File:PIA19091-MarsCuriosityRover-OrganicsDetected-CumberlandRockPowder-20141216.png

原始檔案 (960 × 618 像素,檔案大小:893 KB,MIME 類型:image/png


摘要

描述
English: 2.16.2014

Mars Has Ways to Make Organics Hard to Find

http://mars.jpl.nasa.gov/msl/multimedia/images/?ImageID=6894

This illustration portrays some of the reasons why finding organic chemicals on Mars is challenging. Whatever organic chemicals may be produced on Mars or delivered to Mars face several possible modes of being transformed or destroyed.

Organic chemicals are molecular building block of life, although they can be made without the presence of life. Whether or not organic chemicals are produced by processes on Mars, some are delivered to the planet aboard meteorites and dust from asteroids and comets.

Cosmic rays that can penetrate rock surfaces can trigger breakdown of organic compounds. So can oxidation reactions induced by ultraviolet light, such as a process called Fenton's reaction, which breaks down organic chemicals in the presence of iron minerals and peroxide. Fenton's reaction is sometimes used for environmental cleanup projects where organic-chemical pollutants are a concern on Earth. Perchlorates in Martian soil and rock may also oxidize organic chemicals, directly converting them to carbon dioxide.

Despite the possible pathways for breakdown of organic chemicals on Mars, NASA's Curiosity Mars rover has definitively detected Martian organics in powder the rover's drill collected from a mudstone target called "Cumberland." That target is close to an eroding scarp, where it had been covered by overlying layers of rock, reducing exposure to cosmic rays, for most of the approximately three billion years since the rock formed.

NASA's Mars Science Laboratory Project is using Curiosity to assess ancient habitable environments and major changes in Martian environmental conditions. NASA's Jet Propulsion Laboratory, a division of the California Institute of Technology, Pasadena, built the rover and manages the project for NASA's Science Mission Directorate, Washington. NASA's Goddard Space Flight Center, Greenbelt, Maryland, built and operates SAM.
日期
來源 http://mars.jpl.nasa.gov/msl/images/curiosity-rover-mars-organic-rock-organism-cumberland-pia19091-full.jpg
作者 NASA/JPL-Caltech

授權條款

Public domain 本作品由NASA創作,屬於公有領域。根據NASA的版權政策:“NASA的創作除非另有聲明否則不受版權保護。”(參見:Template:PD-USGov/zhNASA版權政策JPL圖像使用政策
警告:

說明

添加單行說明來描述出檔案所代表的內容

在此檔案描寫的項目

描繪內容

著作權狀態 繁體中文 (已轉換拼寫)

斷定方法:​美國聯邦政府的作品 繁體中文 (已轉換拼寫)

檔案歷史

點選日期/時間以檢視該時間的檔案版本。

日期/時間縮⁠圖尺寸用戶備⁠註
目前2015年2月8日 (日) 16:58於 2015年2月8日 (日) 16:58 版本的縮圖960 × 618(893 KB)DrbogdanUser created page with UploadWizard

下列頁面有用到此檔案:

全域檔案使用狀況

以下其他 wiki 使用了這個檔案: