George G. Berg scite author profile

Minibasins are fundamental components of many salt-bearing sedimentary basins, where they may host large volumes of hydrocarbons. Although we understand the basic mechanics governing their subsidence, we know surprisingly little of how minibasins subside in three-dimensions over geological timescales, or what controls such variability. Such knowledge would improve our ability to constrain initial salt volumes in sedimentary basins, the timing of salt welding, and the distribution and likely charging histories of suprasalt hydrocarbon reservoirs. We use 3D seismic reflection data from the Precaspian Basin, onshore Kazakhstan to reveal the subsidence histories of 16, Upper Permian-to-Triassic, suprasalt minibasins. These minibasins subsided into a Lower-to-Middle Permian salt layer that contained numerous relatively strong, clastic-dominated minibasins encased during an earlier, latest Permian phase of diapirism; because of this, the salt varied in thickness. Suprasalt minibasins contain a stratigraphic record of symmetric (bowl-shaped units) and then asymmetric (wedge-shaped units) subsidence, with this change in style seemingly occurring at different times in different minibasins, and most likely prior to welding. We complement our observations from natural minibasins in the Precaspian Basin with results arising from new physical sandbox models; this allows us to explore the potential controls on minibasin subsidence patterns, before assessing which of these might be applicable to our natural example. We conclude that due to uncertainties in the original spatial relationships between encased and suprasalt minibasins, and the timing of changes in style of subsidence between individual minibasins, it is unclear why such complex temporal and spatial variations in subsidence occur in the Precaspian Basin. Regardless of what controls the observed variability, we argue that vertical changes in minibasin stratigraphic architecture may not record the initial (depositional) thickness of underlying salt or the timing of salt welding; this latter point is critical when attempting to constrain the timing of potential hydraulic communication between sub-salt source rocks and suprasalt reservoirs. Furthermore, temporal changes in minibasin subsidence style will likely control suprasalt reservoir distribution and trapping style.

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Changes in the properties of human erythrocyte membrane protein after solubilization by butanol extraction

Rega

Weed

Reed

et al. 1967

Biochimica et Biophysica Acta (BBA) - Protein Structure

128

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Presence of Trimetaphosphatase in the Intestinal Mucosa and Properties of the Enzyme

Berg

Gordon

1960

J Histochem Cytochem.

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Trimetaphosphatase was shown to be present in intestine. Enzyme extracted from rat duodenum had optimum activity at pH 4, and was not activated by divalent cations. There was no inhibition by Mg++, weak inhibition by Ca++, Zn++, Co++, and Mn++, and strong inhibition by VO++ and possibly by Be++, Fe++, and Cu++. The enzyme was relatively resistant to organic solvents, formaldehyde, and KCN, and readily inactivated by NaF and KSCN. The bulk of the enzyme was bound to a sedimentable fraction, the remainder was soluble in water. Histochemical localization in the rat was in the lamina propria mucosae of the entire small intestine. In the mouse the enzyme was localized in the cytoplasm of the mucous epithelium of the small intestine.

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Measurement of Mercury in Human Hair

Giovanoli-Jakubczak¹,

Berg

1974

Archives of Environmental Health: An International Journal

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George G. Berg

Is Hemoglobin an Essential Structural Component of Human Erythrocyte Membranes?*

The Stratigraphic Record of Minibasin Subsidence, Precaspian Basin, Kazakhstan

Changes in the properties of human erythrocyte membrane protein after solubilization by butanol extraction

Presence of Trimetaphosphatase in the Intestinal Mucosa and Properties of the Enzyme

Measurement of Mercury in Human Hair

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