val.micropoll.create {ecoval}R Documentation

Creates a Value Function for River Micropollutants

Description

Creates a value function for river micropollutants with episodic inputs (pesticides, often from diffuse sources) and continous inputs (mainly from point-sources). Micropollutants with continous inputs are assessed regarding their toxicity to different organism groups. Micropollutants with episodic inputs are grouped according to their mode of action while exposure patterns are taken into account.

Usage

val.micropoll.create(language     = "English",
                     dictionaries = NA,
                     col          = "black")

Arguments

language

Language to be used to denote nodes, attributes and attribute levels. Must be a column name of the table provided by the second argument.

dictionaries

Matrix of dictionaries with the languages provided by the column names and the original words provided as the row names. If dictionary is NA, the default dictionary ecoval.dictionaries.default is loaded.

col

Color of bounding boxes in objectives hierarchy.

Value

The function returns the value function as a class utility.

References

Langhans, S.D., Lienert, J., Schuwirth, N. and Reichert, P. How to make river assessments comparable: A demonstration for hydromorphology, Ecological Indicators 32, 264-275, 2013. doi: 10.1016/j.ecolind.2013.03.027

Langhans, S.D., Reichert, P. and Schuwirth, N. The method matters: indicator aggregation in ecological river assessment. Ecological Indicators 45, 494-507, 2014. doi: 10.1016/j.ecolind.2014.05.014

Reichert, P., Schuwirth, N. and Langhans, S. Constructing, evaluating and visualizing value and utility functions for decision support, Environmental Modelling & Software 46, 283-291, 2013. doi: 10.1016/j.envsoft.2013.01.017

Reichert, P., Langhans, S., Lienert, J. and Schuwirth, N. The conceptual foundation of environmental decision support. Journal of Environmental Management. 154, 316-332, 2015. doi: 10.1016/j.jenvman.2015.01.053

Reichert, P., Borsuk, M., Hostmann, M., Schweizer, S., Sporri, C., Tockner, K. and Truffer, B. Concepts of decision support for river rehabilitation, Environmental Modelling and Software 22, 188-201, 2007. doi: 10.1016/j.envsoft.2005.07.017

https://modul-stufen-konzept.ch

Junghans, M. Kunz, P., Werner, I. Toxizitaet von Mischungen, aktuelle praxisorientierte Ansaetze fuer die Beurteilung von Gewaesserproben. Aqua und Gas 5, 54-61, 2013.

Goetz, Ch. Kase, R., Kienle, C., Hollender, J. Mikroverunreinigungen aus kommunalem Abwasser: Kombination von Expositions- und oekotoxikologischen Effektdaten. Gas Wasser Abwasser 7,575-585, 2010.

Goetz, C.W., R. Kase und J. Hollender. Mikroverunreinigungen - Beurteilungskonzept fuer organische Spurenstoffe aus kommunalem Abwasser. Studie im Auftrag des BAFU. Eawag, Duebendorf, 2010.

AWEL Amt fuer Abfall, Wasser, Energie und Luft, Kanton Zuerich, Statusbericht 2006: Wasserqualitaet der Seen, Fliessgewaesser und des Grundwasser im Kanton Zuerich.

Balsiger, Gewaesserbelastung durch Pestizide, Gas Wasser Abwasser 3/2007, 2007.

Chevre et al. 2006: Pestizide in Schweizer Oberflaechengewaessern. Wirkungsbasierte Qualitaetskriterien. Gas Wasser Abwasser 4/2006. S. 297-307, 2006

See Also

utility. val.pesticides.create.

Examples

micropoll <- val.micropoll.create()
plot(micropoll)
micropoll.german <- val.micropoll.create("Deutsch")
plot(micropoll.german)

[Package ecoval version 1.2.9 Index]