Soil nutrient contents and stoichiometry within aggregate size classes varied with tea plantation age  and soil depth in southern Guangxi in China

Mao, Ling; Ye, Shaoming; Wang, Shengqiang

doi:10.5194/soil-8-487-2022

Articles | Volume 8, issue 2

https://doi.org/10.5194/soil-8-487-2022

© Author(s) 2022. This work is distributed under
the Creative Commons Attribution 4.0 License.

https://doi.org/10.5194/soil-8-487-2022

© Author(s) 2022. This work is distributed under
the Creative Commons Attribution 4.0 License.

Articles | Volume 8, issue 2

Original research article

|

28 Jul 2022

Original research article |

| 28 Jul 2022

Soil nutrient contents and stoichiometry within aggregate size classes varied with tea plantation age and soil depth in southern Guangxi in China

Ling Mao, Shaoming Ye, and Shengqiang Wang

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Month	HTML	PDF	XML	Total
Feb 2022	106	25	5	136
Mar 2022	126	17	4	147
Apr 2022	94	19	6	119
May 2022	107	24	7	138
Jun 2022	36	8	1	45
Jul 2022	104	19	4	127
Aug 2022	240	44	3	287
Sep 2022	88	26	3	117
Oct 2022	53	21	5	79
Nov 2022	73	17	2	92
Dec 2022	32	8	1	41
Jan 2023	22	10	1	33
Feb 2023	31	28	2	61
Mar 2023	51	12	0	63
Apr 2023	26	19	3	48
May 2023	25	13	3	41
Jun 2023	19	10	1	30
Jul 2023	21	25	0	46
Aug 2023	24	12	2	38
Sep 2023	31	19	1	51
Oct 2023	31	15	1	47
Nov 2023	20	6	0	26
Dec 2023	15	18	2	35
Jan 2024	41	3	1	45
Feb 2024	64	16	1	81
Mar 2024	83	27	0	110
Apr 2024	68	13	1	82
May 2024	40	15	2	57
Jun 2024	110	13	3	126
Jul 2024	40	5	1	46
Aug 2024	50	10	1	61
Sep 2024	100	4	3	107
Oct 2024	74	10	3	87
Nov 2024	97	13	1	111
Dec 2024	50	10	1	61
Jan 2025	79	14	5	98
Feb 2025	98	14	0	112
Mar 2025	63	7	2	72
Apr 2025	47	14	0	61
May 2025	76	8	2	86
Jun 2025	114	37	0	151
Jul 2025	34	19	1	54
Aug 2025	49	9	1	59
Sep 2025	117	19	7	143
Oct 2025	62	42	4	108
Nov 2025	56	32	3	91
Dec 2025	73	33	4	110
Jan 2026	90	30	9	129
Feb 2026	77	25	3	105
Mar 2026	84	22	7	113
Apr 2026	105	34	12	151
May 2026	91	20	4	115
Jun 2026	12	8	0	20

Cumulative views and downloads (calculated since 18 Feb 2022)

Month	HTML	PDF	XML	Total
Feb 2022	106	25	5	136
Mar 2022	126	17	4	147
Apr 2022	94	19	6	119
May 2022	107	24	7	138
Jun 2022	36	8	1	45
Jul 2022	104	19	4	127
Aug 2022	240	44	3	287
Sep 2022	88	26	3	117
Oct 2022	53	21	5	79
Nov 2022	73	17	2	92
Dec 2022	32	8	1	41
Jan 2023	22	10	1	33
Feb 2023	31	28	2	61
Mar 2023	51	12	0	63
Apr 2023	26	19	3	48
May 2023	25	13	3	41
Jun 2023	19	10	1	30
Jul 2023	21	25	0	46
Aug 2023	24	12	2	38
Sep 2023	31	19	1	51
Oct 2023	31	15	1	47
Nov 2023	20	6	0	26
Dec 2023	15	18	2	35
Jan 2024	41	3	1	45
Feb 2024	64	16	1	81
Mar 2024	83	27	0	110
Apr 2024	68	13	1	82
May 2024	40	15	2	57
Jun 2024	110	13	3	126
Jul 2024	40	5	1	46
Aug 2024	50	10	1	61
Sep 2024	100	4	3	107
Oct 2024	74	10	3	87
Nov 2024	97	13	1	111
Dec 2024	50	10	1	61
Jan 2025	79	14	5	98
Feb 2025	98	14	0	112
Mar 2025	63	7	2	72
Apr 2025	47	14	0	61
May 2025	76	8	2	86
Jun 2025	114	37	0	151
Jul 2025	34	19	1	54
Aug 2025	49	9	1	59
Sep 2025	117	19	7	143
Oct 2025	62	42	4	108
Nov 2025	56	32	3	91
Dec 2025	73	33	4	110
Jan 2026	90	30	9	129
Feb 2026	77	25	3	105
Mar 2026	84	22	7	113
Apr 2026	105	34	12	151
May 2026	91	20	4	115
Jun 2026	12	8	0	20

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Short summary

Soil ecological stoichiometry offers a tool to explore the distribution, cycling, limitation, and balance of chemical elements. This study improved the understanding of soil organic carbon and nutrient dynamics in tea plantation ecosystems and also provided supplementary information for soil ecological stoichiometry in global terrestrial ecosystems.