Detecting climatically driven phylogenetic and morphological divergence among spruce (<i>Picea</i>) species worldwide

Wang, Guo-Hong; Li, He; Zhao, Hai-Wei; Zhang, Wei-Kang

doi:10.5194/bg-14-2307-2017

Articles | Volume 14, issue 9

https://doi.org/10.5194/bg-14-2307-2017

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

Special issue:

Ecosystem processes and functioning across current and future...

https://doi.org/10.5194/bg-14-2307-2017

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

Articles | Volume 14, issue 9

Research article

|

05 May 2017

Research article |

| 05 May 2017

Detecting climatically driven phylogenetic and morphological divergence among spruce (Picea) species worldwide

Guo-Hong Wang, He Li, Hai-Wei Zhao, and Wei-Kang Zhang

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Month	HTML	PDF	XML	Total
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Jan 2017	23	1	0	24
Feb 2017	21	3	2	26
Mar 2017	40	6	8	54
Apr 2017	48	5	2	55
May 2017	167	38	19	224
Jun 2017	45	22	4	71
Jul 2017	19	12	2	33
Aug 2017	14	13	3	30
Sep 2017	20	20	0	40
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Dec 2017	13	13	0	26
Jan 2018	8	8	0	16
Feb 2018	6	13	1	20
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Oct 2018	6	9	0	15
Nov 2018	11	8	0	19
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Jan 2019	9	18	0	27
Feb 2019	5	6	0	11
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Jul 2020	14	17	5	36
Aug 2020	2	6	3	11
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Feb 2025	20	11	3	34
Mar 2025	18	5	2	25
Apr 2025	25	11	0	36
May 2025	15	11	1	27
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Nov 2025	24	20	17	61
Dec 2025	32	15	7	54
Jan 2026	39	19	4	62
Feb 2026	23	6	2	31
Mar 2026	25	29	5	59
Apr 2026	29	27	6	62
May 2026	20	11	10	41
Jun 2026	4	1	5

Cumulative views and downloads (calculated since 02 Nov 2016)

Month	HTML	PDF	XML	Total
Nov 2016	40	14	1	55
Dec 2016	21	5	0	26
Jan 2017	23	1	0	24
Feb 2017	21	3	2	26
Mar 2017	40	6	8	54
Apr 2017	48	5	2	55
May 2017	167	38	19	224
Jun 2017	45	22	4	71
Jul 2017	19	12	2	33
Aug 2017	14	13	3	30
Sep 2017	20	20	0	40
Oct 2017	12	14	0	26
Nov 2017	11	18	0	29
Dec 2017	13	13	0	26
Jan 2018	8	8	0	16
Feb 2018	6	13	1	20
Mar 2018	10	10	1	21
Apr 2018	11	12	0	23
May 2018	7	14	1	22
Jun 2018	8	19	0	27
Jul 2018	11	8	1	20
Aug 2018	21	16	2	39
Sep 2018	7	13	0	20
Oct 2018	6	9	0	15
Nov 2018	11	8	0	19
Dec 2018	7	12	0	19
Jan 2019	9	18	0	27
Feb 2019	5	6	0	11
Mar 2019	6	15	0	21
Apr 2019	5	8	0	13
May 2019	13	12	0	25
Jun 2019	8	10	0	18
Jul 2019	4	13	0	17
Aug 2019	5	13	0	18
Sep 2019	5	13	0	18
Oct 2019	9	13	1	23
Nov 2019	8	11	0	19
Dec 2019	6	7	0	13
Jan 2020	12	14	3	29
Feb 2020	4	2	0	6
Mar 2020	8	7	0	15
Apr 2020	4	5	2	11
May 2020	4	2	6
Jun 2020	15	10	9	34
Jul 2020	14	17	5	36
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Oct 2020	10	12	2	24
Nov 2020	6	4	1	11
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Jan 2021	18	9	1	28
Feb 2021	14	6	1	21
Mar 2021	19	3	1	23
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Jul 2021	24	5	0	29
Aug 2021	38	5	2	45
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Oct 2021	26	36	0	62
Nov 2021	47	27	0	74
Dec 2021	58	3	1	62
Jan 2022	46	5	0	51
Feb 2022	50	4	2	56
Mar 2022	55	7	1	63
Apr 2022	48	8	1	57
May 2022	42	2	0	44
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Jul 2022	38	4	0	42
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Apr 2023	26	10	1	37
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Jun 2023	9	6	0	15
Jul 2023	15	7	1	23
Aug 2023	32	21	3	56
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Feb 2024	6	6	0	12
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Apr 2024	19	6	5	30
May 2024	21	9	2	32
Jun 2024	18	4	2	24
Jul 2024	23	6	5	34
Aug 2024	31	8	2	41
Sep 2024	6	4	0	10
Oct 2024	13	12	1	26
Nov 2024	7	1	1	9
Dec 2024	14	8	2	24
Jan 2025	11	7	2	20
Feb 2025	20	11	3	34
Mar 2025	18	5	2	25
Apr 2025	25	11	0	36
May 2025	15	11	1	27
Jun 2025	34	13	0	47
Jul 2025	13	15	2	30
Aug 2025	22	17	1	40
Sep 2025	41	18	1	60
Oct 2025	11	22	1	34
Nov 2025	24	20	17	61
Dec 2025	32	15	7	54
Jan 2026	39	19	4	62
Feb 2026	23	6	2	31
Mar 2026	25	29	5	59
Apr 2026	29	27	6	62
May 2026	20	11	10	41
Jun 2026	4	1	5

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Short summary

Spruces worldwide have been classified into groups based on morphological similarity and phylogenetic affinity. However, climatic influences on the divergence of spruces remain unknown. Using data from 3388 sites of spruces worldwide, we found that temperature parameters and precipitation parameters tended to be the main driving factors for the primary divergence of spruce phylogeny and morphology, respectively.