Copper tolerance and copper uptake ofLotus purshianus(Benth.) Clem. & Clem. and its symbioticRhizobium lotiderived from a copper mine waste population

Abstract

SUMMARY: Lotus purshianus(Benth.) Clem, and Clem., growing on a copper mine waste in Northern California, exhibits copper tolerance. Effective nitrogen fixation (acetylene reduction) is seen in copper‐enriched soils. When subcultured in liquid culture,Rhizobium lotiisolated from root nodules ofL. purshianusgrowing on the copper mine, showed considerably greater copper tolerance than did rhizobium isolated from plants growing in a nearby field. No difference was detected in either the pattern of copper uptake or concentration in plant tissue between tolerant and non‐tolerantL. purshianus.However, a copper accumulation mechanism associated with copper tolerance was found in the symbiotic rhizobium. The successful colonization of copper enriched soil by this legume species is accomplished by the evolution of copper tolerance in both the legume plant and its symbiont. The copper tolerance of the plant and rhizobium may have evolved independently.