Monitoring Antarctic Ice Sheet Melting from Space

从太空监测南极冰盖融化

基本信息

批准号：
2349594
负责人：
金额：
--
依托单位：
Lancaster University
依托单位国家：
英国
项目类别：
Studentship
财政年份：
2019
资助国家：
英国
起止时间：
2019 至无数据
项目状态：
已结题

来源：
https://gtr.ukri.org/projects?ref=studentship-2349594
关键词：
Monitoring Antarctic Ice Sheet Melting

项目摘要

Melting of the Greenland and Antarctic ice sheets contributes approximately one-third of global sea level rise. Whilst surface melting of the Greenland Ice Sheet is well documented, less is known about the past and present surface melting of Antarctica, and specifically, the transient network of lakes and rivers that form on the surface of the ice each year. These elusive features are important for understanding the evolution of the ice sheet, and have been implicated in the recent disintegration of several peripheral ice shelves.This PhD will develop new understanding of the spatial and temporal evolution of Antarctic melting, and the resulting surface hydrological network. Using both traditional methods and novel data science techniques, several key questions will be explored, (1) What happens to Antarctica's surface meltwater - where does it refreeze, does it drain into the ice sheet, or does it run off directly into the ocean, (2) How much water is stored in surface lakes, and for how long, and (3) How will the hydrological system evolve under future climate scenarios? To answer these questions, you will exploit the rapid, recent expansion in satellite data, to systematically map the distribution of melt features across Antarctica using both optical and Synthetic Aperture Radar satellite imagery. In addition to traditional methods, there will be opportunities to explore state-of-the-art Machine Learning, Bayesian optimisation and signal processing techniques to deliver new insight into the surface hydrological system. You will then use advanced time series analysis techniques, such as extreme value theory and changepoint detection, to explore trends and variability in melt across space and time. Finally, you will utilise regional climate model estimates of future melting, together with high resolution satellite topography data, to predict the future evolution of the Antarctic ice sheet hydrological network.The project is part-funded by the European Space Agency (ESA), under their 4DAntarctica contract, and part-funded by an EPSRC CASE award. The successful student will therefore have the opportunity to work closely with ESA, and with other industry and space agency partners including the German Aerospace Center (DLR), Environmental Earth Observation IT GmbH (EnvEO), the University of Leeds and the University of Edinburgh. Additionally, the student will also join the new Lancaster University-CEH Centre of Excellence in Environmental Data Science, and the UK NERC Centre for Polar Observation & Modelling (https://cpom.org.uk/).

格陵兰岛和南极冰盖的融化约占全球海平面上升的三分之一。虽然格陵兰冰盖的表面融化有据可查，但人们对南极洲过去和现在的表面融化，特别是每年在冰表面形成的短暂的湖泊和河流网络知之甚少。这些难以捉摸的特征对于理解冰盖的演化非常重要，并且与最近几个外围冰架的崩解有关。本博士将对南极融化的时空演化以及由此产生的地表水文网络产生新的认识。使用传统方法和新颖的数据科学技术，将探讨几个关键问题，（1）南极洲表面融水会发生什么——它在哪里重新冻结，是否流入冰盖，或者直接流入海洋， (2) 地表湖泊储存了多少水，储存了多长时间，以及 (3) 在未来的气候情景下，水文系统将如何演变？为了回答这些问题，您将利用卫星数据最近的快速扩展，使用光学和合成孔径雷达卫星图像系统地绘制整个南极洲融化特征的分布图。除了传统方法外，还将有机会探索最先进的机器学习、贝叶斯优化和信号处理技术，以提供对地表水文系统的新见解。然后，您将使用先进的时间序列分析技术（例如极值理论和变点检测）来探索融化在空间和时间上的趋势和变化。最后，您将利用对未来融化的区域气候模型估计以及高分辨率卫星地形数据来预测南极冰盖水文网络的未来演变。该项目由欧洲航天局 (ESA) 提供部分资助，根据他们的 4DAntarctica 合同，部分资金来自 EPSRC CASE 奖项。因此，成功的学生将有机会与欧空局以及其他工业和航天机构合作伙伴密切合作，包括德国航空航天中心 (DLR)、环境地球观测 IT GmbH (EnvEO)、利兹大学和爱丁堡大学。此外，该学生还将加入新的兰卡斯特大学-CEH 环境数据科学卓越中心和英国 NERC 极地观测与建模中心 (https://cpom.org.uk/)。