Google Earth, a software based on satellite’s images and database of navigation, gains features of high resolution, integrated images, quick update, convenience, simpleness and free cost. Practice of this software shows that it plays an important role in mapping, construction and river research. Based on the fundamental features of Google Earth, this passage makes an introduction to its application in studying modern river sedimentology through the case study of the Yellow River. The results show that Google Earth satellite’s high-resolution images and image overlay functions make it easy for users to quickly navigate river, determine the type of river, track the river flows and measure the terrain slope; the software’s “Ruler” and “Add Path” functions make it easy for users to measure channel width, curvature, amplitude, wavelength, size, morphology of point-bar and other river parameters; the software’s “Historical Image” function has important significance in the study of modern river migration, sedimentary evolution and river geomorphological shape during different seasons.
Google Earth is a set of software based on satellite and GPS data, which allows users to view satellite image, maps, terrain and 3D buildings on a 3D interactive sphere [
Google Earth is virtual globe software which was first launched by Google Company in 2005. It decorates the satellite images, aerial photography and GIS on a 3D model of the earth [
Google Earth integrates satellite images with aerial data. Parts of satellite images are from the Digital Globe and Earth Sat companies. Aerial images are derived from the Blue Sky, Sanborn, IKONOS and SPOT5 companies. The SPOT5 Company can provide images with the resolution of 2.5 m. The IKONOS Company can provide image with the resolution of 1 m, and the Quick Bird Company can offer 0.61 m high-precision image which is the highest level of global business [
Google Earth is not only a satellite image browsing software, but also an interactive platform which combines satellite images, maps with related information and communication. The interaction of this platform shows in two aspects: “Layer” and “Landmark” function. The “Layer” function is similar to the layer management function of AutoCAD software. It can classify and manage information through different layers. Each layer can be displayed on and off in need to maintain a clear and clean interface. The “Landmark” is the address label, it can be inserted to the map in order to make annotations, reminders. The “Landmark” can be saved and exported as a separate file [
In the study of modern river sedimentology, different types of river have different features of depositional model and geomorphologic shape. With the launch of Google Earth software, users can quickly determine the river types by observing sedimentary and geomorphological features of rivers through high-resolution satellite images. In the field of sedimentology, rivers are divided into braided river, meandering river, anastomosing river and Straight River. There is great difference in their macro geomorphological and sedimentary characteristics (
Braided River (
Meandering River (
Anastomosing River (
Straight River (
In the actual study, steps of using Google Earth to divide river types are as follows:
1) Open client software, type the name of the river or place that river flowing through in the upper left corner
River Type | Curvature | Channel Morphology | Channel Stability | Channel Sand | Abandoned Channel Characteristics |
---|---|---|---|---|---|
Braided River | Low | Two or More Channels; Sand Islands and Sandbanks | Very Unstable, Rapid Migration | Channel Bar | No Oxbow Lake |
Meandering River | High | Single Channel | Gradually Lateral Migration | Point Bar | Oxbow Lake |
Anastomosing River | Low-Medium | Two or More Channels; Large Stable Sand Islands | Stable | No Channel Sandbanks; Little Point Bar | No Oxbow Lake; Abandoned Channel |
Straight River | Very Low-Low | Single Channel | Unstable | Unstable Point Bar; Alternate Distribution | No Oxbow Lake |
of the search field to locate river (
2) Find the research section of the river on Google Earth satellite images, combine geomorphological and sedimentary characteristics of different types of river (
According to the methods above, the river type of the Yellow River from Baihe Town (34˚51'35.74"N, 112˚33'41.26"E) to Zhengzhou City, Garden Town (34˚54'20.40"N, 113˚42'4.78"E) is braided river. The bifurcation index of the river is high, and its channel bar is significant (
In the study of fluvial sedimentology and geomorphology, the terrain slope is one of the significant factors controlling river types. In general, the terrain slope of braided river is big, while that of meandering river and anastomosing river is small. Measuring the terrain slope can be used to explore the relationship between different types of river and terrain slope in different river basins. The terrain slope, one of the basic parameters of the river, can provide data for the development of water conservancy projects directly when it converted to basin slope. However, the lack of data of early aerial photo limits some scholars’ research and measuring work. With the launch of the Google Earth software, users can quickly locate rivers, track the flow direction and batch obtaining altitude data via Google Earth online images. It provides great convenience for the measurement of terrain slope.
In the actual study, steps of using Google Earth to measure terrain slope are as follows:
1) Use the search tool to find the selected rivers, and then observe the flow direction and characteristics of the river basin before selecting target parts of river for measurement. The Google Earth software does not display the rivers’ name, which brings great inconvenience to the researchers when tracking the rivers. So users can use layer overlay function to superpose third-party street map directly on the Google Earth image to improve efficiency;
2) Create the starting “Landmark a” and ending “Landmark b” on the Google Earth image of the selected river;
3) Read latitude, longitude and altitude Ha, Hb of the two landmarks respectively and measure the “Distance L” between the two landmarks through the “Ruler” function in tool bar (
4) Calculate the corresponding terrain slope θ based on the relationship of trigonometric functions:
Firstly, use one braided reach of the Yellow River from Zhengzhou City, Sun Village to Garden Town as an example (
Google Earth satellite images gain features of high resolution, high precision. So in modern river sedimentology research, using Google Earth software “Add Path”, “Ruler” tool, can directly measure the river’s width, curva-
River Length L (km) | Landmark a | Landmark b | Height difference Ha-Hb (m) | Slope (˚) | ||||
---|---|---|---|---|---|---|---|---|
Longitude (E) | Latitude (N) | Altitude (m) | Longitude (E) | Latitude (N) | Altitude (m) | |||
11.73 | 113˚34'32.69"E | 34˚56'57.39"N | 94.368 | 113˚41'53.64"E | 34˚55'1.34"N | 91.102 | 3.266 | 0.016 |
ture, amplitude, wavelength, point bar size and shape and other river parameters.
In the actual study, the main measurement steps of measuring the meandering river’s point bar parameters are as follows:
1) Find the meandering river’s fluvial deposits point which is need to be measured on the Google Earth satellite image and select the appropriate resolution;
2) Use the “Add Path” tool to delineate river unit which is under measurement on Google Earth satellite images;
3) Use “Distance Measurement” function in “Ruler” tool under the model of measurement tool, add an anchor point-by-point along the curve with the mouse and finally measure the length of the curve.
According to the methods above, use a point bar (37˚45'28.04"N, 119˚8'57.74"E) near the Yellow River estuary as an example (
Google Earth has the function of checking the historical satellite images. This function is of great importance to the study of modern rivers changes, sedimentary evolution and the river geomorphology in different seasons. At present, the Google Earth can check the earliest historical images in 2000. However, there will be a slight difference in the time of year when checking the historical images in different regions.
In the actual study, the steps of checking historical images are as follows:
1) Find the river on the Google Earth satellite image, and keep the interface stable;
2) Click the “View” column, find the “Historical Image”, and check the item;
3) The time axis will appear in the upper left corner, and the two sides of the axis are the earliest and the latest year’s images of Google Earth respectively. Move the axis pointer to view the corresponding year’s historical images.
Use one meandering reach of the Yellow River near Fengqiu County, Yangzhai Village (34˚56'35.32"N, 114˚27'14.83"E) as an example. The red lines in the figure are the stable dams fixed on the both sides of the Yellow River, so they are used as the reference in the study of modern river evolution. According to the Google Earth’s historical images of this meandering reach in different years from 2000, it can be found that the meander near the dam which is built on the upper left side migrated towards east from 2002 (
right side both migrated towards east from 2006 (
1) The resolution of satellite images from Google Earth software is high; users can study the sedimentary and geomorphological features of the rivers and quickly determine their types by observing the high-resolution satellite images;
2) Users can superimpose appropriate layers on the Google Earth’s satellite images to quickly locate the river, track river flow, obtain batch elevation data and easily measure the terrain slope;
3) The Google Earth software’s “Ruler”, “Add Path” and other functions make it easy for users to directly measure the channel width, radian, amplitude, wavelength and some dam parameters such as size and shape;
4) Google Earth software’s “Historical Image” function has important significance in studying modern river migration, sedimentary evolution and topography of river in different seasons.
Therefore, the use of Google Earth can greatly improve the efficiency of modern river sedimentology research.
XuewenZhou,HongliangWang, (2015) Application of Google Earth in Modern River Sedimentology Research. Journal of Geoscience and Environment Protection,03,1-8. doi: 10.4236/gep.2015.38001