Alteration of nitrous oxide emissions from floodplain soils by aggregate size, litter accumulation and plant–soil interactions

Ley, Martin; Lehmann, Moritz F.; Niklaus, Pascal A.; Luster, Jörg

doi:https://doi.org/10.5194/bg-15-7043-2018

Articles | Volume 15, issue 22

https://doi.org/10.5194/bg-15-7043-2018

© Author(s) 2018. This work is distributed under
the Creative Commons Attribution 4.0 License.

https://doi.org/10.5194/bg-15-7043-2018

© Author(s) 2018. This work is distributed under
the Creative Commons Attribution 4.0 License.

Articles | Volume 15, issue 22

Research article

|

27 Nov 2018

Research article |

| 27 Nov 2018

Alteration of nitrous oxide emissions from floodplain soils by aggregate size, litter accumulation and plant–soil interactions

Martin Ley, Moritz F. Lehmann, Pascal A. Niklaus, and Jörg Luster

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Dec 2018	159	18	5	182
Jan 2019	23	12	0	35
Feb 2019	17	7	0	24
Mar 2019	17	16	0	33
Apr 2019	16	8	0	24
May 2019	28	15	0	43
Jun 2019	30	16	0	46
Jul 2019	13	10	0	23
Aug 2019	9	8	0	17
Sep 2019	14	21	2	37
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Feb 2020	14	8	2	24
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Apr 2020	18	6	0	24
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Jun 2020	23	11	1	35
Jul 2020	18	21	3	42
Aug 2020	9	8	3	20
Sep 2020	19	11	1	31
Oct 2020	21	11	2	34
Nov 2020	15	14	0	29
Dec 2020	11	13	1	25
Jan 2021	26	16	1	43
Feb 2021	13	14	1	28
Mar 2021	22	15	0	37
Apr 2021	17	15	2	34
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Aug 2021	8	12	0	20
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Jul 2022	42	4	1	47
Aug 2022	99	4	0	103
Sep 2022	21	14	2	37
Oct 2022	21	7	2	30
Nov 2022	41	8	0	49
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Feb 2025	33	3	2	38
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Apr 2025	27	12	1	40
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Short summary

Our laboratory study shows how microhabitat formation linked to soil aggregates, litter accumulation and plant soil interactions affects conditions under which hot moments of enhanced N₂O emissions from floodplain soils during the drying phase after saturation occur. Larger aggregate size led to higher integrated flux rates when soil was unamended or mixed with leaf litter, whereas planting with willow significantly reduced emissions. Also, emission time patterns differed among the treatments.

Alteration of nitrous oxide emissions from floodplain soils by aggregate size, litter accumulation and plant–soil interactions

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14 citations as recorded by crossref.


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