Model evaluation in relation to soil N2O emissions: An algorithmic method which accounts for variability in measurements and possible time lags

Vasileios Myrgiotis; Mathew Williams; Robert M. Rees; Kate E. Smith; Rachel E. Thorman; Cairistiona F. E. Topp

doi:10.1016/j.envsoft.2016.07.002

Model evaluation in relation to soil N2O emissions: An algorithmic method which accounts for variability in measurements and possible time lags

Vasileios Myrgiotis^*, Mathew Williams, Robert M. Rees, Kate E. Smith, Rachel E. Thorman, Cairistiona F. E. Topp

^*Corresponding author for this work

School of Geosciences

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

Abstract

The loss of nitrogen from fertilised soils in the form of nitrous oxide (N2O) is a side effect of modern agriculture and the focus of many model-based studies. Due to the spatial and temporal heterogeneity of soil N2O emissions, the measured data can introduce limitations to the use of those statistical methods that are most commonly employed in the evaluation of model performance. In this paper, we describe these limitations and present an algorithm developed to address them. We implement the algorithm using simulated and measured N2O data from two UK arable sites. We show that possible time lags between the measured and simulated data can affect model evaluation and that their consideration in the evaluation process can reduce measures such as the Mean Squared Error (MSE) by 30%. We also analyse the algorithm's results to identify patterns in the estimated lags and to narrow down their possible causes.

Original language	English
Pages (from-to)	251-262
Number of pages	12
Journal	Environmental Modelling and Software
Volume	84
Early online date	15 Jul 2016
DOIs	https://doi.org/10.1016/j.envsoft.2016.07.002 https://doi.org/10.1016/j.envsoft.2016.07.002
Publication status	Published - 1 Oct 2016

Keywords / Materials (for Non-textual outputs)

Agro-ecosystems
Soil modelling
Model evaluation
Nitrous oxide
Time lag
NITROUS-OXIDE EMISSIONS
GOODNESS-OF-FIT
PERFORMANCE EVALUATION
AGRICULTURAL SOILS
FLUXES
STATISTICS
VALIDATION
CASCADE
CHAMBER

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26619537. PFV.
Open Access funded by Natural Environment Research Council
Final published version, 1.22 MB

Generating Regional Emissions Estimates with a Novel Hierarchy of Observations and Upscaled Simulation Experiments (GREENHOUSE)
Williams, M. (Principal Investigator), Mencuccini, M. (Co-investigator), Moncrieff, J. (Co-investigator) & Reay, D. (Co-investigator)
NERC
1/04/13 → 31/03/17
Project: Research

Cite this

Myrgiotis, V., Williams, M., Rees, R. M., Smith, K. E., Thorman, R. E., & Topp, C. F. E. (2016). Model evaluation in relation to soil N2O emissions: An algorithmic method which accounts for variability in measurements and possible time lags. Environmental Modelling and Software, 84, 251-262. https://doi.org/10.1016/j.envsoft.2016.07.002, https://doi.org/10.1016/j.envsoft.2016.07.002

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title = "Model evaluation in relation to soil N2O emissions: An algorithmic method which accounts for variability in measurements and possible time lags",

abstract = "The loss of nitrogen from fertilised soils in the form of nitrous oxide (N2O) is a side effect of modern agriculture and the focus of many model-based studies. Due to the spatial and temporal heterogeneity of soil N2O emissions, the measured data can introduce limitations to the use of those statistical methods that are most commonly employed in the evaluation of model performance. In this paper, we describe these limitations and present an algorithm developed to address them. We implement the algorithm using simulated and measured N2O data from two UK arable sites. We show that possible time lags between the measured and simulated data can affect model evaluation and that their consideration in the evaluation process can reduce measures such as the Mean Squared Error (MSE) by 30\%. We also analyse the algorithm's results to identify patterns in the estimated lags and to narrow down their possible causes.",

keywords = "Agro-ecosystems, Soil modelling, Model evaluation, Nitrous oxide, Time lag, NITROUS-OXIDE EMISSIONS, GOODNESS-OF-FIT, PERFORMANCE EVALUATION, AGRICULTURAL SOILS, FLUXES, STATISTICS, VALIDATION, CASCADE, CHAMBER",

author = "Vasileios Myrgiotis and Mathew Williams and Rees, \{Robert M.\} and Smith, \{Kate E.\} and Thorman, \{Rachel E.\} and Topp, \{Cairistiona F. E.\}",

year = "2016",

month = oct,

day = "1",

doi = "10.1016/j.envsoft.2016.07.002",

language = "English",

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journal = "Environmental Modelling and Software",

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Myrgiotis, V, Williams, M, Rees, RM, Smith, KE, Thorman, RE & Topp, CFE 2016, 'Model evaluation in relation to soil N2O emissions: An algorithmic method which accounts for variability in measurements and possible time lags', Environmental Modelling and Software, vol. 84, pp. 251-262. https://doi.org/10.1016/j.envsoft.2016.07.002, https://doi.org/10.1016/j.envsoft.2016.07.002

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T1 - Model evaluation in relation to soil N2O emissions: An algorithmic method which accounts for variability in measurements and possible time lags

AU - Myrgiotis, Vasileios

AU - Williams, Mathew

AU - Rees, Robert M.

AU - Smith, Kate E.

AU - Thorman, Rachel E.

AU - Topp, Cairistiona F. E.

PY - 2016/10/1

Y1 - 2016/10/1

N2 - The loss of nitrogen from fertilised soils in the form of nitrous oxide (N2O) is a side effect of modern agriculture and the focus of many model-based studies. Due to the spatial and temporal heterogeneity of soil N2O emissions, the measured data can introduce limitations to the use of those statistical methods that are most commonly employed in the evaluation of model performance. In this paper, we describe these limitations and present an algorithm developed to address them. We implement the algorithm using simulated and measured N2O data from two UK arable sites. We show that possible time lags between the measured and simulated data can affect model evaluation and that their consideration in the evaluation process can reduce measures such as the Mean Squared Error (MSE) by 30%. We also analyse the algorithm's results to identify patterns in the estimated lags and to narrow down their possible causes.

AB - The loss of nitrogen from fertilised soils in the form of nitrous oxide (N2O) is a side effect of modern agriculture and the focus of many model-based studies. Due to the spatial and temporal heterogeneity of soil N2O emissions, the measured data can introduce limitations to the use of those statistical methods that are most commonly employed in the evaluation of model performance. In this paper, we describe these limitations and present an algorithm developed to address them. We implement the algorithm using simulated and measured N2O data from two UK arable sites. We show that possible time lags between the measured and simulated data can affect model evaluation and that their consideration in the evaluation process can reduce measures such as the Mean Squared Error (MSE) by 30%. We also analyse the algorithm's results to identify patterns in the estimated lags and to narrow down their possible causes.

KW - Agro-ecosystems

KW - Soil modelling

KW - Model evaluation

KW - Nitrous oxide

KW - Time lag

KW - NITROUS-OXIDE EMISSIONS

KW - GOODNESS-OF-FIT

KW - PERFORMANCE EVALUATION

KW - AGRICULTURAL SOILS

KW - FLUXES

KW - STATISTICS

KW - VALIDATION

KW - CASCADE

KW - CHAMBER

U2 - 10.1016/j.envsoft.2016.07.002

DO - 10.1016/j.envsoft.2016.07.002

M3 - Article

SN - 1364-8152

VL - 84

SP - 251

EP - 262

JO - Environmental Modelling and Software

JF - Environmental Modelling and Software

ER -

Model evaluation in relation to soil N2O emissions: An algorithmic method which accounts for variability in measurements and possible time lags

Abstract

Keywords / Materials (for Non-textual outputs)

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Projects

Generating Regional Emissions Estimates with a Novel Hierarchy of Observations and Upscaled Simulation Experiments (GREENHOUSE)

Cite this