Porosity in chalk – roles of elastic strain and plastic strain

Fabricius, Ida Lykke

doi:10.1111/sed.12750

Cited by 9 publications

(3 citation statements)

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“…where ϕ i is the initial porosity at zero burial depth, − a is an exponential curvature factor, depth' the depth over which porosity decreases by approximately 1/ e , and θ the empirically derived rotation factor. The fitted curve yields an initial porosity of 57% at zero depth, a reasonable value for a chalk ooze within many tens of metres of the sea floor (Fabricius, 2007, 2020; Garrison, 1981; Mallon & Swarbrick, 2002). Fluid is lost from the system as pore volume decreases.…”

Section: Equilibrium Isotope Modellingmentioning

confidence: 84%

“…By analogy with chalks in general, small amounts of calcite cementation (Garrison, 1981; Schlanger & Douglas, 1974; Tagliavento et al, 2021) and recrystallisation (Börre & Fabricius, 1998; Fabricius, 2007; Neugebauer, 1974; Scholle, 1977) may have occurred concurrently with mechanical compaction, but the presence of early cements have not been documented in the Niobrara. However, rhombohedral terminations atop coccolithophore prisms in the Niobrara chalks do become more equant and larger with burial (Figure 6A,B), which is a phenomena indicative of early recrystallisation (Fabricius, 2020).…”

Section: Geological Backgroundmentioning

confidence: 99%

“…floor (Fabricius, 2007(Fabricius, , 2020Garrison, 1981;Mallon & Swarbrick, 2002). Fluid is lost from the system as pore volume decreases.…”

mentioning

confidence: 99%

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The history of calcite diagenesis and origin of exceptionally negative oxygen isotope values in chalks of the Niobrara Formation, Denver Basin, USA

Simon

Budd

Snell

2023

The Depositional Record

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The Niobrara Formation of north‐east Colorado, USA, has anomalously negative δ18O values compared to all other Cretaceous chalks. These unique δ18O values have been attributed to elevated heat flow and/or freshening of the Cretaceous Western Interior Seaway. This work utilises clumped isotopes of calcite (Δ47), peak burial temperatures estimated from pyrolysis data, and strontium and neodymium isotopes of carbonate to re‐evaluate the origin of the calcite's 18O‐depletion. Peak temperatures indicate lateral variability in geothermal gradients of ca 20°C/km at the tens of kilometre scale, and corroborate prior studies proposing locally elevated palaeotemperatures. Greater insight is provided by numerical models of calcite recrystallisation and oxygen isotope evolution that are constrained by measured Δ47‐derived temperatures, calcite δ18O values and inferences from the 87Sr/86Sr and εNd values. The models indicate that (1) sea water in the seaway had normal marine δ18O values of −1 (VSMOW) except on the eastern margin of the basin where some freshwater dilution yielded −2 to −3‰ (VSMOW) water, and (2) the main driver of the anonymously negative calcite δ18O values was a semi‐open hydrologic system that provided a few percent by pore volume of meteoric groundwater derived from post‐Laramide recharge into the basin. Minor contributions were a Laramide‐aged heat pulse related to the underlying Colorado Mineral Belt, the thermal insulating effects of now eroded coals, and a small flux of compaction‐driven Cretaceous sea water evolved by smectite dehydration. However, those three factors alone were insufficient drivers of the calcites' 18O depletion. High burial temperatures are interpreted to have caused clumped isotope reordering in at least one well, but those temperatures cannot yield the observed calcite δ18O values. The study illustrates the unique attributes of the Niobrara's diagenetic system that results in its anomalous δ18O values, and reaffirms the value of clumped isotopes in unravelling the diagenetic history of chalk systems.

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