Technical note: A simple theoretical model framework to describe plant stomatal “sluggishness” in response to elevated ozone concentrations

Huntingford, Chris; Oliver, Rebecca J.; Mercado, Lina M.; Sitch, Stephen

doi:https://doi.org/10.5194/bg-15-5415-2018

Articles | Volume 15, issue 17

https://doi.org/10.5194/bg-15-5415-2018

© Author(s) 2018. This work is distributed under
the Creative Commons Attribution 4.0 License.

https://doi.org/10.5194/bg-15-5415-2018

© Author(s) 2018. This work is distributed under
the Creative Commons Attribution 4.0 License.

Articles | Volume 15, issue 17

Technical note

|

12 Sep 2018

Technical note |

| 12 Sep 2018

Technical note: A simple theoretical model framework to describe plant stomatal “sluggishness” in response to elevated ozone concentrations

Chris Huntingford, Rebecca J. Oliver, Lina M. Mercado, and Stephen Sitch

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Aug 2018	8	12	0	20
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Oct 2018	38	17	3	58
Nov 2018	25	20	3	48
Dec 2018	13	10	4	27
Jan 2019	15	15	2	32
Feb 2019	6	6	1	13
Mar 2019	20	10	2	32
Apr 2019	11	8	0	19
May 2019	25	11	0	36
Jun 2019	31	11	3	45
Jul 2019	7	9	2	18
Aug 2019	16	12	0	28
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Oct 2019	59	37	1	97
Nov 2019	14	4	0	18
Dec 2019	26	9	1	36
Jan 2020	90	8	1	99
Feb 2020	10	5	0	15
Mar 2020	21	16	2	39
Apr 2020	13	5	0	18
May 2020	23	6	1	30
Jun 2020	20	11	1	32
Jul 2020	16	20	2	38
Aug 2020	6	117	2	125
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Oct 2020	6	13	1	20
Nov 2020	17	24	0	41
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Aug 2021	5	10	0	15
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Jan 2022	18	12	0	30
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May 2022	5	9	0	14
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Aug 2022	34	10	1	45
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Oct 2022	10	7	1	18
Nov 2022	43	11	0	54
Dec 2022	42	9	1	52
Jan 2023	35	9	0	44
Feb 2023	39	8	1	48
Mar 2023	34	6	1	41
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Jun 2023	6	7	3	16
Jul 2023	3	9	0	12
Aug 2023	11	5	2	18
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Oct 2023	17	10	1	28
Nov 2023	5	0	5
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Cumulative views and downloads (calculated since 07 May 2018)

Month	HTML	PDF	XML	Total
May 2018	135	30	2	167
Jun 2018	41	13	0	54
Jul 2018	13	11	0	24
Aug 2018	8	12	0	20
Sep 2018	160	43	6	209
Oct 2018	38	17	3	58
Nov 2018	25	20	3	48
Dec 2018	13	10	4	27
Jan 2019	15	15	2	32
Feb 2019	6	6	1	13
Mar 2019	20	10	2	32
Apr 2019	11	8	0	19
May 2019	25	11	0	36
Jun 2019	31	11	3	45
Jul 2019	7	9	2	18
Aug 2019	16	12	0	28
Sep 2019	13	8	0	21
Oct 2019	59	37	1	97
Nov 2019	14	4	0	18
Dec 2019	26	9	1	36
Jan 2020	90	8	1	99
Feb 2020	10	5	0	15
Mar 2020	21	16	2	39
Apr 2020	13	5	0	18
May 2020	23	6	1	30
Jun 2020	20	11	1	32
Jul 2020	16	20	2	38
Aug 2020	6	117	2	125
Sep 2020	19	74	2	95
Oct 2020	6	13	1	20
Nov 2020	17	24	0	41
Dec 2020	12	12	1	25
Jan 2021	23	17	1	41
Feb 2021	17	9	1	27
Mar 2021	13	12	1	26
Apr 2021	7	8	2	17
May 2021	11	9	0	20
Jun 2021	10	7	0	17
Jul 2021	6	7	0	13
Aug 2021	5	10	0	15
Sep 2021	10	11	0	21
Oct 2021	6	15	0	21
Nov 2021	13	30	3	46
Dec 2021	15	17	0	32
Jan 2022	18	12	0	30
Feb 2022	13	5	2	20
Mar 2022	10	15	2	27
Apr 2022	21	12	2	35
May 2022	5	9	0	14
Jun 2022	8	8	1	17
Jul 2022	11	8	0	19
Aug 2022	34	10	1	45
Sep 2022	9	7	2	18
Oct 2022	10	7	1	18
Nov 2022	43	11	0	54
Dec 2022	42	9	1	52
Jan 2023	35	9	0	44
Feb 2023	39	8	1	48
Mar 2023	34	6	1	41
Apr 2023	15	2	0	17
May 2023	7	9	0	16
Jun 2023	6	7	3	16
Jul 2023	3	9	0	12
Aug 2023	11	5	2	18
Sep 2023	10	3	0	13
Oct 2023	17	10	1	28
Nov 2023	5	0	5
Dec 2023	50	3	0	53
Jan 2024	14	4	1	19
Feb 2024	8	6	0	14
Mar 2024	12	7	2	21
Apr 2024	16	9	1	26

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Short summary

Raised ozone levels impact plant stomatal opening and thus photosynthesis. Most models describe this as a suppression of stomata opening. Field evidence suggests more complexity, as ozone damage may make stomatal response sluggish. In some circumstances, this causes stomata to be more open – a concern during drought conditions – by increasing transpiration. To guide interpretation and modelling of field measurements, we present an equation for sluggish effects, via a single tau parameter.

Technical note: A simple theoretical model framework to describe plant stomatal “sluggishness” in response to elevated ozone concentrations

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Cited

6 citations as recorded by crossref.

6 citations as recorded by crossref.


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