{ "title": "HiPOD", "metadata": { "thumbnailURL": "bundle://header.jpg", "excerpt": "Can a slope that is not so steep tell us anything about gully formation?" }, "version": "1.5", "identifier": "testArticle", "language": "en", "layout": { "columns": 10, "width": 1024, "margin": 85, "gutter": 20 }, "documentStyle": { "backgroundColor": "#F5F9FB" }, "components": [ { "role": "heading1", "layout": "heading1Layout", "text": "HiPOD: SUNDAY, 13 OCTOBER 2019" }, { "role": "divider", "layout": "bigDividerLayout", "stroke": { "width": 3, "color": "#8c2028" } }, { "role": "title", "layout": "halfMarginBelowLayout", "text": "Gully Search" }, { "role": "photo", "layout": "fullBleedLayout", "caption": "An enhanced color cutout featuring very rugged terrain, including old impact craters and carbon dioxide frost. Less than 1 km across. (NASA/JPL/University of Arizona)", "URL": "bundle://ESP_055253_1240-main.jpg" }, { "role": "caption", "layout": "halfMarginBothLayout", "text": "Less than 1 km across, 250 km above the surface. (NASA/JPL/University of Arizona)" }, { "role": "body", "format": "html", "layout": "hipodMarginLayout", "text": "
Our objective here is to search for gullies on a heavily-modified crater rim not covered in prior imagery. Can a slope that is not so steep tell us anything about gully formation?
NASA/JPL/University of Arizona
ID: ESP_055253_1240