The guidelines for setting environmental quality standards are increasingly based on probabilistic risk assessment due to a growing general awareness of the need for probabilistic procedures. One of the commonly used tools in probabilistic risk assessment is the species sensitivity distribution (SSD), which represents the proportion of species affected belonging to a biological assemblage as a function of exposure to a specific toxicant. Our focus is on the inverse use of the SSD curve with the aim of estimating the concentration, HCp, of a toxic compound that is hazardous to p% of the biological community under study. Toward this end, we propose the use of robust statistical methods in order to take into account the presence of outliers or apparent skew in the data, which may occur without any ecological basis. A robust approach exploits the full neighborhood of a parametric model, enabling the analyst to account for the typical real-world deviations from ideal models. We examine two classic HCp estimation approaches and consider robust versions of these estimators. In addition, we also use data transformations in conjunction with robust estimation methods in case of heteroscedasticity. Different scenarios using real data sets as well as simulated data are presented in order to illustrate and compare the proposed approaches. These scenarios illustrate that the use of robust estimation methods enhances HCp estimation.

Monti, G., Filzmoser, P., Deutsch, R. (2018). A Robust Approach to Risk Assessment Based on Species Sensitivity Distributions. RISK ANALYSIS, 38(10), 2073-2086 [10.1111/risa.13009].

A Robust Approach to Risk Assessment Based on Species Sensitivity Distributions

Monti, GS
Primo
;
2018

Abstract

The guidelines for setting environmental quality standards are increasingly based on probabilistic risk assessment due to a growing general awareness of the need for probabilistic procedures. One of the commonly used tools in probabilistic risk assessment is the species sensitivity distribution (SSD), which represents the proportion of species affected belonging to a biological assemblage as a function of exposure to a specific toxicant. Our focus is on the inverse use of the SSD curve with the aim of estimating the concentration, HCp, of a toxic compound that is hazardous to p% of the biological community under study. Toward this end, we propose the use of robust statistical methods in order to take into account the presence of outliers or apparent skew in the data, which may occur without any ecological basis. A robust approach exploits the full neighborhood of a parametric model, enabling the analyst to account for the typical real-world deviations from ideal models. We examine two classic HCp estimation approaches and consider robust versions of these estimators. In addition, we also use data transformations in conjunction with robust estimation methods in case of heteroscedasticity. Different scenarios using real data sets as well as simulated data are presented in order to illustrate and compare the proposed approaches. These scenarios illustrate that the use of robust estimation methods enhances HCp estimation.
Articolo in rivista - Articolo scientifico
Bootstrap; Box–Cox transformation; hazardous concentration; model fit; Monte Carlo simulations; robust statistics;
Bootstrap; Box–Cox transformation; hazardous concentration; model fit ;Monte Carlo simulations; robust statistics
English
2018
38
10
2073
2086
partially_open
Monti, G., Filzmoser, P., Deutsch, R. (2018). A Robust Approach to Risk Assessment Based on Species Sensitivity Distributions. RISK ANALYSIS, 38(10), 2073-2086 [10.1111/risa.13009].
File in questo prodotto:
File Dimensione Formato  
Monti-2018-Risk Anal-VoR.pdf

Solo gestori archivio

Descrizione: Original Research Article
Tipologia di allegato: Publisher’s Version (Version of Record, VoR)
Licenza: Tutti i diritti riservati
Dimensione 479.04 kB
Formato Adobe PDF
479.04 kB Adobe PDF   Visualizza/Apri   Richiedi una copia
Monti-2018-Risk Anal-AAM.pdf

accesso aperto

Descrizione: Original Research Article
Tipologia di allegato: Author’s Accepted Manuscript, AAM (Post-print)
Licenza: Altro
Dimensione 395.09 kB
Formato Adobe PDF
395.09 kB Adobe PDF Visualizza/Apri

I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.

Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/10281/197598
Citazioni
  • Scopus 11
  • ???jsp.display-item.citation.isi??? 8
Social impact