An uncertain climate : the value of uncertainty and sensitivity analysis in environmental impact assessment of food

Autor: E.A. Groen
Přispěvatelé: Wageningen University, Imke de Boer, Eddy Bokkers, R. Heijungs
Rok vydání: 2016
Předmět:
Engineering
milieu
correlation analysis
020209 energy
02 engineering and technology
010501 environmental sciences
environmental impact
01 natural sciences
Animal Production Systems
sensitivity analysis
greenhouse gases
0202 electrical engineering
electronic engineering
information engineering
Econometrics
Sensitivity analysis
gevoeligheidsanalyse
Sensitivity (control systems)
Uncertainty quantification
food production
uncertainty analysis
Uncertainty analysis
Reliability (statistics)
melkveebedrijven
0105 earth and related environmental sciences
Dierlijke Productiesystemen
2. Zero hunger
Propagation of uncertainty
climatic change
milieueffect
voedselproductie
business.industry
screening
correlatieanalyse
modelleren
Environmental resource management
dairy farms
modeling
klimaatverandering
Variance (accounting)
farms
landbouwbedrijven
13. Climate action
Data quality
screenen
WIAS
onzekerheidsanalyse
business
environment
broeikasgassen
DOI: 10.18174/375497
Popis: Production of food contributes to climate change and other forms of environmental impact. Input data used in environmental impact assessment models, such as life cycle assessment (LCA) and nutrient balance (NB) analysis, may vary due to seasonal changes, geographical conditions or socio-economic factors (i.e. natural variability). Moreover, input data may be uncertain, due to measurement errors and observational errors that exist around modelling of emissions and technical parameters (i.e. epistemic uncertainty). Although agricultural activities required for food production are prone to natural variability and epistemic uncertainty, very few case studies in LCA and NB analysis made a thorough examination of the effects of variability and uncertainty. This thesis aimed to enhance understanding the effects of variability and uncertainty on the results, by means of uncertainty and sensitivity analysis. Uncertainty analysis refers to the estimation of the uncertainty attribute of a model output using the uncertainty attributes of the model in- puts. There are three types of sensitivity analyses: (I) a local sensitivity analysis addresses what happens to the output when input parameters are changed, i.e. the intrinsic model behaviour of a parameter; (II) a screening analysis addresses what happens to the output based on the un- certainty range of the different input parameters; and (III) a global sensitivity analysis addresses how much the uncertainty around each input parameter contributes to the output variance. Both the screening analysis and the global sensitivity analysis combine the intrinsic model behaviour with the information of uncertainty around input parameters. Applying uncertainty analysis and sensitivity analysis can help to reduce the efforts for data collection, support the development of mitigation strategies and improve overall reliability, leading to more informed decision making in environmental impact assessment models. Including uncertainty in environmental impact assessment models showed that: (1) the type of uncertainty analysis or sensitivity analysis applied depends on the question to be addressed and the available information; (2) in some cases it is no longer possible to benchmark environmental performance if epistemic uncertainty is included; (3) including correlations between input parameters during uncertainty propagation will either increase or decrease output variance, which can be predicted beforehand; (4) under specific characteristics of the input parameters, ignoring correlation has a minimal effect on the model outcome. Systematically combining a local and global sensitivity analysis in environmental impact assessment models: (1) resulted in more parameters than found previously in similar studies (for the case studies discussed in this thesis); (2) allowed finding mitigation options, either based on innovations (derived from the local sensitivity analysis) or on management strategies (derived from the global sensitivity analysis); (3) showed for which parameters reliability should be improved by increasing data quality; (4) showed that reducing the (epistemic) uncertainty of the most important parameters can affect the comparison of the environmental performance.
Databáze: OpenAIRE
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