Narissa Patel scite author profile

Narissa Patel

2Publications

59Citation Statements Received

130Citation Statements Given

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The Open University

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A steeply-inclined trajectory for the Chicxulub impact

Collins

Patel²,

Davison³

et al. 2020

Nat Commun

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The environmental severity of large impacts on Earth is influenced by their impact trajectory. Impact direction and angle to the target plane affect the volume and depth of origin of vaporized target, as well as the trajectories of ejected material. The asteroid impact that formed the 66 Ma Chicxulub crater had a profound and catastrophic effect on Earth's environment, but the impact trajectory is debated. Here we show that impact angle and direction can be diagnosed by asymmetries in the subsurface structure of the Chicxulub crater. Comparison of 3D numerical simulations of Chicxulub-scale impacts with geophysical observations suggests that the Chicxulub crater was formed by a steeply-inclined (45-60°to horizontal) impact from the northeast; several lines of evidence rule out a low angle (<30°) impact. A steeply-inclined impact produces a nearly symmetric distribution of ejected rock and releases more climate-changing gases per impactor mass than either a very shallow or near-vertical impact.

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Potential effects of atmospheric collapse on Martian heat flow and application to the InSight measurements

Attree

Patel

Grott

et al. 2020

Planetary and Space Science

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Heat flow is an important constraint on planetary formation and evolution. It has been suggested that Martian obliquity cycles might cause periodic collapses in atmospheric pressure, leading to corresponding decreases in regolith thermal conductivity (which is controlled by gas in the pore spaces). Geothermal heat would then build up in the subsurface, potentially affecting present-day heat flow -and thus the measurements made by a heat-flow probe such as the InSight HP 3 instrument. To gauge the order of magnitude of this effect, we model the diffusion of a putative heat pulse caused by thermal conductivity changes with a simple numerical scheme and compare it to the heat-flow perturbations caused by other effects. We find that an atmospheric collapse to 300 Pa in the last 40 kyr would lead to a present-day heat flow that is up to 2 − 8% larger than the average geothermal background. Considering the InSight mission with expected 5−15% error bars on the HP 3 measurement, this perturbation would only be significant in the best-case scenario of full instrument deployment, completed measurement campaign, and a well-modelled surface configuration. The prospects for detecting long-term climate perturbations via spacecraft heat-flow experiments remain challenging.

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Narissa Patel

A steeply-inclined trajectory for the Chicxulub impact

Potential effects of atmospheric collapse on Martian heat flow and application to the InSight measurements

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