Bottomland hardwood forest growth and stress response to hydroclimatic variation: evidence from dendrochronology and tree ring Δ<sup>13</sup>C values

Deshpande, Ajinkya G.; Boutton, Thomas W.; Hyodo, Ayumi; Lafon, Charles W.; Moore, Georgianne W.

doi:10.5194/bg-17-5639-2020

Articles | Volume 17, issue 22

https://doi.org/10.5194/bg-17-5639-2020

© Author(s) 2020. This work is distributed under
the Creative Commons Attribution 4.0 License.

https://doi.org/10.5194/bg-17-5639-2020

© Author(s) 2020. This work is distributed under
the Creative Commons Attribution 4.0 License.

Articles | Volume 17, issue 22

Research article

|

19 Nov 2020

Research article |

| 19 Nov 2020

Bottomland hardwood forest growth and stress response to hydroclimatic variation: evidence from dendrochronology and tree ring Δ¹³C values

Ajinkya G. Deshpande, Thomas W. Boutton, Ayumi Hyodo, Charles W. Lafon, and Georgianne W. Moore

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Total article views: 3,609 (including HTML, PDF, and XML)

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2,454	1,034	121	3,609	368	154	151

HTML: 2,454
PDF: 1,034
XML: 121
Total: 3,609
Supplement: 368
BibTeX: 154
EndNote: 151

Views and downloads (calculated since 28 Apr 2020)

Month	HTML	PDF	XML	Total
Apr 2020	66	19	2	87
May 2020	67	11	0	78
Jun 2020	52	8	0	60
Jul 2020	12	5	4	21
Aug 2020	16	9	2	27
Sep 2020	22	10	0	32
Oct 2020	33	4	1	38
Nov 2020	214	38	2	254
Dec 2020	88	34	2	124
Jan 2021	59	22	2	83
Feb 2021	25	7	0	32
Mar 2021	25	10	1	36
Apr 2021	28	10	0	38
May 2021	28	18	2	48
Jun 2021	19	11	0	30
Jul 2021	19	11	0	30
Aug 2021	15	16	0	31
Sep 2021	25	18	0	43
Oct 2021	15	32	0	47
Nov 2021	15	26	0	41
Dec 2021	16	14	0	30
Jan 2022	15	7	0	22
Feb 2022	9	8	1	18
Mar 2022	12	14	0	26
Apr 2022	14	11	0	25
May 2022	16	15	2	33
Jun 2022	9	11	2	22
Jul 2022	19	4	0	23
Aug 2022	100	9	0	109
Sep 2022	8	6	0	14
Oct 2022	45	9	1	55
Nov 2022	18	11	0	29
Dec 2022	15	11	0	26
Jan 2023	7	9	0	16
Feb 2023	28	12	3	43
Mar 2023	13	4	0	17
Apr 2023	14	12	1	27
May 2023	21	17	0	38
Jun 2023	8	6	1	15
Jul 2023	17	14	0	31
Aug 2023	14	11	2	27
Sep 2023	11	10	0	21
Oct 2023	20	11	1	32
Nov 2023	8	6	0	14
Dec 2023	24	8	2	34
Jan 2024	15	6	2	23
Feb 2024	12	11	1	24
Mar 2024	31	21	5	57
Apr 2024	28	14	2	44
May 2024	43	12	7	62
Jun 2024	45	13	3	61
Jul 2024	48	10	6	64
Aug 2024	39	9	4	52
Sep 2024	20	17	1	38
Oct 2024	31	13	1	45
Nov 2024	16	10	5	31
Dec 2024	27	5	1	33
Jan 2025	27	12	1	40
Feb 2025	30	9	2	41
Mar 2025	20	8	0	28
Apr 2025	45	16	0	61
May 2025	38	7	0	45
Jun 2025	65	17	1	83
Jul 2025	50	15	3	68
Aug 2025	46	14	2	62
Sep 2025	94	23	2	119
Oct 2025	40	23	2	65
Nov 2025	40	35	3	78
Dec 2025	79	29	17	125
Jan 2026	57	36	9	102
Feb 2026	73	29	1	103
Mar 2026	60	36	4	100
Apr 2026	11	15	2	28

Cumulative views and downloads (calculated since 28 Apr 2020)

Month	HTML	PDF	XML	Total
Apr 2020	66	19	2	87
May 2020	67	11	0	78
Jun 2020	52	8	0	60
Jul 2020	12	5	4	21
Aug 2020	16	9	2	27
Sep 2020	22	10	0	32
Oct 2020	33	4	1	38
Nov 2020	214	38	2	254
Dec 2020	88	34	2	124
Jan 2021	59	22	2	83
Feb 2021	25	7	0	32
Mar 2021	25	10	1	36
Apr 2021	28	10	0	38
May 2021	28	18	2	48
Jun 2021	19	11	0	30
Jul 2021	19	11	0	30
Aug 2021	15	16	0	31
Sep 2021	25	18	0	43
Oct 2021	15	32	0	47
Nov 2021	15	26	0	41
Dec 2021	16	14	0	30
Jan 2022	15	7	0	22
Feb 2022	9	8	1	18
Mar 2022	12	14	0	26
Apr 2022	14	11	0	25
May 2022	16	15	2	33
Jun 2022	9	11	2	22
Jul 2022	19	4	0	23
Aug 2022	100	9	0	109
Sep 2022	8	6	0	14
Oct 2022	45	9	1	55
Nov 2022	18	11	0	29
Dec 2022	15	11	0	26
Jan 2023	7	9	0	16
Feb 2023	28	12	3	43
Mar 2023	13	4	0	17
Apr 2023	14	12	1	27
May 2023	21	17	0	38
Jun 2023	8	6	1	15
Jul 2023	17	14	0	31
Aug 2023	14	11	2	27
Sep 2023	11	10	0	21
Oct 2023	20	11	1	32
Nov 2023	8	6	0	14
Dec 2023	24	8	2	34
Jan 2024	15	6	2	23
Feb 2024	12	11	1	24
Mar 2024	31	21	5	57
Apr 2024	28	14	2	44
May 2024	43	12	7	62
Jun 2024	45	13	3	61
Jul 2024	48	10	6	64
Aug 2024	39	9	4	52
Sep 2024	20	17	1	38
Oct 2024	31	13	1	45
Nov 2024	16	10	5	31
Dec 2024	27	5	1	33
Jan 2025	27	12	1	40
Feb 2025	30	9	2	41
Mar 2025	20	8	0	28
Apr 2025	45	16	0	61
May 2025	38	7	0	45
Jun 2025	65	17	1	83
Jul 2025	50	15	3	68
Aug 2025	46	14	2	62
Sep 2025	94	23	2	119
Oct 2025	40	23	2	65
Nov 2025	40	35	3	78
Dec 2025	79	29	17	125
Jan 2026	57	36	9	102
Feb 2026	73	29	1	103
Mar 2026	60	36	4	100
Apr 2026	11	15	2	28

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Short summary

Wetland forests in the southern USA are threatened by changing climate and human-induced pressures. We used tree ring widths and C isotopes as indicators of forest growth and physiological stress, respectively, and compared these to past climate data. We observed that vegetation growing in the drier patches is susceptible to stress, while vegetation growth and physiology in wetter patches is less sensitive to unfavorable environmental conditions, highlighting the importance of optimal wetness.

Bottomland hardwood forest growth and stress response to hydroclimatic variation: evidence from dendrochronology and tree ring Δ¹³C values

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Bottomland hardwood forest growth and stress response to hydroclimatic variation: evidence from dendrochronology and tree ring Δ13C values

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Bottomland hardwood forest growth and stress response to hydroclimatic variation: evidence from dendrochronology and tree ring Δ¹³C values