Your search keyword '"Kelly Ann Ross"' showing total 2 results

1. The role of inherited crustal structures and magmatism in the development of rift segments: Insights from the Kivu basin, western branch of the East African Rift

Author

Kelly Ann Ross, Benoît Smets, Nicolas d'Oreye, Damien Delvaux, Matthieu Kervyn, Sam Poppe, François Kervyn, Geography, Physical Geography, Faculty of Sciences and Bioengineering Sciences, and Earth System Sciences

Subjects

geography, geography.geographical_feature_category, Rift, 010504 meteorology & atmospheric sciences, Lineament, Escarpment, Active fault, 010502 geochemistry & geophysics, 01 natural sciences, Paleontology, Geophysics, Basement (geology), East African Rift, Volcano tectonics, Magmatic underplating, Geology, Seismology, 0105 earth and related environmental sciences, Earth-Surface Processes

Abstract

The study of rift basin's morphology can provide good insights into geological features influencing the development of rift valleys and the distribution of volcanism. The Kivu rift segment represents the central section of the western branch of the East African Rift and displays morphological characteristics contrasting with other rift segments. Differences and contradictions between several structural maps of the Kivu rift make it difficult to interpret the local geodynamic setting. In the present work, we use topographic and bathymetric data to map active fault networks and study the geomorphology of the Kivu basin. This relief-based fault lineament mapping appears as a good complement for field mapping or mapping using seismic reflection profiles. Results suggest that rifting reactivated NE-SW oriented structures probably related to the Precambrian basement, creating transfer zones and influencing the location and distribution of volcanism. Both volcanic provinces, north and south of the Kivu basin, extend into Lake Kivu and are connected to each other with a series of eruptive vents along the western rift escarpment. The complex morphology of this rift basin, characterized by a double synthetic half-graben structure, might result from the combined action of normal faulting, magmatic underplating, volcanism and erosion processes.

Published

2016

2. The history of subaquatic volcanism recorded in the sediments of Lake Kivu; East Africa

Author

Flavio S. Anselmetti, Martin Schmid, Fabrice A. Muvundja, Sandra Ogorka, and Kelly Ann Ross

Subjects

geography, Subaquatic volcanism, geography.geographical_feature_category, 15N, High-resolution seismic, Limnic eruption, XRF, Sediment, Aquatic Science, Hydrothermal circulation, chemistry.chemical_compound, Oceanography, Water column, Volcano, chemistry, Lake sediment, Carbonate, Surface water, Geology, Holocene, Earth-Surface Processes

Abstract

Subaquatic volcanic activity has been ongoing in Lake Kivu since the early Holocene and has a dynamic effect on the biological productivity in the surface water, and the preservation of carbonate in the deep anoxic water. Groundwater discharge into the lake’s deepwater propels the upward advection of the water column that ultimately supplies nutrients to the surface water for biological production. The amount of nutrients supplied from the deepwater can be increased suddenly by (1) a cold meteorological event that drives deep seasonal mixing resulting in increased nutrients from below and oxygen from above, or (2) subaquatic volcanic activity that induces a buoyant hydrothermal plume, which entrains nutrients from the deepwater and results in anoxia or suboxic conditions in the surface water. Previous sedimentological studies in Lake Kivu have hypothesized that regional climatic changes are responsible for sudden changes in the preservation of carbonates in the Main Basin. Here we reveal that sublacustrine volcanic events most likely induce the abrupt changes to the geochemistry in the sediment in Lake Kivu. An unprecedented look into the sediment stratigraphy and geochemistry from high-resolution seismic-reflection, and 15N-isotope analyses was conducted in the Main Basin. The results reveal that buoyant hydrothermal plumes caused by subaquatic volcanic activity are a possible trigger for increased biological productivity and organic matter preservation, and that ongoing hydrothermal activity increases the alkalinity in the deepwater, leading to carbonate preservation. The onset of carbonate preservation since the 1970s that is currently observed in the sediment could indicate that hydrothermal discharge has recently increased in the lake., Journal of Paleolimnology, 54 (1), ISSN:0921-2728, ISSN:1573-0417

Published

2015