Land-use changes influence soil bacterial communities in a meadow grassland in Northeast China

Cao, Chengyou; Zhang, Ying; Qian, Wei; Liang, Caiping; Wang, Congmin; Tao, Shuang

doi:10.5194/se-8-1119-2017

Articles | Volume 8, issue 5

https://doi.org/10.5194/se-8-1119-2017

© Author(s) 2017. This work is distributed under
the Creative Commons Attribution 4.0 License.

https://doi.org/10.5194/se-8-1119-2017

© Author(s) 2017. This work is distributed under
the Creative Commons Attribution 4.0 License.

Articles | Volume 8, issue 5

Research article

|

26 Oct 2017

Research article |

| 26 Oct 2017

Land-use changes influence soil bacterial communities in a meadow grassland in Northeast China

Chengyou Cao, Ying Zhang, Wei Qian, Caiping Liang, Congmin Wang, and Shuang Tao

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Dec 2017	171	30	2	203
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Jul 2019	14	12	0	26
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Dec 2022	16	5	1	22
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Jan 2025	16	11	2	29
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Mar 2025	23	6	2	31
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Jun 2025	45	33	0	78
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Oct 2025	37	38	2	77
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Cumulative views and downloads (calculated since 19 Jul 2017)

Month	HTML	PDF	XML	Total
Jul 2017	65	12	3	80
Aug 2017	55	8	1	64
Sep 2017	18	2	1	21
Oct 2017	44	14	2	60
Nov 2017	80	28	1	109
Dec 2017	171	30	2	203
Jan 2018	15	18	0	33
Feb 2018	24	17	1	42
Mar 2018	14	11	2	27
Apr 2018	11	14	0	25
May 2018	9	15	0	24
Jun 2018	8	25	0	33
Jul 2018	6	13	1	20
Aug 2018	16	12	0	28
Sep 2018	10	10	0	20
Oct 2018	8	9	0	17
Nov 2018	11	14	1	26
Dec 2018	12	11	0	23
Jan 2019	10	18	0	28
Feb 2019	9	12	1	22
Mar 2019	2	12	1	15
Apr 2019	10	15	0	25
May 2019	6	7	1	14
Jun 2019	8	10	0	18
Jul 2019	14	12	0	26
Aug 2019	7	11	1	19
Sep 2019	8	13	0	21
Oct 2019	11	9	0	20
Nov 2019	14	11	0	25
Dec 2019	7	10	0	17
Jan 2020	8	15	3	26
Feb 2020	8	4	0	12
Mar 2020	8	4	0	12
Apr 2020	11	15	1	27
May 2020	13	8	0	21
Jun 2020	35	36	1	72
Jul 2020	62	96	43	201
Aug 2020	8	7	2	17
Sep 2020	7	4	3	14
Oct 2020	7	9	4	20
Nov 2020	6	9	0	15
Dec 2020	11	4	4	19
Jan 2021	19	9	4	32
Feb 2021	7	9	3	19
Mar 2021	19	4	3	26
Apr 2021	8	9	0	17
May 2021	14	10	1	25
Jun 2021	11	10	0	21
Jul 2021	8	7	0	15
Aug 2021	5	5	1	11
Sep 2021	21	11	0	32
Oct 2021	15	38	1	54
Nov 2021	17	33	0	50
Dec 2021	13	8	0	21
Jan 2022	15	12	1	28
Feb 2022	9	7	1	17
Mar 2022	10	10	1	21
Apr 2022	10	9	2	21
May 2022	16	8	2	26
Jun 2022	15	9	2	26
Jul 2022	10	4	1	15
Aug 2022	10	5	1	16
Sep 2022	11	3	0	14
Oct 2022	8	2	0	10
Nov 2022	30	12	2	44
Dec 2022	16	5	1	22
Jan 2023	8	6	1	15
Feb 2023	14	7	1	22
Mar 2023	21	5	1	27
Apr 2023	23	7	2	32
May 2023	25	8	3	36
Jun 2023	8	7	1	16
Jul 2023	8	5	0	13
Aug 2023	6	3	1	10
Sep 2023	7	12	3	22
Oct 2023	32	9	3	44
Nov 2023	45	4	3	52
Dec 2023	17	15	3	35
Jan 2024	15	5	5	25
Feb 2024	5	8	2	15
Mar 2024	16	12	2	30
Apr 2024	25	14	10	49
May 2024	24	12	4	40
Jun 2024	20	10	2	32
Jul 2024	27	9	2	38
Aug 2024	19	12	1	32
Sep 2024	12	5	0	17
Oct 2024	21	7	1	29
Nov 2024	13	14	0	27
Dec 2024	14	6	0	20
Jan 2025	16	11	2	29
Feb 2025	27	11	0	38
Mar 2025	23	6	2	31
Apr 2025	15	11	2	28
May 2025	18	11	1	30
Jun 2025	45	33	0	78
Jul 2025	26	17	2	45
Aug 2025	22	23	0	45
Sep 2025	43	19	0	62
Oct 2025	37	38	2	77
Nov 2025	30	11	2	43

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Short summary

The influences of land-use conversion on soil properties and bacterial communities were assessed. Diversity was detected in four distinct land-use systems through high-throughput sequencing. Land-use changes affected soil properties and bacterial community structures. The microbial dominant taxa were unchanged, but their relative abundances were significantly different, indicating that the effects of land-use conversion on bacterial communities were more quantitative than qualitative.


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