The paper presents results of radiometric investigations of an area (Duku-Tarasa) near the capital city of the State of Birnin Kebbi, NW Nigeria. The area of study is about 440 m × 420 m and encloses an Escarpmen...The paper presents results of radiometric investigations of an area (Duku-Tarasa) near the capital city of the State of Birnin Kebbi, NW Nigeria. The area of study is about 440 m × 420 m and encloses an Escarpment Feature/Structure on a sedimentary rock generally referred to as the Gwandu Formation. The Gwandu Formation (though not described in the paper) consists of continental lacustrine sediments and is the youngest Palaeogene Formation present in the Sokoto sector of the larger Iullemmeden Basin. The study measured, along some selected profiles across this escarpment feature, radiometric signatures using a Sim-Max G411 portable field gamma-ray spectrometer (giving counts for U, Th and K relative to the background values over the area), the ground total-field magnetic data (using the proton precession magnetometer) along those profiles and collected some (5) rock samples for flame photometry and AAS analyses towards the target proposition. Activity concentration levels due to potassium (K), uranium (U) and thorium (Th) were measured in the area along the five established profiles spaced at 50 metres. The results from these measurements and analyses were displayed (in Tables/histograms and gray level maps/images of concentrations of Uranium, Thorium and Potassium prospects) and interpreted (dismissing the magnetic data as seemingly passive as no filter was applied to the mapped data).展开更多
Azadirachta indica A. Juss (neem, family Meliaceae) is a reputable medicinal plant. Various parts of the plant are used as a remedy against different ailments, as a natural pesticide, as raw material in the cosmetic i...Azadirachta indica A. Juss (neem, family Meliaceae) is a reputable medicinal plant. Various parts of the plant are used as a remedy against different ailments, as a natural pesticide, as raw material in the cosmetic industry, and for marking other commodities. The seed oil is a major product of the plant and its quality depends on the seed quality and extraction methods employed. In this study, the chemical profile of NIPRDNEEM oil is compared with that of other brands of neem seed oils by using gas chromatography-mass spectrometry (GC-MS) and chemometrics. The fatty acid identified in NIPRDNEEM oil were: oleic acid (34.09%), stearic acid (11.4%), linoleic acid (15.94%), palmitic acid (23.4%), arachidic acid (0.73%), and the other compounds were: 1-Monolinoleoylglycerol trimethylsilyl ether (0.95%) and farnesyl alcohol (13.20%). The branded oils were composed predominantly of oleic acid (13.50% - 26.76%), palmitic acid (6.88% - 11.99%), linoleic acid (7.32% - 11.17%), stearic acid (4.29% - 13.08%), and arachidic acid (0.53% - 1.27%). The unbranded oil contained oleic acid (30.04%), stearic acid (14.91%), linoleic acid (14.62%), palmitic acid (12.34%), and arachidic acid (0.93%). Stigmasterol, stigmasterol acetate, and sitosterol were the sterols identified in the oils. Characterization of the fatty acid profile of neem seed oil is vital for industrial and economic purposes. The fatty acids profile of the NIPRDNEEM oil and other neem seed oil were comparable. Both PCA plots and HCA dendrogram from the chemometric analysis shows three main grouping of all samples. While NIPRDNEEM and the local neem oil were grouped, suggesting a high degree of resemblance of both samples.展开更多
文摘The paper presents results of radiometric investigations of an area (Duku-Tarasa) near the capital city of the State of Birnin Kebbi, NW Nigeria. The area of study is about 440 m × 420 m and encloses an Escarpment Feature/Structure on a sedimentary rock generally referred to as the Gwandu Formation. The Gwandu Formation (though not described in the paper) consists of continental lacustrine sediments and is the youngest Palaeogene Formation present in the Sokoto sector of the larger Iullemmeden Basin. The study measured, along some selected profiles across this escarpment feature, radiometric signatures using a Sim-Max G411 portable field gamma-ray spectrometer (giving counts for U, Th and K relative to the background values over the area), the ground total-field magnetic data (using the proton precession magnetometer) along those profiles and collected some (5) rock samples for flame photometry and AAS analyses towards the target proposition. Activity concentration levels due to potassium (K), uranium (U) and thorium (Th) were measured in the area along the five established profiles spaced at 50 metres. The results from these measurements and analyses were displayed (in Tables/histograms and gray level maps/images of concentrations of Uranium, Thorium and Potassium prospects) and interpreted (dismissing the magnetic data as seemingly passive as no filter was applied to the mapped data).
文摘Azadirachta indica A. Juss (neem, family Meliaceae) is a reputable medicinal plant. Various parts of the plant are used as a remedy against different ailments, as a natural pesticide, as raw material in the cosmetic industry, and for marking other commodities. The seed oil is a major product of the plant and its quality depends on the seed quality and extraction methods employed. In this study, the chemical profile of NIPRDNEEM oil is compared with that of other brands of neem seed oils by using gas chromatography-mass spectrometry (GC-MS) and chemometrics. The fatty acid identified in NIPRDNEEM oil were: oleic acid (34.09%), stearic acid (11.4%), linoleic acid (15.94%), palmitic acid (23.4%), arachidic acid (0.73%), and the other compounds were: 1-Monolinoleoylglycerol trimethylsilyl ether (0.95%) and farnesyl alcohol (13.20%). The branded oils were composed predominantly of oleic acid (13.50% - 26.76%), palmitic acid (6.88% - 11.99%), linoleic acid (7.32% - 11.17%), stearic acid (4.29% - 13.08%), and arachidic acid (0.53% - 1.27%). The unbranded oil contained oleic acid (30.04%), stearic acid (14.91%), linoleic acid (14.62%), palmitic acid (12.34%), and arachidic acid (0.93%). Stigmasterol, stigmasterol acetate, and sitosterol were the sterols identified in the oils. Characterization of the fatty acid profile of neem seed oil is vital for industrial and economic purposes. The fatty acids profile of the NIPRDNEEM oil and other neem seed oil were comparable. Both PCA plots and HCA dendrogram from the chemometric analysis shows three main grouping of all samples. While NIPRDNEEM and the local neem oil were grouped, suggesting a high degree of resemblance of both samples.
