A vertically discretised canopy description for ORCHIDEE (SVN r2290)  and the modifications to the energy, water and carbon fluxes

Naudts, K.; Ryder, J.; McGrath, M. J.; Otto, J.; Chen, Y.; Valade, A.; Bellasen, V.; Berhongaray, G.; Bönisch, G.; Campioli, M.; Ghattas, J.; De Groote, T.; Haverd, V.; Kattge, J.; MacBean, N.; Maignan, F.; Merilä, P.; Penuelas, J.; Peylin, P.; Pinty, B.; Pretzsch, H.; Schulze, E. D.; Solyga, D.; Vuichard, N.; Yan, Y.; Luyssaert, S.

doi:https://doi.org/10.5194/gmd-8-2035-2015

Articles | Volume 8, issue 7

https://doi.org/10.5194/gmd-8-2035-2015

© Author(s) 2015. This work is distributed under
the Creative Commons Attribution 3.0 License.

https://doi.org/10.5194/gmd-8-2035-2015

© Author(s) 2015. This work is distributed under
the Creative Commons Attribution 3.0 License.

Articles | Volume 8, issue 7

Development and technical paper

|

13 Jul 2015

Development and technical paper |

| 13 Jul 2015

A vertically discretised canopy description for ORCHIDEE (SVN r2290) and the modifications to the energy, water and carbon fluxes

K. Naudts, J. Ryder, M. J. McGrath, J. Otto, Y. Chen, A. Valade, V. Bellasen, G. Berhongaray, G. Bönisch, M. Campioli, J. Ghattas, T. De Groote, V. Haverd, J. Kattge, N. MacBean, F. Maignan, P. Merilä, J. Penuelas, P. Peylin, B. Pinty, H. Pretzsch, E. D. Schulze, D. Solyga, N. Vuichard, Y. Yan, and S. Luyssaert

Viewed

Total article views: 7,883 (including HTML, PDF, and XML)

HTML	PDF	XML	Total	Supplement	BibTeX	EndNote
4,032	3,544	307	7,883	529	267	337

HTML: 4,032
PDF: 3,544
XML: 307
Total: 7,883
Supplement: 529
BibTeX: 267
EndNote: 337

Views and downloads (calculated since 05 Dec 2014)

Month	HTML	PDF	XML	Total
Dec 2014	47	72	4	123
Jan 2015	12	33	1	46
Feb 2015	16	11	1	28
Mar 2015	11	9	0	20
Apr 2015	28	19	5	52
May 2015	6	18	1	25
Jun 2015	15	5	0	20
Jul 2015	99	88	6	193
Aug 2015	35	34	6	75
Sep 2015	34	31	1	66
Oct 2015	47	39	3	89
Nov 2015	44	27	2	73
Dec 2015	22	21	1	44
Jan 2016	37	24	0	61
Feb 2016	43	33	3	79
Mar 2016	24	14	4	42
Apr 2016	20	15	1	36
May 2016	24	19	9	52
Jun 2016	21	9	9	39
Jul 2016	18	11	3	32
Aug 2016	14	14	3	31
Sep 2016	13	5	4	22
Oct 2016	16	8	2	26
Nov 2016	10	4	1	15
Dec 2016	7	5	5	17
Jan 2017	36	15	4	55
Feb 2017	30	12	3	45
Mar 2017	38	18	10	66
Apr 2017	35	17	6	58
May 2017	51	21	9	81
Jun 2017	52	19	16	87
Jul 2017	28	10	1	39
Aug 2017	17	5	0	22
Sep 2017	16	14	1	31
Oct 2017	11	14	1	26
Nov 2017	14	5	1	20
Dec 2017	11	3	0	14
Jan 2018	14	12	0	26
Feb 2018	25	9	5	39
Mar 2018	12	10	1	23
Apr 2018	15	10	0	25
May 2018	15	17	3	35
Jun 2018	8	8	2	18
Jul 2018	6	15	0	21
Aug 2018	19	12	0	31
Sep 2018	14	10	0	24
Oct 2018	18	17	3	38
Nov 2018	19	15	1	35
Dec 2018	15	8	2	25
Jan 2019	18	12	1	31
Feb 2019	14	20	1	35
Mar 2019	15	18	3	36
Apr 2019	11	15	0	26
May 2019	27	20	1	48
Jun 2019	16	26	0	42
Jul 2019	24	18	2	44
Aug 2019	27	16	1	44
Sep 2019	11	22	1	34
Oct 2019	27	52	3	82
Nov 2019	17	18	0	35
Dec 2019	21	19	2	42
Jan 2020	19	18	3	40
Feb 2020	17	16	5	38
Mar 2020	21	20	0	41
Apr 2020	6	20	0	26
May 2020	13	7	0	20
Jun 2020	24	12	0	36
Jul 2020	49	39	32	120
Aug 2020	11	9	2	22
Sep 2020	20	13	0	33
Oct 2020	27	19	2	48
Nov 2020	13	14	0	27
Dec 2020	19	13	0	32
Jan 2021	35	24	2	61
Feb 2021	26	16	0	42
Mar 2021	31	26	2	59
Apr 2021	14	23	1	38
May 2021	19	18	0	37
Jun 2021	22	10	4	36
Jul 2021	18	10	0	28
Aug 2021	18	18	2	38
Sep 2021	16	15	0	31
Oct 2021	16	41	1	58
Nov 2021	28	41	1	70
Dec 2021	28	15	2	45
Jan 2022	26	25	1	52
Feb 2022	25	27	3	55
Mar 2022	20	16	2	38
Apr 2022	44	8	4	56
May 2022	47	13	2	62
Jun 2022	58	18	1	77
Jul 2022	34	7	1	42
Aug 2022	52	13	0	65
Sep 2022	68	14	1	83
Oct 2022	63	9	4	76
Nov 2022	50	20	1	71
Dec 2022	55	21	2	78
Jan 2023	47	25	1	73
Feb 2023	53	18	1	72
Mar 2023	61	12	0	73
Apr 2023	55	22	2	79
May 2023	50	15	0	65
Jun 2023	54	13	2	69
Jul 2023	47	16	1	64
Aug 2023	54	13	3	70
Sep 2023	60	20	1	81
Oct 2023	59	20	3	82
Nov 2023	31	12	1	44
Dec 2023	62	30	5	97
Jan 2024	46	120	1	167
Feb 2024	48	57	3	108
Mar 2024	53	51	2	106
Apr 2024	70	51	7	128
May 2024	32	148	5	185
Jun 2024	24	166	2	192
Jul 2024	16	202	1	219
Aug 2024	34	180	1	215
Sep 2024	30	100	1	131
Oct 2024	27	103	0	130
Nov 2024	31	28	5	64
Dec 2024	24	6	1	31
Jan 2025	34	93	2	129
Feb 2025	43	89	5	137
Mar 2025	27	16	2	45
Apr 2025	49	21	0	70
May 2025	39	16	0	55
Jun 2025	57	16	1	74
Jul 2025	44	13	1	58
Aug 2025	76	26	1	103
Sep 2025	68	19	3	90
Oct 2025	55	36	2	93
Nov 2025	10	3	1	14

Cumulative views and downloads (calculated since 05 Dec 2014)

Month	HTML	PDF	XML	Total
Dec 2014	47	72	4	123
Jan 2015	12	33	1	46
Feb 2015	16	11	1	28
Mar 2015	11	9	0	20
Apr 2015	28	19	5	52
May 2015	6	18	1	25
Jun 2015	15	5	0	20
Jul 2015	99	88	6	193
Aug 2015	35	34	6	75
Sep 2015	34	31	1	66
Oct 2015	47	39	3	89
Nov 2015	44	27	2	73
Dec 2015	22	21	1	44
Jan 2016	37	24	0	61
Feb 2016	43	33	3	79
Mar 2016	24	14	4	42
Apr 2016	20	15	1	36
May 2016	24	19	9	52
Jun 2016	21	9	9	39
Jul 2016	18	11	3	32
Aug 2016	14	14	3	31
Sep 2016	13	5	4	22
Oct 2016	16	8	2	26
Nov 2016	10	4	1	15
Dec 2016	7	5	5	17
Jan 2017	36	15	4	55
Feb 2017	30	12	3	45
Mar 2017	38	18	10	66
Apr 2017	35	17	6	58
May 2017	51	21	9	81
Jun 2017	52	19	16	87
Jul 2017	28	10	1	39
Aug 2017	17	5	0	22
Sep 2017	16	14	1	31
Oct 2017	11	14	1	26
Nov 2017	14	5	1	20
Dec 2017	11	3	0	14
Jan 2018	14	12	0	26
Feb 2018	25	9	5	39
Mar 2018	12	10	1	23
Apr 2018	15	10	0	25
May 2018	15	17	3	35
Jun 2018	8	8	2	18
Jul 2018	6	15	0	21
Aug 2018	19	12	0	31
Sep 2018	14	10	0	24
Oct 2018	18	17	3	38
Nov 2018	19	15	1	35
Dec 2018	15	8	2	25
Jan 2019	18	12	1	31
Feb 2019	14	20	1	35
Mar 2019	15	18	3	36
Apr 2019	11	15	0	26
May 2019	27	20	1	48
Jun 2019	16	26	0	42
Jul 2019	24	18	2	44
Aug 2019	27	16	1	44
Sep 2019	11	22	1	34
Oct 2019	27	52	3	82
Nov 2019	17	18	0	35
Dec 2019	21	19	2	42
Jan 2020	19	18	3	40
Feb 2020	17	16	5	38
Mar 2020	21	20	0	41
Apr 2020	6	20	0	26
May 2020	13	7	0	20
Jun 2020	24	12	0	36
Jul 2020	49	39	32	120
Aug 2020	11	9	2	22
Sep 2020	20	13	0	33
Oct 2020	27	19	2	48
Nov 2020	13	14	0	27
Dec 2020	19	13	0	32
Jan 2021	35	24	2	61
Feb 2021	26	16	0	42
Mar 2021	31	26	2	59
Apr 2021	14	23	1	38
May 2021	19	18	0	37
Jun 2021	22	10	4	36
Jul 2021	18	10	0	28
Aug 2021	18	18	2	38
Sep 2021	16	15	0	31
Oct 2021	16	41	1	58
Nov 2021	28	41	1	70
Dec 2021	28	15	2	45
Jan 2022	26	25	1	52
Feb 2022	25	27	3	55
Mar 2022	20	16	2	38
Apr 2022	44	8	4	56
May 2022	47	13	2	62
Jun 2022	58	18	1	77
Jul 2022	34	7	1	42
Aug 2022	52	13	0	65
Sep 2022	68	14	1	83
Oct 2022	63	9	4	76
Nov 2022	50	20	1	71
Dec 2022	55	21	2	78
Jan 2023	47	25	1	73
Feb 2023	53	18	1	72
Mar 2023	61	12	0	73
Apr 2023	55	22	2	79
May 2023	50	15	0	65
Jun 2023	54	13	2	69
Jul 2023	47	16	1	64
Aug 2023	54	13	3	70
Sep 2023	60	20	1	81
Oct 2023	59	20	3	82
Nov 2023	31	12	1	44
Dec 2023	62	30	5	97
Jan 2024	46	120	1	167
Feb 2024	48	57	3	108
Mar 2024	53	51	2	106
Apr 2024	70	51	7	128
May 2024	32	148	5	185
Jun 2024	24	166	2	192
Jul 2024	16	202	1	219
Aug 2024	34	180	1	215
Sep 2024	30	100	1	131
Oct 2024	27	103	0	130
Nov 2024	31	28	5	64
Dec 2024	24	6	1	31
Jan 2025	34	93	2	129
Feb 2025	43	89	5	137
Mar 2025	27	16	2	45
Apr 2025	49	21	0	70
May 2025	39	16	0	55
Jun 2025	57	16	1	74
Jul 2025	44	13	1	58
Aug 2025	76	26	1	103
Sep 2025	68	19	3	90
Oct 2025	55	36	2	93
Nov 2025	10	3	1	14

Latest update: 07 Nov 2025

Short summary

Despite the potential of forest management to mitigate climate change, none of today's predictions of future climate accounts for the impact of forest management. To address this gap in modelling capability, we developed and parametrised a land-surface model to simulate biogeochemical and biophysical effects of forest management. Comparison of model output against data showed an increased model performance in reproducing large-scale spatial patterns and inter-annual variability over Europe.