Title | Magnetic evidence for lightning strikes on mountains in Lesotho as an important denudation agent |
Publication Type | Conference Paper |
Year of Publication | 2022 |
Authors | Webb, Susan J., Knight, Jasper, Grab, Stefan, Enslin, Stephanie, Hunt, Hugh, Maré, Leonie |
Conference Name | 2022 36th International Conference on Lightning Protection (ICLP) |
Keywords | composability, Lesotho, Lightning, Lightning protection, Magnetic cores, magnetism, Magnetization, Magnetometers, pubcrawl, remanence, resilience, Resiliency, Resistance, Rocks, weathering |
Abstract | Contrary to previous opinion, 'frost shattering' is not the only major contributor to rock weathering at mid latitudes and high elevations, more specifically along edges of bedrock escarpments. Lightning is also a significant contributor to land surface denudation. We can show this as lightning strikes on outcrops can dramatically alter the magnetic signature of rocks and is one of the main sources of noise in paleomagnetic studies. Igneous rocks in the highlands of Lesotho, southern Africa (\textgreater 3000 m elevation) provide an ideal study location, as flow lavas remain as prominent ridges that are relatively resistant to weathering. It is well known that lightning strikes can cause large remanent magnetization in rocks with little resultant variation in susceptibility. At two adjoining peaks in the Lesotho highlands, mapped freshly fractured rock correlates with areas of high magnetic intensity (remanent component), but little variation in susceptibility (related to the induced field), and is therefore a clear indicator of lightning damage. The majority of these mapped strike sites occur at the edges of topographic highs. Variations in magnetic intensity are correlated with the much lower resolution national lightning strikes dataset. These data confirm that high elevation edges of peak scarps are the focus of previous lightning strikes. This method of magnetic surveying compared with lightning strike data is a new method of confirming the locations of lightning strikes, and reduces the need for intensive paleomagnetic studies of the area to confirm remanence. |
DOI | 10.1109/ICLP56858.2022.9942484 |
Citation Key | webb_magnetic_2022 |