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NARROW
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Latium Italy
Impact of the Earthquake Rupture on Ground‐Motion Variability of the 24 August 2016 M w 6.2 Amatrice, Italy, Earthquake
Ground‐Motion Modeling of the 2016 M w 6.2 Amatrice, Italy, Earthquake, by a Broadband Hybrid Kinematic Approach, Including Empirical Site Effects
Jurassic to Quaternary reactivation of inherited structures in the central Apennines
Magnetostratigraphy of the Collepardo Late Pliocene faunal assemblage (Early Villafranchian Triversa Faunal Unit), Ernici Mts., Central Italy
Site‐Dependent Amplification on Topography during the 2016 Amatrice Seismic Sequence, Central Italy
The contribution of Walter Alvarez to the investigation of the Capitoline Hill in Rome
ABSTRACT The chapter consists of five sections. The first one provides an introduction to the collaboration between Walter Alvarez and the author in the interdisciplinary study of the Capitoline Hill in the early 1990s. The second section turns to how we first met in Rome in 1970 and our parallel pathways over the next two decades that saw each of us take the lead in developing a big new idea based on innovative interdisciplinary research. The third section gives the earth scientist essential background on the study of early Rome: such things as the seven kings of Rome, the original topography of the early city, and the syndrome of the eternal Rome. The fourth section develops an overview on the work that we conducted on the Capitoline Hill and the new results obtained. In the fifth section, we step back and consider the contribution of Walter Alvarez to our subsequent research and publications on early Rome and the emergence of the field of geoarchaeology in the study of ancient Rome.
Depositional and diagenetic history of travertine deposited within the Anio Novus aqueduct of ancient Rome
ABSTRACT Travertine deposits preserved within ancient aqueduct channels record information about the hydrology, temperature, and chemistry of the flowing water from which they precipitated. However, travertine is also chemically reactive and susceptible to freshwater diagenesis, which can alter its original composition and impact reconstructions of aqueduct operation, maintenance, and climate. Hydraulic reconstructions, in combination with a suite of high-resolution optical, laser, electron, and X-ray microscopy analyses, have been used to determine the original crystalline structure and diagenetic alteration of travertine deposited in the Anio Novus aqueduct built in A.D. 38–52 at Roma Vecchia. Age-equivalent travertine deposits, precipitated directly on the mortar-covered floor at upstream and downstream sites along a 140-m-long continuous section of the Anio Novus channel, exhibit consistent crystalline textures and stratigraphic layering. This includes aggrading, prograding, and retrograding sets of travertine linguoid, sinuous, and hummocky crystal growth ripples, as well as sand lags with coated siliciclastic grains deposited on the lee slope of ripple crests. The original aqueduct travertine, which is similar to travertine formed in analogous natural environments, is composed of shrub-like, dendritically branching aggregates of 1–3-μm-diameter euhedral calcite crystals. Dark brown organic matter-rich laminae, formed by microbial biofilms and plant debris, create stratigraphic sequences of high-frequency, dark–light layering. This hydraulic and petrographic evidence suggests that large, radiaxial calcites diagenetically replaced the original aqueduct travertine shrubs, forming upward-branching replacement crystals that crosscut the biofilm laminae. While this diagenetic process destroyed the original crystalline fabric of the calcite shrubs, the entombed biofilm laminae were mimetically preserved. These integrated approaches create the type of depositional and diagenetic framework required for future chemostratigraphic analyses of travertine deposited in the Anio Novus and other ancient water conveyance and storage systems around the world, from which ancient human activity and climatic change can be more accurately reconstructed.