Periphyton closes the nitrogen budget gap in rice paddies

Pengfei Sun; Yonghong Wu; Yin Chen; Jan Dolfing; Bruce E. Rittmann; Kees Jan Van Groenigen

doi:10.1093/nsr/nwag016

Periphyton closes the nitrogen budget gap in rice paddies

Pengfei Sun, Yonghong Wu^*, Yin Chen, Jan Dolfing, Bruce E. Rittmann, Kees Jan Van Groenigen

^*Corresponding author for this work

Research output: Contribution to journal › Article › peer-review

Abstract

Persistent 4%–22% gaps in nitrogen (N) mass balances have hindered sustainable N management in paddy agriculture. Periphyton are known N sinks, yet their role in paddies remains unclear. We used ¹⁵N tracing in 840 paddies across China to quantify periphyton-associated N pools and their fate. Periphyton captured 6%–24% (mean: 12%) of the applied N fertilizer (i.e. ∼0.8 Tg N yr⁻¹ nationwide), effectively accounting for the missing N in previous budgets. Most of the sequestered N was stored as bioavailable ammonium. Partitioning analysis revealed that periphyton-mediated N was subsequently released into residual soil N (512–640 kt), denitrification (56–128 kt) and ammonia volatilization (64–232 kt). Thus, periphyton act as transient N reservoirs, immobilizing N fertilizer early in the growing season and gradually releasing it through biomass decay. This overlooked pathway closes a critical gap in agroecosystem N cycling and supports more precise N management in rice systems.

Original language	English
Article number	nwag016
Number of pages	7
Journal	National Science Review
Volume	13
Issue number	3
Early online date	13 Jan 2026
DOIs	https://doi.org/10.1093/nsr/nwag016
Publication status	Published - 1 Feb 2026

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

SDG 2 Zero Hunger

Keywords

nitrogen mass balance
nitrogen sequestration
paddy fields
periphyton
precision nitrogen management

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10.1093/nsr/nwag016Licence: CC BY

nwag016Final published version, 1.18 MBLicence: CC BY

Cite this

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title = "Periphyton closes the nitrogen budget gap in rice paddies",

abstract = "Persistent 4\%–22\% gaps in nitrogen (N) mass balances have hindered sustainable N management in paddy agriculture. Periphyton are known N sinks, yet their role in paddies remains unclear. We used 15N tracing in 840 paddies across China to quantify periphyton-associated N pools and their fate. Periphyton captured 6\%–24\% (mean: 12\%) of the applied N fertilizer (i.e. ∼0.8 Tg N yr−1 nationwide), effectively accounting for the missing N in previous budgets. Most of the sequestered N was stored as bioavailable ammonium. Partitioning analysis revealed that periphyton-mediated N was subsequently released into residual soil N (512–640 kt), denitrification (56–128 kt) and ammonia volatilization (64–232 kt). Thus, periphyton act as transient N reservoirs, immobilizing N fertilizer early in the growing season and gradually releasing it through biomass decay. This overlooked pathway closes a critical gap in agroecosystem N cycling and supports more precise N management in rice systems.",

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AU - Sun, Pengfei

AU - Wu, Yonghong

AU - Chen, Yin

AU - Dolfing, Jan

AU - Rittmann, Bruce E.

AU - Van Groenigen, Kees Jan

PY - 2026/2/1

Y1 - 2026/2/1

N2 - Persistent 4%–22% gaps in nitrogen (N) mass balances have hindered sustainable N management in paddy agriculture. Periphyton are known N sinks, yet their role in paddies remains unclear. We used 15N tracing in 840 paddies across China to quantify periphyton-associated N pools and their fate. Periphyton captured 6%–24% (mean: 12%) of the applied N fertilizer (i.e. ∼0.8 Tg N yr−1 nationwide), effectively accounting for the missing N in previous budgets. Most of the sequestered N was stored as bioavailable ammonium. Partitioning analysis revealed that periphyton-mediated N was subsequently released into residual soil N (512–640 kt), denitrification (56–128 kt) and ammonia volatilization (64–232 kt). Thus, periphyton act as transient N reservoirs, immobilizing N fertilizer early in the growing season and gradually releasing it through biomass decay. This overlooked pathway closes a critical gap in agroecosystem N cycling and supports more precise N management in rice systems.

AB - Persistent 4%–22% gaps in nitrogen (N) mass balances have hindered sustainable N management in paddy agriculture. Periphyton are known N sinks, yet their role in paddies remains unclear. We used 15N tracing in 840 paddies across China to quantify periphyton-associated N pools and their fate. Periphyton captured 6%–24% (mean: 12%) of the applied N fertilizer (i.e. ∼0.8 Tg N yr−1 nationwide), effectively accounting for the missing N in previous budgets. Most of the sequestered N was stored as bioavailable ammonium. Partitioning analysis revealed that periphyton-mediated N was subsequently released into residual soil N (512–640 kt), denitrification (56–128 kt) and ammonia volatilization (64–232 kt). Thus, periphyton act as transient N reservoirs, immobilizing N fertilizer early in the growing season and gradually releasing it through biomass decay. This overlooked pathway closes a critical gap in agroecosystem N cycling and supports more precise N management in rice systems.

KW - nitrogen mass balance

KW - nitrogen sequestration

KW - paddy fields

KW - periphyton

KW - precision nitrogen management

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Periphyton closes the nitrogen budget gap in rice paddies

Abstract

UN SDGs

Keywords

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