A three-dimensional lithospheric-scale thermal model of Germany

Anikiev, Denis; Lechel, Adrian; Gomez Dacal, Maria Laura; Bott, Judith; Cacace, Mauro; Scheck-Wenderoth, Magdalena

doi:10.5194/adgeo-49-225-2019

Articles | Volume 49

https://doi.org/10.5194/adgeo-49-225-2019

© Author(s) 2019. This work is distributed under
the Creative Commons Attribution 4.0 License.

https://doi.org/10.5194/adgeo-49-225-2019

© Author(s) 2019. This work is distributed under
the Creative Commons Attribution 4.0 License.

Articles | Volume 49

20 Dec 2019

| 20 Dec 2019

A three-dimensional lithospheric-scale thermal model of Germany

Denis Anikiev, Adrian Lechel, Maria Laura Gomez Dacal, Judith Bott, Mauro Cacace, and Magdalena Scheck-Wenderoth

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Total article views: 2,282 (including HTML, PDF, and XML)

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Views and downloads (calculated since 20 Dec 2019)

Month	HTML	PDF	XML	Total
Dec 2019	50	14	3	67
Jan 2020	43	17	2	62
Feb 2020	50	5	0	55
Mar 2020	41	8	0	49
Apr 2020	16	3	0	19
May 2020	13	7	1	21
Jun 2020	30	16	1	47
Jul 2020	68	27	17	112
Aug 2020	16	7	3	26
Sep 2020	25	10	0	35
Oct 2020	11	3	0	14
Nov 2020	12	9	1	22
Dec 2020	12	11	0	23
Jan 2021	18	7	0	25
Feb 2021	19	12	0	31
Mar 2021	16	8	1	25
Apr 2021	11	8	1	20
May 2021	13	12	0	25
Jun 2021	10	5	0	15
Jul 2021	11	10	1	22
Aug 2021	18	9	0	27
Sep 2021	20	15	0	35
Oct 2021	25	22	0	47
Nov 2021	18	18	2	38
Dec 2021	16	8	0	24
Jan 2022	16	9	1	26
Feb 2022	11	5	3	19
Mar 2022	14	8	1	23
Apr 2022	13	7	0	20
May 2022	12	5	1	18
Jun 2022	12	3	1	16
Jul 2022	35	14	0	49
Aug 2022	57	3	0	60
Sep 2022	14	3	0	17
Oct 2022	13	10	1	24
Nov 2022	10	9	0	19
Dec 2022	16	9	0	25
Jan 2023	11	7	0	18
Feb 2023	14	6	1	21
Mar 2023	17	5	1	23
Apr 2023	7	3	0	10
May 2023	14	3	0	17
Jun 2023	16	13	3	32
Jul 2023	15	7	0	22
Aug 2023	14	4	1	19
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Dec 2023	18	7	1	26
Jan 2024	13	4	1	18
Feb 2024	19	11	1	31
Mar 2024	23	7	5	35
Apr 2024	22	6	8	36
May 2024	24	8	0	32
Jun 2024	46	6	2	54
Jul 2024	26	9	4	39
Aug 2024	26	3	2	31
Sep 2024	24	8	2	34
Oct 2024	16	5	0	21
Nov 2024	15	5	0	20
Dec 2024	22	6	1	29
Jan 2025	25	6	0	31
Feb 2025	20	1	0	21
Mar 2025	22	6	1	29
Apr 2025	18	7	1	26
May 2025	30	10	1	41
Jun 2025	32	13	1	46
Jul 2025	14	10	1	25
Aug 2025	49	10	0	59
Sep 2025	69	4	4	77
Oct 2025	48	23	3	74
Nov 2025	21	12	0	33

Cumulative views and downloads (calculated since 20 Dec 2019)

Month	HTML	PDF	XML	Total
Dec 2019	50	14	3	67
Jan 2020	43	17	2	62
Feb 2020	50	5	0	55
Mar 2020	41	8	0	49
Apr 2020	16	3	0	19
May 2020	13	7	1	21
Jun 2020	30	16	1	47
Jul 2020	68	27	17	112
Aug 2020	16	7	3	26
Sep 2020	25	10	0	35
Oct 2020	11	3	0	14
Nov 2020	12	9	1	22
Dec 2020	12	11	0	23
Jan 2021	18	7	0	25
Feb 2021	19	12	0	31
Mar 2021	16	8	1	25
Apr 2021	11	8	1	20
May 2021	13	12	0	25
Jun 2021	10	5	0	15
Jul 2021	11	10	1	22
Aug 2021	18	9	0	27
Sep 2021	20	15	0	35
Oct 2021	25	22	0	47
Nov 2021	18	18	2	38
Dec 2021	16	8	0	24
Jan 2022	16	9	1	26
Feb 2022	11	5	3	19
Mar 2022	14	8	1	23
Apr 2022	13	7	0	20
May 2022	12	5	1	18
Jun 2022	12	3	1	16
Jul 2022	35	14	0	49
Aug 2022	57	3	0	60
Sep 2022	14	3	0	17
Oct 2022	13	10	1	24
Nov 2022	10	9	0	19
Dec 2022	16	9	0	25
Jan 2023	11	7	0	18
Feb 2023	14	6	1	21
Mar 2023	17	5	1	23
Apr 2023	7	3	0	10
May 2023	14	3	0	17
Jun 2023	16	13	3	32
Jul 2023	15	7	0	22
Aug 2023	14	4	1	19
Sep 2023	12	7	2	21
Oct 2023	11	4	1	16
Nov 2023	9	4	0	13
Dec 2023	18	7	1	26
Jan 2024	13	4	1	18
Feb 2024	19	11	1	31
Mar 2024	23	7	5	35
Apr 2024	22	6	8	36
May 2024	24	8	0	32
Jun 2024	46	6	2	54
Jul 2024	26	9	4	39
Aug 2024	26	3	2	31
Sep 2024	24	8	2	34
Oct 2024	16	5	0	21
Nov 2024	15	5	0	20
Dec 2024	22	6	1	29
Jan 2025	25	6	0	31
Feb 2025	20	1	0	21
Mar 2025	22	6	1	29
Apr 2025	18	7	1	26
May 2025	30	10	1	41
Jun 2025	32	13	1	46
Jul 2025	14	10	1	25
Aug 2025	49	10	0	59
Sep 2025	69	4	4	77
Oct 2025	48	23	3	74
Nov 2025	21	12	0	33

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Total article views: 2,236 (including HTML, PDF, and XML) Thereof 2,234 with geography defined and 2 with unknown origin.

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1

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Short summary

We have developed a first Germany-wide 3D data-based density and temperature model integrating geoscientific observations and physical processes. The model can serve as a reference for local detailed studies dealing with temperature, pressure, stress, subsidence and sedimentation. Our results help to improve subsurface utilization concepts, reveal current geomechanical conditions crucial for hazard assessment and gather information on viable resources such groundwater and deep geothermal energy.


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