Probabilistic estimation of depth-resolved profiles of  soil thermal diffusivity from temperature time series

Brunetti, Carlotta; Lamb, John; Wielandt, Stijn; Uhlemann, Sebastian; Shirley, Ian; McClure, Patrick; Dafflon, Baptiste

doi:10.5194/esurf-10-687-2022

Articles | Volume 10, issue 4

https://doi.org/10.5194/esurf-10-687-2022

© Author(s) 2022. This work is distributed under
the Creative Commons Attribution 4.0 License.

https://doi.org/10.5194/esurf-10-687-2022

© Author(s) 2022. This work is distributed under
the Creative Commons Attribution 4.0 License.

Articles | Volume 10, issue 4

Research article

|

04 Jul 2022

Research article |

| 04 Jul 2022

Probabilistic estimation of depth-resolved profiles of soil thermal diffusivity from temperature time series

Carlotta Brunetti, John Lamb, Stijn Wielandt, Sebastian Uhlemann, Ian Shirley, Patrick McClure, and Baptiste Dafflon

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Feb 2025	115	11	2	128
Mar 2025	126	19	1	146
Apr 2025	94	22	0	116
May 2025	96	15	2	113
Jun 2025	98	37	0	135
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Aug 2025	82	21	2	105
Sep 2025	185	22	2	209
Oct 2025	102	43	4	149
Nov 2025	275	90	2	367
Dec 2025	340	70	3	413
Jan 2026	186	41	8	235
Feb 2026	508	72	5	585
Mar 2026	101	47	6	154
Apr 2026	139	69	3	211
May 2026	286	47	3	336
Jun 2026	26	7	2	35

Cumulative views and downloads (calculated since 18 Nov 2021)

Month	HTML	PDF	XML	Total
Nov 2021	143	32	2	177
Dec 2021	138	4	0	142
Jan 2022	107	20	5	132
Feb 2022	38	13	2	53
Mar 2022	42	11	6	59
Apr 2022	14	12	2	28
May 2022	26	7	1	34
Jun 2022	18	8	2	28
Jul 2022	191	44	6	241
Aug 2022	77	25	3	105
Sep 2022	34	9	1	44
Oct 2022	25	17	2	44
Nov 2022	32	15	0	47
Dec 2022	29	13	0	42
Jan 2023	16	21	1	38
Feb 2023	9	11	0	20
Mar 2023	26	7	0	33
Apr 2023	21	23	0	44
May 2023	21	21	3	45
Jun 2023	9	10	1	20
Jul 2023	11	18	3	32
Aug 2023	14	13	1	28
Sep 2023	67	30	1	98
Oct 2023	63	12	1	76
Nov 2023	29	8	0	37
Dec 2023	61	21	5	87
Jan 2024	77	11	0	88
Feb 2024	77	21	2	100
Mar 2024	66	23	1	90
Apr 2024	82	12	1	95
May 2024	80	15	3	98
Jun 2024	371	11	7	389
Jul 2024	94	14	5	113
Aug 2024	97	5	3	105
Sep 2024	68	8	2	78
Oct 2024	81	13	1	95
Nov 2024	60	6	0	66
Dec 2024	71	13	0	84
Jan 2025	91	14	0	105
Feb 2025	115	11	2	128
Mar 2025	126	19	1	146
Apr 2025	94	22	0	116
May 2025	96	15	2	113
Jun 2025	98	37	0	135
Jul 2025	83	21	1	105
Aug 2025	82	21	2	105
Sep 2025	185	22	2	209
Oct 2025	102	43	4	149
Nov 2025	275	90	2	367
Dec 2025	340	70	3	413
Jan 2026	186	41	8	235
Feb 2026	508	72	5	585
Mar 2026	101	47	6	154
Apr 2026	139	69	3	211
May 2026	286	47	3	336
Jun 2026	26	7	2	35

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Short summary

This paper proposes a method to estimate thermal diffusivity and its uncertainty over time, at numerous locations and at an unprecedented vertical spatial resolution from soil temperature time series. We validate and apply this method to synthetic and field case studies. The improved quantification of soil thermal properties is a cornerstone for advancing the indirect estimation of the fraction of soil components needed to predict subsurface storage and fluxes of water, carbon, and nutrients.