Modelling and mapping critical loads and exceedances for the Georgia Basin, British Columbia, using a zero base-cation depletion criterion

Mina NASR; Mark CASTONGUAY; Jae OGILVIE; Beverley A. RAYMOND†; Paul A. ARP

doi:10.4081/jlimnol.2010.s1.181

https://doi.org/10.4081/jlimnol.2010.s1.181

Modelling and mapping critical loads and exceedances for the Georgia Basin, British Columbia, using a zero base-cation depletion criterion

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Vol. 69 No. s1 (2010): Impacts of sulphur and nitrogen deposition in western Canada

Submitted: 6 December 2011
Accepted: 6 December 2011

Published: 1 August 2010

critical loads, exceedances, soil acidification, base-cation depletion, sulphur, nitrogen

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Mina NASR

arp1@unb.ca

Mark CASTONGUAY

Jae OGILVIE

Beverley A. RAYMOND†

Paul A. ARP

Critical load (CL) and exceedance maps of sulphur (S) and nitrogen (N) for upland soils were generated for the Georgia Basin, British Columbia, Canada, by synthesizing available data layers for atmospheric deposition, climate (precipitation, temperature), soil, site classification and elevation. Critical loads were determined using the steady-state mass-balance model and a criterion based on zero-tolerance for further base-cation depletion. The resulting CL values were generally lowest on ridge tops and increased towards valleys. Critical load exceedance ranged from 13% of the Georgia Basin under wet deposition to 32% under modelled total (wet and dry) deposition. Moreover, exceedance increased by an additional 10% when considering upland areas only for the Georgia Basin. Significant portions of the Georgia Basin are predicted to experience exceedance-enhanced base-cation depletion rates above 200 eq ha–1 y–1 and turn-over times to a final new base saturation state within 200 years under continued atmospheric S and N deposition.

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NASR, Mina, Mark CASTONGUAY, Jae OGILVIE, Beverley A. RAYMOND†, and Paul A. ARP. 2010. “Modelling and Mapping Critical Loads and Exceedances for the Georgia Basin, British Columbia, Using a Zero Base-Cation Depletion Criterion”. Journal of Limnology 69 (s1):181-92. https://doi.org/10.4081/jlimnol.2010.s1.181.

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Modelling and mapping critical loads and exceedances for the Georgia Basin, British Columbia, using a zero base-cation depletion criterion

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