Grain entrainment and transport rates of magnetic minerals of coastal sediment samples from the Bay of Plenty, New Zealand


Autoria(s): Badesab, Firoz Kadar; Bartzke, Gerhard; von Dobeneck, Tilo; Huhn, Katrin
Cobertura

MEDIAN LATITUDE: -37.503982 * MEDIAN LONGITUDE: 176.084514 * SOUTH-BOUND LATITUDE: -37.681290 * WEST-BOUND LONGITUDE: 176.016700 * NORTH-BOUND LATITUDE: -37.300000 * EAST-BOUND LONGITUDE: 176.239930

Data(s)

13/03/2013

Resumo

Heavy (magnetic & non-magnetic) minerals are found concentrated by natural processes in many fluvial, estuarine, coastal and shelf environments with a potential to form economic placer deposits. Understanding the processes of heavy mineral transport and enrichment is prerequisite to interpret sediment magnetic properties in terms of hydro- and sediment dynamics. In this study, we combine rock magnetic and sedimentological laboratory measurements with numerical 3D discrete element models to investigate differential grain entrainment and transport rates of magnetic minerals in a range of coastal environments (riverbed, mouth, estuary, beach and near-shore). We analyzed grain-size distributions of representative bulk samples and their magnetic mineral fractions to relate grain-size modes to respective transport modes (traction, saltation, suspension). Rock magnetic measurements showed that distribution shapes, population sizes and grain-size offsets of bulk and magnetic mineral fractions hold information on the transport conditions and enrichment process in each depositional environment. A downstream decrease in magnetite grain size and an increase in magnetite concentration was observed from riverine source to marine sink environments. Lower flow velocities permit differential settling of light and heavy mineral grains creating heavy mineral enriched zones in estuary settings, while lighter minerals are washed out further into the sea. Numerical model results showed that higher heavy mineral concentrations in the bed increased the erosion rate and enhancing heavy mineral enrichment. In beach environments where sediments contained light and heavy mineral grains of equivalent grain sizes, the bed was found to be more stable with negligible amount of erosion compared to other bed compositions. Heavy mineral transport rates calculated for four different bed compositions showed that increasing heavy mineral content in the bed decreased the transport rate. There is always a lag in transport between light and heavy minerals which increases with higher heavy mineral concentration in all tested bed compositions. The results of laboratory experiments were validated by numerical models and showed good agreement. We demonstrate that the presented approach bears the potential to investigate heavy mineral enrichment processes in a wide range of sedimentary settings.

Formato

application/zip, 5 datasets

Identificador

https://doi.pangaea.de/10.1594/PANGAEA.808803

Idioma(s)

en

Publicador

PANGAEA

Relação

Badesab, Firoz Kadar (2012): Magnetic mineral enrichment and transport in coastal environments: Tauranga Harbour, Northeastern, New Zealand. PhD Thesis, Elektronische Dissertationen an der Staats- und Universitätsbibliothek Bremen, Germany, 116 pp, urn:nbn:de:gbv:46-00102927-10

Badesab, Firoz Kadar; Bartzke, Gerhard; von Dobeneck, Tilo; Huhn, Katrin: Selective transport and fractionation of magnetic particles in a transient coastal environment (Tauranga Harbour and Bay of Plenty, New Zealand). in preparation, Manuscript for Sedimentology

Direitos

Access constraints: access rights needed

Palavras-Chave #Area; Area/locality; Bulk cumulative; Bulk fraction; Bulk magnetite content; Bulk sediment grain size distribution; Center for Marine Environmental Sciences; Concentration; Cumulative; Dispersion; Event; Exp; Experiment; Fe3O4; Flow speed; Fraction; Fraction, norm cumulative [%]; Grain size offset; Kurt; Kurtosis; Magnetic mineral distribution; Magnetite; Magnetite fraction; Magnetite transport; Magnetite transport (Base); Magnetite transport (Top); MARUM; Mean; Mean, grain size; Mean, standard deviation; Mean, statistical; Mean std dev; Offset gs; Quartz transport; Quartz transport (Base); Quartz transport (Top); Sample ID; Skew; Skewness; Statistical method after Krumbein and Pettijohn 1938; Transport; Weight; Wet sieve shaker
Tipo

Dataset