Greenhouse gas emissions and surface water management

Motelica-Wagenaar, Anne Marieke; Beemster, Jos

doi:https://doi.org/10.5194/piahs-382-643-2020

Articles | Volume 382

https://doi.org/10.5194/piahs-382-643-2020

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

https://doi.org/10.5194/piahs-382-643-2020

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

Articles | Volume 382

Pre-conference publication

|

22 Apr 2020

Pre-conference publication |

| 22 Apr 2020

Greenhouse gas emissions and surface water management

Anne Marieke Motelica-Wagenaar and Jos Beemster

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Total article views: 3,416 (including HTML, PDF, and XML)

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Apr 2020	27	23	1	51
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Jun 2020	47	25	1	73
Jul 2020	68	21	12	101
Aug 2020	73	3	2	78
Sep 2020	72	8	0	80
Oct 2020	63	4	1	68
Nov 2020	61	4	0	65
Dec 2020	71	8	0	79
Jan 2021	69	11	0	80
Feb 2021	57	4	0	61
Mar 2021	65	2	0	67
Apr 2021	69	4	0	73
May 2021	75	7	0	82
Jun 2021	63	7	0	70
Jul 2021	68	3	0	71
Aug 2021	63	6	0	69
Sep 2021	60	8	0	68
Oct 2021	60	17	0	77
Nov 2021	66	15	0	81
Dec 2021	69	4	0	73
Jan 2022	56	11	0	67
Feb 2022	47	7	1	55
Mar 2022	58	5	0	63
Apr 2022	41	4	1	46
May 2022	48	2	0	50
Jun 2022	47	2	0	49
Jul 2022	49	2	0	51
Aug 2022	40	6	0	46
Sep 2022	39	3	0	42
Oct 2022	33	1	1	35
Nov 2022	32	7	0	39
Dec 2022	36	3	0	39
Jan 2023	31	4	0	35
Feb 2023	35	5	0	40
Mar 2023	47	2	0	49
Apr 2023	53	4	0	57
May 2023	34	5	0	39
Jun 2023	32	15	1	48
Jul 2023	33	11	2	46
Aug 2023	36	10	1	47
Sep 2023	45	12	1	58
Oct 2023	35	3	1	39
Nov 2023	21	1	0	22
Dec 2023	29	1	0	30
Jan 2024	44	2	1	47
Feb 2024	36	2	0	38
Mar 2024	41	5	0	46
Apr 2024	36	5	3	44
May 2024	40	4	3	47
Jun 2024	44	5	2	51
Jul 2024	59	3	1	63
Aug 2024	85	2	2	89
Sep 2024	65	2	0	67
Oct 2024	64	5	2	71
Nov 2024	67	3	1	71
Dec 2024	55	3	1	59
Jan 2025	67	1	1	69
Feb 2025	26	5	0	31
Mar 2025	15	7	0	22

Cumulative views and downloads (calculated since 22 Apr 2020)

Month	HTML	PDF	XML	Total
Apr 2020	27	23	1	51
May 2020	31	10	1	42
Jun 2020	47	25	1	73
Jul 2020	68	21	12	101
Aug 2020	73	3	2	78
Sep 2020	72	8	0	80
Oct 2020	63	4	1	68
Nov 2020	61	4	0	65
Dec 2020	71	8	0	79
Jan 2021	69	11	0	80
Feb 2021	57	4	0	61
Mar 2021	65	2	0	67
Apr 2021	69	4	0	73
May 2021	75	7	0	82
Jun 2021	63	7	0	70
Jul 2021	68	3	0	71
Aug 2021	63	6	0	69
Sep 2021	60	8	0	68
Oct 2021	60	17	0	77
Nov 2021	66	15	0	81
Dec 2021	69	4	0	73
Jan 2022	56	11	0	67
Feb 2022	47	7	1	55
Mar 2022	58	5	0	63
Apr 2022	41	4	1	46
May 2022	48	2	0	50
Jun 2022	47	2	0	49
Jul 2022	49	2	0	51
Aug 2022	40	6	0	46
Sep 2022	39	3	0	42
Oct 2022	33	1	1	35
Nov 2022	32	7	0	39
Dec 2022	36	3	0	39
Jan 2023	31	4	0	35
Feb 2023	35	5	0	40
Mar 2023	47	2	0	49
Apr 2023	53	4	0	57
May 2023	34	5	0	39
Jun 2023	32	15	1	48
Jul 2023	33	11	2	46
Aug 2023	36	10	1	47
Sep 2023	45	12	1	58
Oct 2023	35	3	1	39
Nov 2023	21	1	0	22
Dec 2023	29	1	0	30
Jan 2024	44	2	1	47
Feb 2024	36	2	0	38
Mar 2024	41	5	0	46
Apr 2024	36	5	3	44
May 2024	40	4	3	47
Jun 2024	44	5	2	51
Jul 2024	59	3	1	63
Aug 2024	85	2	2	89
Sep 2024	65	2	0	67
Oct 2024	64	5	2	71
Nov 2024	67	3	1	71
Dec 2024	55	3	1	59
Jan 2025	67	1	1	69
Feb 2025	26	5	0	31
Mar 2025	15	7	0	22

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Short summary

In this paper, greenhouse gas emissions due to peat oxidation were calculated for four different policy scenario's and with four different calculation methods in two polders of the Water Authority Amstel, Gooi and Vecht (the Netherlands). Outcomes depend on calculation methods and assumptions made. The scenario subsurface irrigation by submerged drains lead to lowest greenhouse gas emissions in this study (it was assumed that subsurface irrigation halves soil subsidence).


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