ABSTRACT
Beach sands are known host of different heavy minerals, which occur mostly as placer
deposits and are of great importance to the electronics, metallurgy, medical, defense,
and automobile industries. Typical examples of such heavy minerals are the rare
earth-associated minerals (e.g. monazite, bastnaesite, xenotime and euxenite). Some
of these rare earth elements-containing ores are known to occur in association with
naturally occurring radioactive uranium (U-238) and thorium (Th-232). Limited
studies are available on identification of rare earth element fingerprints in the coastal
sands of Ghana. Also, the relationship between the Naturally Occurring Radioactive
Materials (NORMs) and the Rare Earth Elements (REEs) in Ghanaian coastal sands
has not been well studied. The study developed an analytical procedure for mapping
out the composition of rare earth elements in beach sands via the pathfinder role of
naturally occurring radioactivity along the coast of the Central and Western regions of
Ghana. This was achieved through: (i) assessment of naturally occurring
radionuclides (238Th, 232Th and 40K) using Gamma Spectrometry and ascertaining the
presence of REEs-associated minerals using bromoform (density = 2.89 g/cm³) prior
to petrography of the heavy mineral concentrates; (ii) investigation of REEs in coarse,
medium and fine fractions using Lithium Metaborate Fusion Method using
Inductively Coupled Plasma Mass Spectrometry (ICP-MS); (iii) development of
chemical method in the separation of selected REEs (Pr, Nd, Sm, Eu); and
(iv) establishment of geospatial distribution pattern to aid exploration of REEs
minerals. Beach sand samples were collected from 15 locations in the Central region
(Gomoa Fetteh, Senya Beraku, Winneba, Mankwadze, Apam, Mumford, Dago, Akra,
Ekumpoano, Edumafa, Anomabu, Cape Coast, Elmina, Dutch Komenda and
Kafodzizi) and 10 locations in the Western region (Shama, Abuesi, Sekondi,
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Takoradi, Cape Three Points, Egyembra, Axim, Esiama and Sanzule) along the
coastline of Southwestern Ghana. The average concentrations of 238U, 232Th and 40K
in the beach sands of the Central and Western regions of Ghana were found to contain
the United Nations Scientific Committee on Effects of Atomic Radiation
(UNSCEAR) recommended permissible levels (35; 30; and 400 Bq/Kg respectively)
for radionuclides; with mean activity concentrations (ranges) of 1.3 ± 0.47 to 31.50±
3.31 Bq/Kg (238U); 0.7± 0.04 to 71.70± 4.55 Bq/Kg (232Th); 73.9± 6.72 to 1775.5±
28.35 (40K) for the Central region. In the Western region, the mean activity
concentration ranged fom 1.0 ± 0.03 to 5.6± 0.24 Bq/Kg (238U); 0.8± 0.04 to 3.8± 0.14
Bq/Kg (232Th); and 18.6± 0.23 to 343.2± 18.35 (40K). Beach sand dose rate in the
Central region and Western region ranged from 4.13 to 132.39 (nGy/hr) and 1.78 to
19.32 (nGy/hr) respectively; with a total average across the two regions being 11.40
(nGy/hr). The annual effective dose in the Central region ranged from 0.0051 to
0.1624, while that for the Western region ranged from 0.002 to 0.024; total average
for the two regions was 0.014 mSv/Yr. High radioactivity levels (Bq/Kg) (238U; 232Th;
40K; Raeq) observed in the beach sands of Dago (31.5±3.31; 71.7±4.55;
1775.5±28.35; 258.21); Akra (4.1±1.13; 2.0±0.51; 81.6±6.39; 12.66); and
Ekumpoano (27.2±5.8; 6.2±1.20; 69.7±8.12; 33.67) of the Central region exceeded
the individual radioactivity levels of the Western region. Heavy minerals such as
Zircon, Rutile and Amphibole were identified in the beach sands of the Central and
Western regions. The minerals found are known to concentrate REEs and are
indicative of shore-derived minerals. Rare earth elements were found in beach sands
at both regions. Total Rare Earth Elements (TREEs) distribution in the beach sands of
the Central region ranged as coarse fraction (6.33 to 13.30 ppm); medium fraction
(8.56 to 53.15 ppm) and fine fraction (16.67 to 795.01 ppm). The sum of Light Rare
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Earth Elements (LREEs); Heavy Rare Earths (HREEs); and ratio of light to heavy
rare earth (LREE/HREE) distribution in the Central region were: coarse fraction (5.56
to 11.77 ppm; 0.64 to 1.53 ppm; 5.81to 9.89); medium fraction (7.72 to 48.13 pm;
0.84 to 5.02 ppm; 5.83 to 9.95); and fine fraction (14.98 to 727 ppm; 1.69 to 74.53
ppm; 4.43 to 10.79). The TREE distribution in the beach sands of the Western region
varies as follows; coarse (5.69 to 29.78 ppm); medium (9.51 to 85.58 ppm) and fine
fraction (24.3 to 86.28). The sum of light LREEs, HREEs and ratio of light to heavy
rare earth (LREE/HREE) distribution in the Western beach sands were: coarse
fraction (5.07 to 26.08 ppm; 0.62 to 3.70 ppm; 6.67 to 10.11); medium fraction (8.47
to 76.8ppm; 1.04 to 8.78 ppm; 3.97 to 9.56) and fine fraction (21.6 to 77.46 ppm; 2.7
to 17.63 ppm; 2.76 to 8.78). Despite the prominence of REE- fingerprints in the beach
sands of Dago, Akra and Ekumpoano in the Central region, the corresponding
increase in radioactivity concentrations at these locations (Dago, Akra and
Ekumpoano) suggest strong influence of the geology of these areas. The sharp
decrease in the concentration of total REEs in the beach sands of Akra shows an
anomaly despite the fact that the sampling points are along the same trend. The
geospatial observation of the coastline along the Central region showed that the
sampling location at Dago and Ekumpoano are on probable geological faults and have
differing geology. The study has also revealed that the radioactivity distribution in the
beach sands serves as pathfinders to potential rare earth elements deposits in the
Central region. Although heavy REEs were found in relatively higher concentrations
in the beach sands of the Western region, the REEs in the fine fractions of the Central
region exceeded that of the Western region. Consequently, the renewable energy
target which relies on selected rare earth elements is achievable if more resources are
committed towards potential sources of the REEs in-land.
ABEY, J (2021). Studies Of Rare Earth Elements And Associated Radioactivity In The Coastal Sand Of The Central And Western Regions Of Ghana. Afribary. Retrieved from https://tracking.afribary.com/works/studies-of-rare-earth-elements-and-associated-radioactivity-in-the-coastal-sand-of-the-central-and-western-regions-of-ghana
ABEY, JOSHUA "Studies Of Rare Earth Elements And Associated Radioactivity In The Coastal Sand Of The Central And Western Regions Of Ghana" Afribary. Afribary, 20 Apr. 2021, https://tracking.afribary.com/works/studies-of-rare-earth-elements-and-associated-radioactivity-in-the-coastal-sand-of-the-central-and-western-regions-of-ghana. Accessed 21 Nov. 2024.
ABEY, JOSHUA . "Studies Of Rare Earth Elements And Associated Radioactivity In The Coastal Sand Of The Central And Western Regions Of Ghana". Afribary, Afribary, 20 Apr. 2021. Web. 21 Nov. 2024. < https://tracking.afribary.com/works/studies-of-rare-earth-elements-and-associated-radioactivity-in-the-coastal-sand-of-the-central-and-western-regions-of-ghana >.
ABEY, JOSHUA . "Studies Of Rare Earth Elements And Associated Radioactivity In The Coastal Sand Of The Central And Western Regions Of Ghana" Afribary (2021). Accessed November 21, 2024. https://tracking.afribary.com/works/studies-of-rare-earth-elements-and-associated-radioactivity-in-the-coastal-sand-of-the-central-and-western-regions-of-ghana