Indicator of risk of water contamination by P for Soil Landscape of Canadapolygons

Citation
Ma. Bolinder et al., Indicator of risk of water contamination by P for Soil Landscape of Canadapolygons, CAN J SOIL, 80(1), 2000, pp. 153-163
Citations number
44
Categorie Soggetti
Environment/Ecology
Journal title
CANADIAN JOURNAL OF SOIL SCIENCE
ISSN journal
00084271 → ACNP
Volume
80
Issue
1
Year of publication
2000
Pages
153 - 163
Database
ISI
SICI code
0008-4271(200002)80:1<153:IOROWC>2.0.ZU;2-T
Abstract
The indicator of risk of water contamination (IROWC) is a component of the Agriculture and Agri-Food Canada Agri-Environmental Indicator project. The IROWC measures progress in reducing the risk of water contamination from ag ricultural activities, focusing on N and P. The objective of this study was to propose a methodology for an IROWC-P applicable at the Soil Landscape o f Canada (SLC) polygon level (1:1 000 000 map scale) using an indexing appr oach. The sources of data included Census of Agriculture, SLC and soil surv ey databases and provincial soil test data. The IROWC-P considers the follo wing site characteristics: soil erosion and potential for overland flow, an nual P balance (crop residues, manure and inorganic fertilizer), soil test P (STP) and degree of soil P saturation (DSPS). IROWC-P classifies polygons for their potential risk of P transfer to surface waters according to five vulnerability classes (i.e., very low, low, medium, high and very high). T he methodology was tested on a pilot basis for selected SLC polygons in the province of Quebec using 1981 and 1991 census data. Preliminary results in dicated that the proposed methodology showed some sensitivity to changes in agricultural practices between 1981 and 1991 and reflected differences in risk of P contamination from areas of intensive compared to areas of extens ive agriculture. The difference between the selected areas was mainly attri buted to the STP, DSPS, manure and inorganic fertilizer P polygon character istics. The temporal variations in the IROWC-P ratings were attributed main ly to the manure and inorganic fertilizer P polygon characteristics.