Nitrate availability modulates the temperature effect on N2O and N2 production from denitrification
Nitrate availability modulates the temperature effect on N2O and N2 production from denitrification
Nitrous oxide (N2O) can be both produced and subsequently reduced to dinitrogen gas (N2) via canonical denitrification, making the balance between these steps a key control on the net flux of this potent climate gas. Through a meta-analysis, we showed that net N2O and N2 production from denitrification respond differently to temperature, exhibiting distinct temperature sensitivities. In addition, nitrate availability plays a critical role in regulating this balance, yet only few studies have examined the combined effects of temperature and nitrate availability in natural sediments. Using 15N-isotope labelling and anoxic sediment incubations, we found that temperature effects on N2O and N2 production from denitrification were evident only under high nitrate levels (100 μM), while no significant temperature response occurred under low nitrate concentration (10 μM). At high nitrate availability, N2 production increased at higher temperatures, whereas net N2O production declined, leading to a lower production ratio of N2O to N2 at warmer temperatures. These findings suggest that in nitrogen-limited ecosystems, substrate availability plays a stronger role than temperature in regulating denitrification. More broadly, they provide insights into how nutrient loading and climate warming interact to shape nitrogen cycling and greenhouse gas emissions in aquatic ecosystems.
Nitrogen cycling, Nitrous Oxide, Denitrification
Si, Yueyue
da0cbb1d-cec8-426a-b537-4c7d4e2c1ef0
Trimmer, Mark
83fba752-2cde-4c59-8581-201ede2e30ae
7 September 2025
Si, Yueyue
da0cbb1d-cec8-426a-b537-4c7d4e2c1ef0
Trimmer, Mark
83fba752-2cde-4c59-8581-201ede2e30ae
Si, Yueyue and Trimmer, Mark
(2025)
Nitrate availability modulates the temperature effect on N2O and N2 production from denitrification
bioRxiv
23pp.
(doi:10.1101/2025.09.07.674766).
Record type:
Monograph
(Working Paper)
Abstract
Nitrous oxide (N2O) can be both produced and subsequently reduced to dinitrogen gas (N2) via canonical denitrification, making the balance between these steps a key control on the net flux of this potent climate gas. Through a meta-analysis, we showed that net N2O and N2 production from denitrification respond differently to temperature, exhibiting distinct temperature sensitivities. In addition, nitrate availability plays a critical role in regulating this balance, yet only few studies have examined the combined effects of temperature and nitrate availability in natural sediments. Using 15N-isotope labelling and anoxic sediment incubations, we found that temperature effects on N2O and N2 production from denitrification were evident only under high nitrate levels (100 μM), while no significant temperature response occurred under low nitrate concentration (10 μM). At high nitrate availability, N2 production increased at higher temperatures, whereas net N2O production declined, leading to a lower production ratio of N2O to N2 at warmer temperatures. These findings suggest that in nitrogen-limited ecosystems, substrate availability plays a stronger role than temperature in regulating denitrification. More broadly, they provide insights into how nutrient loading and climate warming interact to shape nitrogen cycling and greenhouse gas emissions in aquatic ecosystems.
Text
2025.09.07.674766v1.full
- Author's Original
More information
Published date: 7 September 2025
Keywords:
Nitrogen cycling, Nitrous Oxide, Denitrification
Identifiers
Local EPrints ID: 507563
URI: http://eprints.soton.ac.uk/id/eprint/507563
PURE UUID: 6ddfe71d-2b81-4eb1-8cb5-2579a3f5a742
Catalogue record
Date deposited: 12 Dec 2025 17:41
Last modified: 13 Dec 2025 03:03
Export record
Altmetrics
Contributors
Author:
Yueyue Si
Author:
Mark Trimmer
Download statistics
Downloads from ePrints over the past year. Other digital versions may also be available to download e.g. from the publisher's website.
View more statistics