Josefin Martell scite author profile

Recognition of impact‐induced deformation of minerals is crucial for the identification and confirmation of impact structures as well as for the understanding of shock wave behavior and crater formation. Shock deformed mineral grains from impact structures can also serve as important geochronometers, precisely dating the impact event. We investigated zircon grains from the Mien impact structure in southern Sweden with the aim of characterizing shock deformation. The grains were found in two samples of impact melt rock with varying clast content, and in one sample of suevitic breccia. We report the first documentation of so‐called “FRIGN zircon” (former reidite in granular neoblastic zircon) from Mien (pre‐erosion diameter 9 km), which confirms that this is an important impact signature also in relatively small impact structures. Furthermore, the majority of investigated zircon grains contain other shock‐related microtextures, most notably granular and microporous textures, that occur more frequently in grains found in the impact melt than in the suevitic breccia. Our findings show that zircon grains that are prime candidates for establishing a new and improved age refinement of the Mien impact structure are present in the impact melt.

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The scale of a martian hydrothermal system explored using combined neutron and x-ray tomography

Martell

Alwmark

Daly

et al. 2022

Sci. Adv.

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Nakhlite meteorites are igneous rocks from Mars that were aqueously altered ~630 million years ago. Hydrothermal systems on Earth are known to provide microhabitats; knowledge of the extent and duration of these systems is crucial to establish whether they could sustain life elsewhere in the Solar System. Here, we explore the three-dimensional distribution of hydrous phases within the Miller Range 03346 nakhlite meteorite using nondestructive neutron and x-ray tomography to determine whether alteration is interconnected and pervasive. The results reveal discrete clusters of hydrous phases within and surrounding olivine grains, with limited interconnectivity between clusters. This implies that the fluid was localized and originated from the melting of local subsurface ice following an impact event. Consequently, the duration of the hydrous alteration was likely short, meaning that the martian crust sampled by the nakhlites could not have provided habitable environments that could harbor any life on Mars during the Amazonian.

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Bedrock mapping, stratigraphy, and related studies, Bonnet Plume Lake (NTS 106-B) and Wrigley Lake (NTS 95-M) map areas, Northwest Territories and Yukon: GEM-2 Mackenzie Project, report of activities 2018

MacNaughton

Fallas

Martell³

et al. 2018

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Report of activities for GEM 2 Mackenzie Project: Bonnet Plume Lake map area (NTS 106-B) bedrock mapping, stratigraphy, and related studies, Northwest Territories and Yukon

MacNaughton

Fallas

Fischer³

et al. 2017

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Josefin Martell

Shock deformation in zircon grains from the Mien impact structure, Sweden

The scale of a martian hydrothermal system explored using combined neutron and x-ray tomography

Bedrock mapping, stratigraphy, and related studies, Bonnet Plume Lake (NTS 106-B) and Wrigley Lake (NTS 95-M) map areas, Northwest Territories and Yukon: GEM-2 Mackenzie Project, report of activities 2018

Report of activities for GEM 2 Mackenzie Project: Bonnet Plume Lake map area (NTS 106-B) bedrock mapping, stratigraphy, and related studies, Northwest Territories and Yukon

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