Urbanisation-related land use change from forest and pasture into turf grass modifies soil nitrogen cycling and increases N<sub>2</sub>O emissions

van Delden, Lona; Rowlings, David W.; Scheer, Clemens; Grace, Peter R.

doi:https://doi.org/10.5194/bg-13-6095-2016

Articles | Volume 13, issue 21

https://doi.org/10.5194/bg-13-6095-2016

© Author(s) 2016. This work is distributed under
the Creative Commons Attribution 3.0 License.

https://doi.org/10.5194/bg-13-6095-2016

© Author(s) 2016. This work is distributed under
the Creative Commons Attribution 3.0 License.

Articles | Volume 13, issue 21

Research article

|

07 Nov 2016

Research article |

| 07 Nov 2016

Urbanisation-related land use change from forest and pasture into turf grass modifies soil nitrogen cycling and increases N₂O emissions

Lona van Delden, David W. Rowlings, Clemens Scheer, and Peter R. Grace

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Jan 2017	19	10	0	29
Feb 2017	8	6	0	14
Mar 2017	25	16	2	43
Apr 2017	36	20	1	57
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Nov 2017	6	6	0	12
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Feb 2018	7	7	0	14
Mar 2018	9	11	1	21
Apr 2018	7	7	0	14
May 2018	13	12	0	25
Jun 2018	8	7	0	15
Jul 2018	7	6	0	13
Aug 2018	11	6	0	17
Sep 2018	4	5	0	9
Oct 2018	7	6	0	13
Nov 2018	10	6	0	16
Dec 2018	9	7	0	16
Jan 2019	10	11	0	21
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Jan 2020	5	12	1	18
Feb 2020	6	8	0	14
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Apr 2020	5	9	2	16
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Aug 2021	12	9	0	21
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May 2022	17	9	2	28
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Jul 2022	7	7	0	14
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Jan 2023	5	10	0	15
Feb 2023	16	11	1	28
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Apr 2023	24	16	3	43
May 2023	30	14	1	45
Jun 2023	34	7	2	43
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Aug 2023	15	6	4	25
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Dec 2023	11	0	11
Jan 2024	9	3	1	13
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Cumulative views and downloads (calculated since 31 May 2016)

Month	HTML	PDF	XML	Total
May 2016	38	5	0	43
Jun 2016	34	14	0	48
Jul 2016	19	2	0	21
Aug 2016	22	2	0	24
Sep 2016	5	3	0	8
Oct 2016	4	4	0	8
Nov 2016	59	21	0	80
Dec 2016	9	4	1	14
Jan 2017	19	10	0	29
Feb 2017	8	6	0	14
Mar 2017	25	16	2	43
Apr 2017	36	20	1	57
May 2017	36	25	3	64
Jun 2017	28	13	0	41
Jul 2017	17	13	1	31
Aug 2017	8	10	1	19
Sep 2017	13	11	0	24
Oct 2017	4	5	0	9
Nov 2017	6	6	0	12
Dec 2017	6	9	0	15
Jan 2018	5	6	0	11
Feb 2018	7	7	0	14
Mar 2018	9	11	1	21
Apr 2018	7	7	0	14
May 2018	13	12	0	25
Jun 2018	8	7	0	15
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Aug 2018	11	6	0	17
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Oct 2018	7	6	0	13
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Jul 2019	3	7	0	10
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Aug 2020	7	11	3	21
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Jun 2021	10	7	0	17
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Feb 2023	16	11	1	28
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Apr 2023	24	16	3	43
May 2023	30	14	1	45
Jun 2023	34	7	2	43
Jul 2023	10	9	0	19
Aug 2023	15	6	4	25
Sep 2023	16	7	0	23
Oct 2023	18	4	2	24
Nov 2023	9	1	0	10
Dec 2023	11	0	11
Jan 2024	9	3	1	13
Feb 2024	11	3	1	15
Mar 2024	19	11	3	33
Apr 2024	6	5	1	12

Cited

Latest update: 18 Apr 2024

Short summary

Urbanisation is becoming increasingly important in terms of climate change and ecosystem functionality worldwide. Temperate turf grass lawns in peri-urban environments have been identified as strong greenhouse gas emitters, even comparable to intensive agriculture. Conversely, this study identified subtropical turf grass as reducing greenhouse gas emissions significantly shortly after an initial establishment phase, despite changing nitrogen cycling in peri-urban soils.

Urbanisation-related land use change from forest and pasture into turf grass modifies soil nitrogen cycling and increases N₂O emissions

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Cited

14 citations as recorded by crossref.

14 citations as recorded by crossref.

Urbanisation-related land use change from forest and pasture into turf grass modifies soil nitrogen cycling and increases N2O emissions

Viewed

Cited

14 citations as recorded by crossref.

14 citations as recorded by crossref.

Urbanisation-related land use change from forest and pasture into turf grass modifies soil nitrogen cycling and increases N₂O emissions