The need to integrate legacy nitrogen storage dynamics and time lags into policy and practice

Increased fluxes of reactive nitrogen (Nr), often associated with N fertilizer use in agriculture, have resulted in negative environmental consequences, including eutrophication, which cost billions of dollars per year globally. To address this, best management practices (BMPs) to reduce Nr loading...

Full description

Saved in:
Bibliographic Details
Published in:The Science of the total environment 2021-08, Vol.781, p.146698, Article 146698
Main Authors: Ascott, Matthew J., Gooddy, Daren C., Fenton, Owen, Vero, Sara, Ward, Rob S., Basu, Nandita B., Worrall, Fred, Van Meter, Kimberly, Surridge, Ben W.J.
Format: Article
Language:English
Subjects:
Legacy pollution
Nitrogen
Time lag
Water pollution
Citations: Items that this one cites
Items that cite this one
Online Access:Get full text
Tags: Add Tag
No Tags, Be the first to tag this record!
Description
Summary:Increased fluxes of reactive nitrogen (Nr), often associated with N fertilizer use in agriculture, have resulted in negative environmental consequences, including eutrophication, which cost billions of dollars per year globally. To address this, best management practices (BMPs) to reduce Nr loading to the environment have been introduced in many locations. However, improvements in water quality associated with BMP implementation have not always been realised over expected timescales. There is a now a significant body of scientific evidence showing that the dynamics of legacy Nr storage and associated time lags invalidate the assumptions of many models used by policymakers for decision making regarding Nr BMPs. Building on this evidence, we believe that the concepts of legacy Nr storage dynamics and time lags need to be included in these models. We believe the biogeochemical research community could play a more proactive role in advocating for this change through both awareness raising and direct collaboration with policymakers to develop improved datasets and models. We anticipate that this will result in more realistic expectations of timescales for water quality improvements associated with BMPs. Given the need for multi-nutrient policy responses to tackle challenges such as eutrophication, integration of N stores will have the further benefit of aligning both researchers and policymakers in the N community with the phosphorus and carbon communities, where estimation of stores is more widespread. Ultimately, we anticipate that integrating legacy Nr storage dynamics and time lags into policy frameworks will better meet the needs of human and environmental health. •Nitrogen (N) pollution from agriculture has negative environmental impacts.•Environmental benefits of initiatives to reduce N loads not always detectable.•N storage dynamics and time lag invalidate steady state models often used in policy.•Researchers should advocate for integrating N stores and time lags into policy.•Quantifying N storage aligns with phosphorus and carbon cycling research.
ISSN:0048-9697
1879-1026
DOI:10.1016/j.scitotenv.2021.146698