Mapping buried paleogeographical features of the Nile Delta (Egypt) using the Landsat archive

EG Quaternary Science Journal Pub Date : 2020-12-09 DOI:10.5194/egqsj-69-225-2020

T. Ullmann, Leon Nill, R. Schiestl, Julian Trappe, Eva Lange-Athinodorou, R. Baumhauer, J. Meister

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引用次数: 9

Abstract

Abstract. The contribution highlights the use of Landsat spectral-temporal metrics (STMs) for the detection of surface anomalies that are potentially related to buried near-surface paleogeomorphological deposits in the Nile Delta (Egypt), in particular for a buried river branch close to Buto. The processing was completed in the Google Earth Engine (GEE) for the entire Nile Delta and for selected seasons of the year (summer/winter) using Landsat data from 1985 to 2019. We derived the STMs of the tasseled cap transformation (TC), the Normalized Difference Wetness Index (NDWI), and the Normalized Difference Vegetation Index (NDVI). These features were compared to historical topographic maps of the Survey of Egypt, CORONA imagery, the digital elevation model of the TanDEM-X mission, and modern high-resolution satellite imagery. The results suggest that the extent of channels is best revealed when differencing the median NDWI between summer (July/August) and winter (January/February) seasons ( ΔNDWI ). The observed difference is likely due to lower soil/plant moisture during summer, which is potentially caused by coarser-grained deposits and the morphology of the former levee. Similar anomalies were found in the immediate surroundings of several Pleistocene sand hills (“geziras”) and settlement mounds (“tells”) of the eastern delta, which allowed some mapping of the potential near-surface continuation. Such anomalies were not observed for the surroundings of tells of the western Nile Delta. Additional linear and meandering ΔNDWI anomalies were found in the eastern Nile Delta in the immediate surroundings of the ancient site of Bubastis (Tell Basta), as well as several kilometers north of Zagazig. These anomalies might indicate former courses of Nile river branches. However, the ΔNDWI does not provide an unambiguous delineation.

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利用地球资源卫星档案绘制尼罗河三角洲(埃及)埋藏的古地理特征

摘要这篇论文强调了利用陆地卫星光谱-时间度量(STMs)来探测地表异常，这些异常可能与尼罗河三角洲(埃及)埋藏的近地表古地貌沉积物有关，特别是对靠近布托的一条埋藏的河流分支。使用1985年至2019年的陆地卫星数据，在谷歌地球引擎(GEE)中完成了整个尼罗河三角洲和一年中选定季节(夏季/冬季)的处理。我们推导了流缨帽变换(TC)、归一化差异湿度指数(NDWI)和归一化差异植被指数(NDVI)的STMs。这些特征与埃及调查的历史地形图、CORONA图像、TanDEM-X任务的数字高程模型以及现代高分辨率卫星图像进行了比较。结果表明，夏季(7 / 8月)和冬季(1 / 2月)NDWI中位数的差异最能反映通道的范围(ΔNDWI)。观测到的差异可能是由于夏季土壤/植物湿度较低，这可能是由较粗粒度的沉积物和前堤防的形态造成的。在东部三角洲的几个更新世沙丘(“geziras”)和沉降丘(“telles”)的邻近环境中也发现了类似的异常，这使得对潜在的近地表延续进行了一些绘制。这种异常现象在西尼罗河三角洲地区的周围没有观察到。在古遗址Bubastis (Tell Basta)附近的尼罗河三角洲东部以及Zagazig以北几公里处发现了额外的线性和蜿蜒ΔNDWI异常。这些异常现象可能表明尼罗河支流以前的河道。然而，ΔNDWI并没有提供一个明确的描述。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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EG Quaternary Science Journal

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