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Topographic surface modelling using raster grid datasets by GMT: example of the Kuril–Kamchatka Trench, Pacific Ocean

Polina Lemenkova

Polina Lemenkova

College of Marine Geo-sciences, Ocean University of ChinaQingdao, People’s Republic of China
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Lemenkova, Polina
  
06 lis 2019
Topographic surface modelling using raster grid datasets by GMT: example of the Kuril–Kamchatka Trench, Pacific Ocean's Cover Image
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Kategoria artykułu: Original Article
Data publikacji: 06 lis 2019
Zakres stron: 9 - 22
Otrzymano: 20 lip 2019
Przyjęty: 04 paź 2019
DOI: https://doi.org/10.2478/rgg-2019-0008
Słowa kluczowe
© 2019 Polina Lemenkova, published by Sciendo
This work is licensed under the Creative Commons Attribution-NonCommercial-NoDerivatives 4.0 International License.

Figure 1

Study region: Sea of Okhotsk and Kamchatka area (Mercator oblique projection)
Study region: Sea of Okhotsk and Kamchatka area (Mercator oblique projection)

Figure 2

Topographic map of the study area: Sea of Okhotsk, Kamchatka Peninsula, Greater Kuril Chain and Kuril– Kamchatka Trench. Numerical data source: ETOPO 1 Global Relief Model 1 minute raster grid.
Topographic map of the study area: Sea of Okhotsk, Kamchatka Peninsula, Greater Kuril Chain and Kuril– Kamchatka Trench. Numerical data source: ETOPO 1 Global Relief Model 1 minute raster grid.

Figure 3

Contour bathymetric area of the Kuril–Kamchatka Trench. Conic projection.
Contour bathymetric area of the Kuril–Kamchatka Trench. Conic projection.

Figure 4

Composite overlay of the 3D-topographical mesh model on top of the 2D grid contour plot. Contour bathymetric map source: ETOPO 5 min grid resolution. Azimuth rotation: 165/30.
Composite overlay of the 3D-topographical mesh model on top of the 2D grid contour plot. Contour bathymetric map source: ETOPO 5 min grid resolution. Azimuth rotation: 165/30.

Figure 5

Composite overlay of the 3D-topographical mesh model on top of the 2D grid contour plot. Contour bathymetric map source: ETOPO 5 min grid resolution. Azimuth rotation: 135/30.
Composite overlay of the 3D-topographical mesh model on top of the 2D grid contour plot. Contour bathymetric map source: ETOPO 5 min grid resolution. Azimuth rotation: 135/30.

Figure 6

Colour geoid image of the Kuril–Kamchatka Trench. Conic projection.
Colour geoid image of the Kuril–Kamchatka Trench. Conic projection.

Figure 7

Modelling gravity regional setting in the Okhotsk Sea area. Mercator projection.
Modelling gravity regional setting in the Okhotsk Sea area. Mercator projection.

Figure 8

Modelling marine free-air gravity anomaly. Mercator projection.
Modelling marine free-air gravity anomaly. Mercator projection.

Figure 9

Modelling vertical marine free-air gravity anomaly. Mercator projection.
Modelling vertical marine free-air gravity anomaly. Mercator projection.

Figure 10

Topographic surface modelling along the Kuril– Kamchatka Trench.
Topographic surface modelling along the Kuril– Kamchatka Trench.

Figure 11

Surface gravity modelling along the Kuril–Kamchatka Trench
Surface gravity modelling along the Kuril–Kamchatka Trench

Figure 12

Grid contour modelling using the Nearest Neighbour algorithm
Grid contour modelling using the Nearest Neighbour algorithm

Figure 13

Grid contour modelling using two approaches: XYZ2grid GMT module (a) and Nearest Neighbour GMT module (b)
Grid contour modelling using two approaches: XYZ2grid GMT module (a) and Nearest Neighbour GMT module (b)

Figure 14

Automatically digitized cross-section profiles along the Kuril–Kamchatka Trench
Automatically digitized cross-section profiles along the Kuril–Kamchatka Trench

Figure 15

Modelled gradient curves of the Kuril–Kamchatka Trench in northern and southern segments
Modelled gradient curves of the Kuril–Kamchatka Trench in northern and southern segments
Język:
Angielski
Częstotliwość wydawania:
2 razy w roku
Dziedziny czasopisma:
Informatyka, Informatyka, inne, Nauki o Ziemi, Geodezja, Kartografia i fotogrametria, Nauki o Ziemi, inne
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