Published December 4, 2020
| Version v1
Publication
INTERPRETATION OF MAJOR STRUCTURES WITHIN THE BASEMENT REGION OF BENUE-NIGER CONFLUENCE FROM AEROMAGNETIC AND RADIOMETRIC DATA KOGI STATE NIGERIA
- 1. Federal University of Technology Minna
Description
Interpretation of Aeromagnetic and Radiometric Data covering the basement region of Benue-Niger confluence was executed to delineate major structures and other geologic frame works of mineral interest. The study area which hosts the Benue-Niger confluence also encloses two major geologic units which are basement complex and sedimentary basins. The Aeromagnetic data set comprising sheet 227 (Koton-Karfe), 247 (Lokoja) and 267 (Idah) was enhanced to reveal geologic structures while radiometric data was analysed to map lithology and zones affected by hydrothermal alterations. A set of mathematical algorithms was used to enhance the data for interpretation. First Vertical derivatives, Analytical Signal and Euler deconvolution filters were applied to the Aeromagnetic data while Ratio and Ternary images of the three radiogenic elements were obtained for the radiometric data. Magnetic signatures from the TMI showed a mixture of high and low susceptibility below koton-karfe due to intrusion of oolitic iron ore within the sedimentary formation. Lokoja regions recorded highest susceptibility of 165 nT due to magnetic signatures emanating from exposed basement rocks. The southern Idah regions recorded relatively low susceptibility. Result of First Vertical Derivative revealed near surface mineral potent structures labelled F1 – F8, cringing surface features B1, B2 and B3. Analytical signal revealed high amplitudes range of 0.174 to 0.579 cycles for magnetic sources majorly at the basement regions, while low amplitude range of 0.021 to 0.157 cycles were recorded around the sedimentary regions. Euler depth analysis revealed shallower depth to sources in the basement and deeper depth to sources in the sedimentary regions due to thick overburden. Radiometric signatures from the K/Th ratio map revealed portions around Latitude 8°00' NW and 7°30' SW shaded in pink colour and having values above known threshold of 0.2 %/ppm to be hydrothermally altered. Mapping of lithology from Ternary map revealed K-Feldspar mineral bearing rocks dominated the NW and SW regions, while sandstones, ironstones, mudstones, shale, alluvium and other fluvial sedimentary lithologies dominated the sedimentary North-east and South-Eastern regions. The western regions (NW and SW) hosted the major structures in form of magnetic lineaments trending NE-SW and E-W which also coincided with regions delineated to be hydrothermally altered and apparently represents the most prospective regions of mineralisation in the study area.
Translated Descriptions
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This is an automatic machine translation with an accuracy of 90-95%
Translated Description (Arabic)
تم تنفيذ تفسير البيانات المغناطيسية الجوية والإشعاعية التي تغطي منطقة الطابق السفلي من التقاء بينو ونيجر لتحديد الهياكل الرئيسية وغيرها من أعمال الإطار الجيولوجي ذات الأهمية المعدنية. تحتوي منطقة الدراسة التي تستضيف ملتقى بينو ونيجر أيضًا على وحدتين جيولوجيتين رئيسيتين هما مجمع القبو والأحواض الرسوبية. تم تعزيز مجموعة البيانات المغناطيسية الجوية التي تضم الألواح 227 (Koton - Karfe) و 247 (Lokoja) و 267 (Idah) للكشف عن الهياكل الجيولوجية بينما تم تحليل البيانات الإشعاعية لرسم خريطة الخصائص الحجرية والمناطق المتأثرة بالتغيرات الحرارية المائية. تم استخدام مجموعة من الخوارزميات الرياضية لتعزيز البيانات للتفسير. تم تطبيق المشتقات الرأسية الأولى ومرشحات الإشارة التحليلية وفك التفاف أويلر على البيانات المغناطيسية الجوية بينما تم الحصول على صور النسبة والصورة الثلاثية للعناصر الإشعاعية الثلاثة للبيانات الإشعاعية. أظهرت التوقيعات المغناطيسية من مؤشر قابلية التأثر مزيجًا من القابلية العالية والمنخفضة تحت كوتون- كارف بسبب تغلغل خام الحديد الأوليتيك داخل التكوين الرسوبي. سجلت مناطق لوكوجا أعلى قابلية للتأثر بمقدار 165 نانوتن بسبب البصمات المغناطيسية المنبثقة من الصخور السفلية المكشوفة. وسجلت مناطق إيداه الجنوبية حساسية منخفضة نسبيًا. نتيجة أول مشتق عمودي تم الكشف عنه بالقرب من الهياكل المعدنية القوية السطحية المسماة F1 – F8، ميزات سطح التجاعيد B1 و B2 و B3. كشفت الإشارة التحليلية عن نطاق سعة مرتفع يتراوح بين 0.174 و 0.579 دورة للمصادر المغناطيسية بشكل رئيسي في مناطق القبو، بينما تم تسجيل نطاق سعة منخفض يتراوح بين 0.021 و 0.157 دورة حول المناطق الرسوبية. كشف تحليل عمق أويلر عن عمق ضحل للمصادر في الطابق السفلي وعمق أعمق للمصادر في المناطق الرسوبية بسبب العبء الزائد الكثيف. كشفت التوقيعات الإشعاعية من خريطة نسبة K/Th عن أجزاء حول خط العرض 8°00' N و 7°30' SW مظللة باللون الوردي ولها قيم أعلى من العتبة المعروفة البالغة 0.2 ٪/جزء في المليون ليتم تغييرها حرارياً. كشفت خرائط الخصائص الحجرية من الخريطة الثلاثية أن الصخور المعدنية الحاملة لـ K - Feldspar سيطرت على مناطق شمال غرب وجنوب غرب، في حين سيطرت الأحجار الرملية والحجر الحديدي والأحجار الطينية والصخر الزيتي والطمي وغيرها من الخصائص الحجرية الرسوبية النهرية على المناطق الشمالية الشرقية والجنوبية الشرقية الرسوبية. استضافت المناطق الغربية (شمال غرب وجنوب غرب) الهياكل الرئيسية في شكل خطوط مغناطيسية تتجه نحو NE - SW و E - W والتي تزامنت أيضًا مع المناطق المحددة للتغير الحراري المائي وتمثل على ما يبدو أكثر المناطق المحتملة للتمعدن في منطقة الدراسة.Translated Description (English)
Interpretation of Aeromagnetic and Radiometric Data covering the basement region of Benue-Niger confluence was executed to delineate major structures and other geologic frame works of mineral interest. The study area which hosts the Benue-Niger confluence also encloses two major geologic units which are basement complex and sedimentary basins. The Aeromagnetic data set comprising sheets 227 (Koton-Karfe), 247 (Lokoja) and 267 (Idah) was enhanced to reveal geologic structures while radiometric data was analysed to map lithology and zones affected by hydrothermal alterations. A set of mathematical algorithms was used to enhance the data for interpretation. First Vertical derivatives, Analytical Signal and Euler deconvolution filters were applied to the Aeromagnetic data while Ratio and Ternary images of the three radiogenic elements were obtained for the radiometric data. Magnetic signatures from the TMI showed a mixture of high and low susceptibility below koton-karfe due to intrusion of oolitic iron ore within the sedimentary formation. Lokoja regions recorded highest susceptibility of 165 nT due to magnetic signatures emanating from exposed basement rocks. The southern Idah regions recorded relatively low susceptibility. Result of First Vertical Derivative revealed near surface mineral potent structures labelled F1 – F8, cringing surface features B1, B2 and B3. Analytical signal revealed high amplitudes range of 0.174 to 0.579 cycles for magnetic sources majorly at the basement regions, while low amplitude range of 0.021 to 0.157 cycles were recorded around the sedimentary regions. Euler depth analysis revealed shallower depth to sources in the basement and deeper depth to sources in the sedimentary regions due to thick overburden. Radiometric signatures from the K/Th ratio map revealed portions around Latitude 8°00' N and 7°30' SW shaded in pink colour and having values above known threshold of 0.2%/ppm to be hydrothermally altered. Mapping of lithology from Ternary map revealed K-Feldspar mineral bearing rocks dominated the NW and SW regions, while sandstones, ironstones, mudstones, shale, alluvium and other fluvial sedimentary lithologies dominated the sedimentary North-east and South-Eastern regions. The western regions (NW and SW) hosted the major structures in the form of magnetic lineaments trending NE-SW and E-W which also coincided with regions delineated to be hydrothermally altered and apparently represents the most prospective regions of mineralisation in the study area.Translated Description (French)
Interprétation des données aéromagnétiques et radiométriques couvrant la région de base de la confluence Benue-Niger qui a été exécutée pour définir des structures majeures et d'autres travaux de cadre géologique d'intérêt minéral. The study area which hosts the Benue-Niger confluence also encloses two major geologic units which are basement complex and sédimentary basins. The Aeromagnetic data set comprising sheet 227 (Koton-Karfe), 247 (Lokoja) and 267 (Idah) was enhanced to reveal geologic structures while radiometric data was analysd to map lithology and zones affected by hydrothermal alterations. Un ensemble d'algorithmes mathématiques a été utilisé pour améliorer les données d'interprétation. Les premiers dérivés verticaux, le signal analytique et les filtres de déconvolution d'Euler ont été appliqués aux données aéromagnétiques, tandis que le ratio et les images ternaires des trois éléments radiogéniques ont été conservés pour les données radiométriques. Magnetic signatures from the TMI showed a mixture of high and low susceptibility below koton-karfe due to intrusion of oolitic iron ore within the sedimentary formation. Lokoja regions recorded highest susceptibility of 165 nT due to magnetic signatures emanating from exposed basement rocks. Les régions du sud de l'Idah ont enregistré une susceptibilité relativement faible. Result of First Vertical Derivative revealed near surface mineral puissant structures labelled F1 – F8, cring surface features B1, B2 and B3. Gamme de haute amplitude de signal analytique révélée de 0,174 à 0,579 cycles pour les sources magnétiques principalement dans les régions de base, alors que la gamme de faible amplitude de 0,021 à 0,157 cycles a été enregistrée autour des régions sédimentaires. Euler depth analysis revealed shallower depth to sources in the basement and depper depth to sources in the sedimentary regions due to thick overburden. Radiometric signatures from the K/Th ratio map revealed portions around Latitude 8°00' NW and 7°30' SW shaded in pink colour and having values above known threshold of 0.2 %/ppm to be hydrothermally altered. Mapping of lithology from Ternary map revealed K-Feldspar mineral bearing rocks dominated the NW and SW regions, while sandstones, ironstones, mudstones, shale, alluvium and other fluvial sédimentary lithologies dominated the sédimentary North-east and South-Eastern regions. Les régions occidentales (NW et SW) ont hébergé les principales structures sous la forme de lignes magnétiques tendance NE-SW et E-W qui sont également coïncidées avec les régions désignées pour être hydrothermalement vieillies et apparemment représentatives des régions les plus prometteuses de la minéralisation dans la zone d'étude.Translated Description (Spanish)
Interpretación de los datos aeromagnéticos y radiométricos que cubren la región base de Benue-Niger confluencia se ejecutó para delinear estructuras principales y otros marcos geológicos de interés mineral. The study area which hosts the Benue-Niger confluence also encloses two major geologic units which are basement complex and sedimentary basins. The Aeromagnetic data set comprising sheet 227 (Koton-Karfe), 247 (Lokoja) and 267 (Idah) was enhanced to reveal geologic structures while radiometric data was analysed to map lithology and zones affected by hydrothermal alterations. A set of mathematical algorithms was used to enhance the data for interpretation. First Vertical derivatives, Analytical Signal and Euler deconvolution filters were applied to the Aeromagnetic data while Ratio and Ternary images of the three radiogenic elements were obtained for the radiometric data. Magnetic signatures from the TMI showed a mixture of high and low susceptibility below koton-karfe due to intrusion of oolitic iron ore within the sedimentary formation. Lokoja regions recorded highest susceptibility of 165 nT due to magnetic signatures emanating from exposed basement rocks. The southern Idah regions recorded relatively low susceptibility. Resultado de First Vertical Derivative revealed near surface mineral potential structures labelled F1 – F8, cring surface features B1, B2 y B3. Analytical signal revealed high amplitudes range of 0.174 to 0.579 cycles for magnetic sources majorly at the basement regions, while low amplitude range of 0.021 to 0.157 cycles were recorded around the sedimentary regions. Euler depth analysis revealed shallower depth to sources in the basement and deeper depth to sources in the sedimentary regions due to thick overburden. Radiometric signatures from the K/Th ratio map revealed portions around Latitude 8°00' NW and 7°30' SW shaded in pink colour and having values above known threshold of 0.2%/ppm to be hydrothermally altered. Mapping of lithology from Ternary map revealed K-Feldspar mineral bearing rocks dominated the NW and SW regions, while sandstones, ironstones, mudstones, shale, alluvium and other fluvial sedimentary lithologies dominated the sedimentary North-East and South-Eastern regions. The western regions (NW and SW) albergaba las principales estructuras en forma de líneas magnéticas de tendencia NE-SW y E-W que también coincidían con las regiones delineadas para ser hidrotermalmente alteradas y representadas en la mayoría de las regiones prospectivas de mineralización en el área de estudio.Additional details
Additional titles
- Translated title (Arabic)
- تفسير الهياكل الرئيسية داخل منطقة الطابق السفلي من التقاء بنيو ونيجر من بيانات إيروماغنيتيك و راديوميتريك ولاية كوجي نيجيريا
- Translated title (English)
- INTERPRETATION OF MAJOR STRUCTURES WITHIN THE BASEMENT REGION OF BENUE-NIGER CONFLUENCE FROM AEROMAGNETIC AND RADIOMETRIC DATA KOGI STATE NIGERIA
- Translated title (French)
- INTERPRÉTATION DE STRUCTURES MAJEURES DANS LA RÉGION DE BASE DE BENUE-NIGER CONFLUENCE DE DONNÉES AÉROMAGNÉTIQUES ET RADIOMÉTRIQUES KOGI STATE NIGERIA
- Translated title (Spanish)
- INTERPRETACIÓN DE ESTRUCTURAS MAYORES EN LA REGIÓN BASE DE BENUE-NIGER CONFLUENCIA DE DATOS AEROMAGNETIC Y RADIOMETRIC KOGI STATE NIGERIA
Identifiers
- Other
- https://openalex.org/W4206109267
- DOI
- 10.26480/gbr.01.2021.17.22