- agriculture --- fluvial forcing --- domestication --- archaeology --- terrace --- sedimentary basins --- Anthropocene --- Late Pleistocene --- fluvial facies --- optical stimulated luminescence (OSL) dating --- OSL --- climate --- channel entrenchment --- grain-size analysis --- river terraces --- Tisza --- extrinsic controls
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This special volume offers a snapshot of the latest developments in mineral exploration, in particular, geophysical, geochemical, and computational methods. It reflects the cutting-edge applications of geophysics and geochemistry, as well as novel technologies, such as in artificial intelligence and hyperspectral exploration, methods that have profoundly changed how exploration is conducted. This special volume is a representation of these cutting-edge and pioneering methods to consider and conduct exploration, and should serve both as a valuable compendium of the most innovative exploration methodologies available and as a foreshadowing of the form of future exploration. As such, this volume is of significant importance and would be useful to any exploration geologist and company
mineral prospectivity mapping --- deep mineral exploration --- geochemical exploration --- GA-SVR --- cross-gradients constraints --- laser-induced breakdown spectroscopy --- lithium --- mineral texture --- bat algorithm --- tungsten --- spatial analysis --- data-space --- stream sediments --- exploration --- MT --- geochemical fingerprinting --- 3D mineral prospectivity modeling --- Axi deposit --- LIBS --- dual-frequency IP --- one-class support vector machine --- Kagenfels --- pegmatite --- (co)-simulation --- LCT --- gravity gradiometry --- Natzwiller --- elastic-net regularization --- mineral resource classification --- mineral exploration --- Vosges --- micro-imaging --- exploration targeting --- project pursuit multivariate transform --- targeting --- joint inversion --- epithermal gold deposits --- inversion --- grain size analysis --- niobium --- Variscan orogeny --- QEMSCAN® --- receiver operating characteristic --- model-space --- JORC code --- Jinchuan Cu–Ni sulfide deposit --- limestone deposit --- area under the curve --- CSAMT --- magnetotelluric --- Youden index --- gravity --- granite
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