Ideas and perspectives: how coupled is the vegetation to the boundary layer?

De Kauwe, Martin G.; Medlyn, Belinda E.; Knauer, Jürgen; Williams, Christopher A.

doi:10.5194/bg-14-4435-2017

Articles | Volume 14, issue 19

https://doi.org/10.5194/bg-14-4435-2017

© Author(s) 2017. This work is distributed under
the Creative Commons Attribution 3.0 License.

https://doi.org/10.5194/bg-14-4435-2017

© Author(s) 2017. This work is distributed under
the Creative Commons Attribution 3.0 License.

Articles | Volume 14, issue 19

Ideas and perspectives

|

09 Oct 2017

Ideas and perspectives |

| 09 Oct 2017

Ideas and perspectives: how coupled is the vegetation to the boundary layer?

Martin G. De Kauwe, Belinda E. Medlyn, Jürgen Knauer, and Christopher A. Williams

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Total article views: 4,809 (including HTML, PDF, and XML)

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2,898	1,755	156	4,809	165	214

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Views and downloads (calculated since 17 May 2017)

Month	HTML	PDF	XML	Total
May 2017	219	68	7	294
Jun 2017	62	25	11	98
Jul 2017	27	17	2	46
Aug 2017	12	13	0	25
Sep 2017	12	19	0	31
Oct 2017	267	120	3	390
Nov 2017	58	43	1	102
Dec 2017	23	25	2	50
Jan 2018	32	19	0	51
Feb 2018	30	20	0	50
Mar 2018	29	18	0	47
Apr 2018	19	16	4	39
May 2018	16	19	0	35
Jun 2018	21	27	0	48
Jul 2018	19	9	0	28
Aug 2018	18	15	0	33
Sep 2018	13	10	1	24
Oct 2018	19	12	0	31
Nov 2018	11	10	1	22
Dec 2018	15	15	1	31
Jan 2019	14	12	0	26
Feb 2019	5	5	1	11
Mar 2019	6	7	0	13
Apr 2019	25	8	1	34
May 2019	26	15	1	42
Jun 2019	8	12	0	20
Jul 2019	6	4	0	10
Aug 2019	8	4	0	12
Sep 2019	14	7	0	21
Oct 2019	24	10	1	35
Nov 2019	8	7	0	15
Dec 2019	7	6	1	14
Jan 2020	7	9	1	17
Feb 2020	12	8	1	21
Mar 2020	8	7	0	15
Apr 2020	6	3	2	11
May 2020	10	7	1	18
Jun 2020	17	11	2	30
Jul 2020	21	22	7	50
Aug 2020	14	9	2	25
Sep 2020	22	4	0	26
Oct 2020	18	13	3	34
Nov 2020	16	7	1	24
Dec 2020	40	18	1	59
Jan 2021	35	13	1	49
Feb 2021	34	25	2	61
Mar 2021	26	12	2	40
Apr 2021	27	14	2	43
May 2021	32	33	1	66
Jun 2021	19	8	1	28
Jul 2021	18	10	1	29
Aug 2021	17	12	1	30
Sep 2021	31	17	1	49
Oct 2021	13	32	0	45
Nov 2021	44	40	1	85
Dec 2021	24	32	2	58
Jan 2022	26	21	0	47
Feb 2022	15	17	1	33
Mar 2022	22	21	0	43
Apr 2022	29	21	2	52
May 2022	20	28	2	50
Jun 2022	23	16	2	41
Jul 2022	27	26	0	53
Aug 2022	25	16	0	41
Sep 2022	26	13	1	40
Oct 2022	22	16	2	40
Nov 2022	18	23	1	42
Dec 2022	18	14	1	33
Jan 2023	29	20	2	51
Feb 2023	28	9	2	39
Mar 2023	36	16	2	54
Apr 2023	29	5	1	35
May 2023	27	23	0	50
Jun 2023	17	11	2	30
Jul 2023	16	12	1	29
Aug 2023	17	16	4	37
Sep 2023	19	15	2	36
Oct 2023	19	11	1	31
Nov 2023	10	6	1	17
Dec 2023	35	7	2	44
Jan 2024	16	15	1	32
Feb 2024	12	15	0	27
Mar 2024	26	10	0	36
Apr 2024	27	8	3	38
May 2024	34	18	6	58
Jun 2024	28	9	3	40
Jul 2024	24	6	3	33
Aug 2024	46	10	4	60
Sep 2024	27	8	0	35
Oct 2024	26	6	1	33
Nov 2024	16	6	1	23
Dec 2024	18	18	0	36
Jan 2025	27	22	2	51
Feb 2025	53	10	0	63
Mar 2025	36	16	1	53
Apr 2025	49	22	0	71
May 2025	35	17	0	52
Jun 2025	49	12	0	61
Jul 2025	26	21	3	50
Aug 2025	43	21	1	65
Sep 2025	60	27	2	89
Oct 2025	35	34	5	74
Nov 2025	47	54	14	115
Dec 2025	1	4	0	5

Cumulative views and downloads (calculated since 17 May 2017)

Month	HTML	PDF	XML	Total
May 2017	219	68	7	294
Jun 2017	62	25	11	98
Jul 2017	27	17	2	46
Aug 2017	12	13	0	25
Sep 2017	12	19	0	31
Oct 2017	267	120	3	390
Nov 2017	58	43	1	102
Dec 2017	23	25	2	50
Jan 2018	32	19	0	51
Feb 2018	30	20	0	50
Mar 2018	29	18	0	47
Apr 2018	19	16	4	39
May 2018	16	19	0	35
Jun 2018	21	27	0	48
Jul 2018	19	9	0	28
Aug 2018	18	15	0	33
Sep 2018	13	10	1	24
Oct 2018	19	12	0	31
Nov 2018	11	10	1	22
Dec 2018	15	15	1	31
Jan 2019	14	12	0	26
Feb 2019	5	5	1	11
Mar 2019	6	7	0	13
Apr 2019	25	8	1	34
May 2019	26	15	1	42
Jun 2019	8	12	0	20
Jul 2019	6	4	0	10
Aug 2019	8	4	0	12
Sep 2019	14	7	0	21
Oct 2019	24	10	1	35
Nov 2019	8	7	0	15
Dec 2019	7	6	1	14
Jan 2020	7	9	1	17
Feb 2020	12	8	1	21
Mar 2020	8	7	0	15
Apr 2020	6	3	2	11
May 2020	10	7	1	18
Jun 2020	17	11	2	30
Jul 2020	21	22	7	50
Aug 2020	14	9	2	25
Sep 2020	22	4	0	26
Oct 2020	18	13	3	34
Nov 2020	16	7	1	24
Dec 2020	40	18	1	59
Jan 2021	35	13	1	49
Feb 2021	34	25	2	61
Mar 2021	26	12	2	40
Apr 2021	27	14	2	43
May 2021	32	33	1	66
Jun 2021	19	8	1	28
Jul 2021	18	10	1	29
Aug 2021	17	12	1	30
Sep 2021	31	17	1	49
Oct 2021	13	32	0	45
Nov 2021	44	40	1	85
Dec 2021	24	32	2	58
Jan 2022	26	21	0	47
Feb 2022	15	17	1	33
Mar 2022	22	21	0	43
Apr 2022	29	21	2	52
May 2022	20	28	2	50
Jun 2022	23	16	2	41
Jul 2022	27	26	0	53
Aug 2022	25	16	0	41
Sep 2022	26	13	1	40
Oct 2022	22	16	2	40
Nov 2022	18	23	1	42
Dec 2022	18	14	1	33
Jan 2023	29	20	2	51
Feb 2023	28	9	2	39
Mar 2023	36	16	2	54
Apr 2023	29	5	1	35
May 2023	27	23	0	50
Jun 2023	17	11	2	30
Jul 2023	16	12	1	29
Aug 2023	17	16	4	37
Sep 2023	19	15	2	36
Oct 2023	19	11	1	31
Nov 2023	10	6	1	17
Dec 2023	35	7	2	44
Jan 2024	16	15	1	32
Feb 2024	12	15	0	27
Mar 2024	26	10	0	36
Apr 2024	27	8	3	38
May 2024	34	18	6	58
Jun 2024	28	9	3	40
Jul 2024	24	6	3	33
Aug 2024	46	10	4	60
Sep 2024	27	8	0	35
Oct 2024	26	6	1	33
Nov 2024	16	6	1	23
Dec 2024	18	18	0	36
Jan 2025	27	22	2	51
Feb 2025	53	10	0	63
Mar 2025	36	16	1	53
Apr 2025	49	22	0	71
May 2025	35	17	0	52
Jun 2025	49	12	0	61
Jul 2025	26	21	3	50
Aug 2025	43	21	1	65
Sep 2025	60	27	2	89
Oct 2025	35	34	5	74
Nov 2025	47	54	14	115
Dec 2025	1	4	0	5

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Total article views: 4,809 (including HTML, PDF, and XML) Thereof 4,614 with geography defined and 195 with unknown origin.

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Latest update: 03 Dec 2025

Short summary

Understanding the sensitivity of transpiration to stomatal conductance is critical to simulating the water cycle. This sensitivity is a function of the degree of coupling between the vegetation and the atmosphere. We combined an extensive literature summary with estimates of coupling derived from FLUXNET data. We found notable departures from the values previously reported. These data form a model benchmarking metric to test existing coupling assumptions.


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