Constraining ecosystem model with adaptive Metropolis algorithm using boreal forest site eddy covariance measurements

Mäkelä, Jarmo; Susiluoto, Jouni; Markkanen, Tiina; Aurela, Mika; Järvinen, Heikki; Mammarella, Ivan; Hagemann, Stefan; Aalto, Tuula

doi:https://doi.org/10.5194/npg-23-447-2016

Articles | Volume 23, issue 6

https://doi.org/10.5194/npg-23-447-2016

© Author(s) 2016. This work is distributed under
the Creative Commons Attribution 3.0 License.

https://doi.org/10.5194/npg-23-447-2016

© Author(s) 2016. This work is distributed under
the Creative Commons Attribution 3.0 License.

Articles | Volume 23, issue 6

Research article

|

09 Dec 2016

Research article |

| 09 Dec 2016

Constraining ecosystem model with adaptive Metropolis algorithm using boreal forest site eddy covariance measurements

Jarmo Mäkelä, Jouni Susiluoto, Tiina Markkanen, Mika Aurela, Heikki Järvinen, Ivan Mammarella, Stefan Hagemann, and Tuula Aalto

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Jun 2016	24	5	2	31
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Sep 2016	10	1	0	11
Oct 2016	13	2	0	15
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Jan 2017	59	13	1	73
Feb 2017	25	6	3	34
Mar 2017	39	14	5	58
Apr 2017	40	22	1	63
May 2017	48	16	11	75
Jun 2017	37	5	9	51
Jul 2017	20	11	0	31
Aug 2017	10	8	3	21
Sep 2017	15	8	0	23
Oct 2017	16	11	3	30
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Jan 2018	30	20	12	62
Feb 2018	15	7	2	24
Mar 2018	13	8	3	24
Apr 2018	22	13	7	42
May 2018	10	8	3	21
Jun 2018	19	16	4	39
Jul 2018	20	10	6	36
Aug 2018	23	9	5	37
Sep 2018	17	15	3	35
Oct 2018	28	16	8	52
Nov 2018	28	15	2	45
Dec 2018	23	8	3	34
Jan 2019	26	10	3	39
Feb 2019	21	13	2	36
Mar 2019	13	9	4	26
Apr 2019	25	9	3	37
May 2019	19	12	4	35
Jun 2019	19	11	0	30
Jul 2019	24	15	1	40
Aug 2019	18	12	4	34
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Oct 2019	21	10	0	31
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Aug 2020	15	8	3	26
Sep 2020	23	8	0	31
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Nov 2020	16	9	1	26
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Jan 2021	25	7	0	32
Feb 2021	23	4	1	28
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Jan 2024	4	1	0	5
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Jun 2024	51	3	2	56
Jul 2024	14	6	6	26
Aug 2024	46	5	5	56
Sep 2024	17	4	2	23
Oct 2024	8	9	2	19
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Cumulative views and downloads (calculated since 11 Apr 2016)

Month	HTML	PDF	XML	Total
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May 2016	130	23	3	156
Jun 2016	24	5	2	31
Jul 2016	21	7	3	31
Aug 2016	13	4	1	18
Sep 2016	10	1	0	11
Oct 2016	13	2	0	15
Nov 2016	7	2	0	9
Dec 2016	50	23	1	74
Jan 2017	59	13	1	73
Feb 2017	25	6	3	34
Mar 2017	39	14	5	58
Apr 2017	40	22	1	63
May 2017	48	16	11	75
Jun 2017	37	5	9	51
Jul 2017	20	11	0	31
Aug 2017	10	8	3	21
Sep 2017	15	8	0	23
Oct 2017	16	11	3	30
Nov 2017	11	14	0	25
Dec 2017	14	11	5	30
Jan 2018	30	20	12	62
Feb 2018	15	7	2	24
Mar 2018	13	8	3	24
Apr 2018	22	13	7	42
May 2018	10	8	3	21
Jun 2018	19	16	4	39
Jul 2018	20	10	6	36
Aug 2018	23	9	5	37
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Oct 2018	28	16	8	52
Nov 2018	28	15	2	45
Dec 2018	23	8	3	34
Jan 2019	26	10	3	39
Feb 2019	21	13	2	36
Mar 2019	13	9	4	26
Apr 2019	25	9	3	37
May 2019	19	12	4	35
Jun 2019	19	11	0	30
Jul 2019	24	15	1	40
Aug 2019	18	12	4	34
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Jun 2024	51	3	2	56
Jul 2024	14	6	6	26
Aug 2024	46	5	5	56
Sep 2024	17	4	2	23
Oct 2024	8	9	2	19
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Cited

Latest update: 23 Nov 2024

Short summary

The land-based hydrological cycle is one of the key processes controlling the growth and wilting of plants and the amount of carbon vegetation can assimilate. Recent studies have shown that many land surface models have biases in this area. We optimized parameters in one such model (JSBACH) and were able to enhance the model performance in many respects, but the response to drought remained unaffected. Further studies into this aspect should include alternative stomatal conductance formulations.

Constraining ecosystem model with adaptive Metropolis algorithm using boreal forest site eddy covariance measurements

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Cited

4 citations as recorded by crossref.

4 citations as recorded by crossref.