The regulation of coralline algal physiology, an in situ study of <i>Corallina officinalis</i> (Corallinales, Rhodophyta)

Williamson, Christopher James; Perkins, Rupert; Voller, Matthew; Yallop, Marian Louise; Brodie, Juliet

doi:10.5194/bg-14-4485-2017

Articles | Volume 14, issue 19

https://doi.org/10.5194/bg-14-4485-2017

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

https://doi.org/10.5194/bg-14-4485-2017

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

Articles | Volume 14, issue 19

Research article

|

12 Oct 2017

Research article |

| 12 Oct 2017

The regulation of coralline algal physiology, an in situ study of Corallina officinalis (Corallinales, Rhodophyta)

Christopher James Williamson, Rupert Perkins, Matthew Voller, Marian Louise Yallop, and Juliet Brodie

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May 2017	136	23	7	166
Jun 2017	28	5	9	42
Jul 2017	9	5	1	15
Aug 2017	15	6	0	21
Sep 2017	8	4	0	12
Oct 2017	114	45	4	163
Nov 2017	39	23	2	64
Dec 2017	16	11	1	28
Jan 2018	13	12	0	25
Feb 2018	16	7	0	23
Mar 2018	14	12	0	26
Apr 2018	4	9	1	14
May 2018	9	10	0	19
Jun 2018	13	12	0	25
Jul 2018	17	10	2	29
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Sep 2018	6	13	1	20
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Apr 2019	7	9	1	17
May 2019	8	7	0	15
Jun 2019	6	8	2	16
Jul 2019	2	7	0	9
Aug 2019	10	4	0	14
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Nov 2019	5	5	1	11
Dec 2019	5	2	1	8
Jan 2020	5	4	1	10
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Mar 2020	2	2	0	4
Apr 2020	8	6	3	17
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Jun 2020	14	9	1	24
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Oct 2020	14	10	2	26
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Jan 2021	25	8	1	34
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Jun 2022	12	2	1	15
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Jan 2023	7	10	0	17
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Mar 2023	18	21	0	39
Apr 2023	27	4	0	31
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Jun 2023	8	12	3	23
Jul 2023	6	8	0	14
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Jan 2024	8	10	2	20
Feb 2024	7	4	0	11
Mar 2024	19	30	4	53
Apr 2024	20	16	5	41
May 2024	14	15	3	32
Jun 2024	16	8	2	26
Jul 2024	24	11	3	38
Aug 2024	32	4	4	40
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Oct 2024	18	8	1	27
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Jan 2025	12	7	0	19
Feb 2025	9	16	0	25
Mar 2025	24	9	0	33
Apr 2025	15	18	0	33
May 2025	19	19	33	71
Jun 2025	48	18	5	71
Jul 2025	23	15	4	42
Aug 2025	13	20	3	36
Sep 2025	26	39	1	66
Oct 2025	31	32	3	66
Nov 2025	19	16	12	47

Cumulative views and downloads (calculated since 12 May 2017)

Month	HTML	PDF	XML	Total
May 2017	136	23	7	166
Jun 2017	28	5	9	42
Jul 2017	9	5	1	15
Aug 2017	15	6	0	21
Sep 2017	8	4	0	12
Oct 2017	114	45	4	163
Nov 2017	39	23	2	64
Dec 2017	16	11	1	28
Jan 2018	13	12	0	25
Feb 2018	16	7	0	23
Mar 2018	14	12	0	26
Apr 2018	4	9	1	14
May 2018	9	10	0	19
Jun 2018	13	12	0	25
Jul 2018	17	10	2	29
Aug 2018	17	17	2	36
Sep 2018	6	13	1	20
Oct 2018	10	8	0	18
Nov 2018	16	11	0	27
Dec 2018	17	9	0	26
Jan 2019	11	9	1	21
Feb 2019	3	7	0	10
Mar 2019	7	8	0	15
Apr 2019	7	9	1	17
May 2019	8	7	0	15
Jun 2019	6	8	2	16
Jul 2019	2	7	0	9
Aug 2019	10	4	0	14
Sep 2019	9	2	0	11
Oct 2019	5	5	1	11
Nov 2019	5	5	1	11
Dec 2019	5	2	1	8
Jan 2020	5	4	1	10
Feb 2020	9	5	0	14
Mar 2020	2	2	0	4
Apr 2020	8	6	3	17
May 2020	5	6	2	13
Jun 2020	14	9	1	24
Jul 2020	16	22	10	48
Aug 2020	7	10	3	20
Sep 2020	15	5	1	21
Oct 2020	14	10	2	26
Nov 2020	17	8	4	29
Dec 2020	23	6	1	30
Jan 2021	25	8	1	34
Feb 2021	15	13	2	30
Mar 2021	6	4	0	10
Apr 2021	12	8	0	20
May 2021	16	16	3	35
Jun 2021	4	8	1	13
Jul 2021	8	8	0	16
Aug 2021	11	14	0	25
Sep 2021	8	8	1	17
Oct 2021	3	31	0	34
Nov 2021	13	21	0	34
Dec 2021	13	7	1	21
Jan 2022	11	6	0	17
Feb 2022	6	7	1	14
Mar 2022	8	8	2	18
Apr 2022	13	8	1	22
May 2022	9	8	0	17
Jun 2022	12	2	1	15
Jul 2022	4	2	0	6
Aug 2022	10	7	0	17
Sep 2022	7	3	2	12
Oct 2022	14	8	2	24
Nov 2022	9	10	0	19
Dec 2022	13	11	0	24
Jan 2023	7	10	0	17
Feb 2023	10	9	2	21
Mar 2023	18	21	0	39
Apr 2023	27	4	0	31
May 2023	22	17	1	40
Jun 2023	8	12	3	23
Jul 2023	6	8	0	14
Aug 2023	4	4	2	10
Sep 2023	10	10	2	22
Oct 2023	21	9	2	32
Nov 2023	9	12	1	22
Dec 2023	10	8	1	19
Jan 2024	8	10	2	20
Feb 2024	7	4	0	11
Mar 2024	19	30	4	53
Apr 2024	20	16	5	41
May 2024	14	15	3	32
Jun 2024	16	8	2	26
Jul 2024	24	11	3	38
Aug 2024	32	4	4	40
Sep 2024	9	8	0	17
Oct 2024	18	8	1	27
Nov 2024	12	3	4	19
Dec 2024	13	7	1	21
Jan 2025	12	7	0	19
Feb 2025	9	16	0	25
Mar 2025	24	9	0	33
Apr 2025	15	18	0	33
May 2025	19	19	33	71
Jun 2025	48	18	5	71
Jul 2025	23	15	4	42
Aug 2025	13	20	3	36
Sep 2025	26	39	1	66
Oct 2025	31	32	3	66
Nov 2025	19	16	12	47

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Short summary

Red calcified seaweeds in UK rock pools have seasonal patterns in growth and photosynthesis driven by seawater temperature, light and the chemistry of rock pool water. This is important given future changes in environmental factors such as climate change and ocean acidification. Photosynthesis and calcification are strongly coupled and depend on light and temperature, whilst dissolution is regulated by rock pool water chemistry and is thus particularly vulnerable to environmental change.


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