Climate Change and Marine Geological Dynamics

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Autore:	Kontakiotis George
Titolo:	Climate Change and Marine Geological Dynamics
Pubblicazione:	Basel, Switzerland, : MDPI - Multidisciplinary Digital Publishing Institute, 2021
Descrizione fisica:	1 electronic resource (183 p.)
Soggetto topico:	Research & information: general
Soggetto non controllato:	microfacies types
	Pantokrator Limestones
	Vigla Formation
	Senonian calciturbidites
	Eocene brecciated limestones
	carbonate porosity
	petroleum prospectivity
	stratigraphic correlations
	marine biogenic carbonates
	depositional environment
	paleoceanographic evolution
	planktonic foraminifera
	pteropods
	stable isotopes
	sea surface temperature (SST)
	stratification
	productivity
	sapropel S1
	Aegean Sea
	Late Quaternary
	shell weight
	climate variability
	sea surface density
	carbonate production
	X-ray microscopy (μCT)
	δ18O and Mg/Ca analyses
	offshore groundwater exploration
	coastal aquifers
	salt-/fresh-water relationship
	Mediterranean Sea
	Attica-Greece
	cleaning protocol
	unconsolidated core sediments
	climate reconstruction
	synchrotron X-ray microtomography (SμCT)
	foraminiferal-based proxies
	BTEX natural attenuation
	hydro-stratigraphy
	multi-layered aquifer
	Thriassion Plain
	confined and unconfined aquifer
	coastal aquifer
	Gulf of Eleusis
	ocean paleodensity
	Atlantic Meridional Circulation (AMOC)
	planktonic foraminiferal biogeography
	surface sediments
	morphometrics
	shell size
	environmental biomonitoring
	ecological optimum conditions
	primary productivity
	depth habitat preference
	cryptic speciation
	central Mediterranean hydrodynamics
	sea level fluctuations
	soluble substances
	coastal environment change
	diatom
	geochemical elements
Persona (resp. second.):	AntonarakouAssimina
	KontakiotisGeorge
Sommario/riassunto:	The tendency for climate to change has been one of the most surprising outcomes of the study of Earth's history. Marine geoscience can reveal valuable information about past environments, climates, and biota just before, during and after each climate perturbation. Particularly, certain intervals of geological records are windows to key episodes in the climate history of the Earth–life system. Ιn this regard, the detailed analyses of such time intervals are challenging and rewarding for environmental reconstruction and climate modelling, because they provide documentation and better understanding of a warmer-than-present world, and opportunities to test and refine the predictive ability of climate models. Marine geological dynamics such as sea-level changes, hydrographic parameters, water quality, sedimentary cyclicity, and (paleo)climate are strongly related through a direct exchange between the oceanographic and atmospheric systems. The increasing attention paid to this wide topic is also motivated by the interplay of these processes across a variety of settings (coastal to open marine) and timescales (early Cenozoic to modern). In order to realize the full predictive value of these warm (fresh)/cold (salty) intervals in Earth's history, it is important to have reliable tools (e.g., integrated geochemical, paleontological and/or paleoceanographic proxies) through the application of multiple, independent, and novel techniques (e.g., TEX86, UK’37, Mg/Ca, Na/Ca, Δ47, and μCT) for providing reliable hydroclimate reconstructions at both local and global scales.
Titolo autorizzato:	Climate Change and Marine Geological Dynamics
Formato:	Materiale a stampa
Livello bibliografico	Monografia
Lingua di pubblicazione:	Inglese
Record Nr.:	9910557354603321
Lo trovi qui:	Univ. Federico II
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