Geophysical and magneto‐structural study of the Maâdna structure (Talemzane, Algeria): Insights on its age and origin

Lamali, A.; Rochette, P.; Merabet, N.; Abtout, Abdeslam; Maouche, Saïd; Gattacceca, J.; Ferrière, L.; Hamoudi, Mohamed; Meziane, E. H.; Ayache, Mohamed

doi:10.1111/maps.12715

Cited by 11 publications

(16 citation statements)

References 86 publications

Supporting

Mentioning

Contrasting

Order By: Relevance

“…They have defined evidence for carbonate melting as effects resulting from shock metamorphism. In contrast, Lamali et al (2016, 2020) pointed out the previous authors’ misinterpretation of an unusual breccia or what appears as black varnish on weathered limestone and/or some type of outcrops (e.g., Pliocene breccias or neoformed concretions), as melting materials. An analogy was already made by Lamali et al (2016, 2020) between these litho‐type zones, within and outside of the crater, and referred to their fieldwork and petrographic analysis of their large number of samples.…”

Section: Geological Settingmentioning

confidence: 97%

“…1a). Lamali et al (2016) used topographic profiles constructed from Shuttle Radar Topography Mission (SRTM) data to indicate an eccentricity of about 1.093. These authors identified a simple bowl shape for the structure with a slightly elliptical topographic depression, with long and short axes of 1.75 and 1.6 km in N‐S and E‐W edge dimensions, respectively.…”

Section: Geological Settingmentioning

confidence: 99%

“…However, its actual formation mechanism is still controversial. Lamali et al (2016Lamali et al ( , 2020 reported data from detailed fieldwork, structural geological analysis, and geophysical studies that were not conclusive to provide unambiguous supporting evidence for an impact interpretation. They concluded that the Maâdna structure could alternatively be the result of a local diapiric emplacement, although they did not exclude the impact hypothesis.…”

Section: Introductionmentioning

confidence: 99%

See 2 more Smart Citations

Field gamma ray spectrometry as a diagnostic tool for the assessment of hypothetical melt rocks from the Maâdna structure (Talemzane, Algeria): Implications for the crater formation process

Lamali

Hamai

Mokhtar

et al. 2022

Meteorit & Planetary Scien

View full text Add to dashboard Cite

Among all geophysical methods, gamma ray spectrometry is not widely used in impact cratering studies, despite its efficiency in the investigation of physical/chemical changes in rocks. The application of gamma ray spectrometry method to data from the Maâdna crater is aimed at detection and verification of the presumed impact‐derived melt rocks or breccias, as well as discussing its implications on process of formation. The resulting information also demonstrates the potential of these specific data regarding our general understanding of impact cratering, while a few case studies have been reported in the literature to date within the impact community. Maâdna crater is dated at 2.6–3.1 Ma of ~1.7 km and is emplaced in Upper‐Cretaceous to Eocene limestones of the northern part of the Algerian Saharan platform. Although originally accepted as an impact crater, its origin is still controversial. Several thousands of field measurements were taken using a field portable gamma ray spectrometer. The measurements can be equivalently expressed by up to about 42 km footpath recordings in real‐time ground acquisitions, covering the entire structure and surrounding areas beyond the crater edge. The collected data included the total count (Tc) and the concentrations of the radionuclides calculated in wt% for K and in ppm for U and Th. The spectra rates recorded inside and outside the crater did not exceed the maximum average concentrations corresponding to 75.3 Cps, 4.94 ppm, 10.5 ppm, and 1.79 wt% for Tc, U, Th, and K, respectively. The database was processed using various gridding data methods, from which the minimum curvature was adopted as it provides a powerful visualization and interpretation of the anomalous distribution of radioactive elements and their corresponding ratios maps. In addition, an improved statistical analysis was carried out in order to extract a maximum of information about the radiometric response of each rock unit. This analysis consisted of a series of multiple linear regression, mean differencing, Q–Q (quantile–quantile) plots, and ternary mapping. Maps and plots of various models allowed us to examine the background variability in the distribution of K, Th, and U concentrations at the surface of the three distinctive litho‐type zones in the surveyed area, which are the central part, the crater edge, and the outside of the crater including the wadi deposits. Observed results of different radiometric responses clearly reflect the effect of various lithological units, especially in the areas with high K concentration. Note that this positive K‐anomaly has been observed in recent deposits that fill the Maâdna depression or external wadi beds. In contrast, the surrounding limestone rocks showed lower levels of radioelement concentrations. Relevant similarities found between the radiometric signatures of the Neogene formations inside and outside the crater can be considered as a strong argument to exclude preferential radionuclides enrichment caused by an impact event. Consequently, the natural...

show abstract

Section: Geological Settingmentioning

confidence: 97%

Section: Geological Settingmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

See 1 more Smart Citation

Field gamma ray spectrometry as a diagnostic tool for the assessment of hypothetical melt rocks from the Maâdna structure (Talemzane, Algeria): Implications for the crater formation process

Lamali

Hamai

Mokhtar

et al. 2022

Meteorit & Planetary Scien

View full text Add to dashboard Cite

show abstract

“…A piece of evidence comes from the publication survey (i.e., 2000-2015), revealing that only less than 1% of the worldwide output of scientific papers have been published in the (BENKHALDOUN et al 2005;GILLON et al 2017). Algeria is also focusing on meteorites and impact craters with the help of international collaborations (LAMALI et al 2016;SAHOUI et al 2016). Since 2015, the Arabian Geosciences Union have launched a special section on planetary science and astrobiology for PSS scientists across northern Africa and the Middle East.…”

Section: Collaborative Researchmentioning

confidence: 99%

Life on Mars (LoMars): A bibliometric study of current research and future perspectives

Ali¹,

Shahid²,

Jabeen³

et al. 2021

Preprint

View full text Add to dashboard Cite

A quest for life on Mars (LoMars) started in the early 1960s when several research articles were published by the most prestigious scientific journals. The rise in annual literature production started in the late 1990s, most likely associated with the launch of the National Aeronautics and Space Administration’s (NASA) first Sojourner Rover in 1996. This trend predicts that the articles on Mars would further increase in the future given the fact that the recent launch and landing of the Mars 2020 Perseverance Rover is of utmost importance to find and understand the present or past life on the planet. So far, USA dominated the citations and collaborations with the rest of the world on Mars research given its facilities equipped with relevant infrastructure and researchers’ capacity to explore the Solar System beyond Earth. Majority of these frequently cited papers report results of observational and theoretical research; however, the highly cited paper (MCKAY D. S. et al. 1996) is based on analytical studies of a unique Martian meteorite (i.e., Allan Hills 84001) found in the Antarctica. It is expected that the sample return mission associated with the Perseverance Rover could possibly increase the LoMars research exponentially in the coming decades if Martian samples are successfully brought back to Earth. Based on the total number of publications on LoMars, highly influential institute, author, and journal represent Caltech, McKay C. P., and Icarus, respectively. Both the institute and the author are directly affiliated with the NASA, suggestive of the leadership offered by the organization in LoMars research.

show abstract

“…Emphasis was given on the African impact structures and meteorites, considered with geological and/or geophysical approaches (e.g., Lamali et al. ; Sahoui et al. ).…”

Section: The Scientific Sessionsmentioning

confidence: 99%

The fourth Arab Impact Cratering and Astrogeology Conference (AICAC IV), April 9–12, 2017, Algiers (Algeria)

Belhai

Aoudjehane

Baratoux

et al. 2017

Meteorit & Planetary Scien

Self Cite

View full text Add to dashboard Cite

We present a report about the fourth Arab Impact Cratering and Astrogeology Conference (AICAC IV) that took place in Algiers at the USTHB (Universit e des Sciences et Technologie Houari Boumedienne, Algiers, Algeria) in the presence of the presidents of the USTHB and Boumerd es Universities, the Director of CRAAG (Centre de Recherche en Astronomie, Astrophysique et G eophysique), and the General Director of the National Administration for Scientific Research (NASR/DGRSDT). This series of conferences aims to promote research interest for impact cratering in the Arab world and beyond, including for instance in African countries. In spite of persistently restraining travel measures to Algeria, the fourth edition held in Algiers was marked by continuous international participation, with participants from seven different countries. This conference focused on presentations of scientific results in the research fields related to planetology, meteorites, and impact craters. In particular, the Algerian impact structures were under the spotlights during both oral and poster sessions. During this conference, the presence of freshly graduated Ph.D. students and new Ph.D. projects related to impact cratering or meteoritic science was a positive sign for the consolidation of research groups in this domain in the Arab world and Africa. Therefore, international cooperation or external support and funding are still needed to ensure the development of this scientific discipline in this part of the world. THE SCIENTIFIC SESSIONS

show abstract

Geophysical and magneto‐structural study of the Maâdna structure (Talemzane, Algeria): Insights on its age and origin

Cited by 11 publications

References 86 publications

Field gamma ray spectrometry as a diagnostic tool for the assessment of hypothetical melt rocks from the Maâdna structure (Talemzane, Algeria): Implications for the crater formation process

Field gamma ray spectrometry as a diagnostic tool for the assessment of hypothetical melt rocks from the Maâdna structure (Talemzane, Algeria): Implications for the crater formation process

Life on Mars (LoMars): A bibliometric study of current research and future perspectives

The fourth Arab Impact Cratering and Astrogeology Conference (AICAC IV), April 9–12, 2017, Algiers (Algeria)

Contact Info

Product

Resources

About