Distinguishing sources of base cations in irrigated and natural soils: evidence from strontium isotopes

• Author(s): Bestland, Erick; Green, Graham; Walker, Gregory;
• Abstract: Strontium isotope ratios (87Sr/86Sr) of soil solids, soil cation extracts, irrigation water and plant material are used to determine strontium and therefore cation sources and fluxes in irrigated and natural soil-plant systems. Strontium isotopes of soil solids from four soil profiles (two irrigated vineyard soils and two natural profiles from nearby reserves) show large differences between soil horizons with depth. These differences are not reflected in 87Sr/86Sr ratios of soil labile cations, which show both little variation down-profile and much lower ratios than soil solids. In the undisturbed, natural soil profiles, labile cation 87Sr/86Sr ratios are close to the ratio of modern seawater, indicating that solutes of marine origin from precipitation are the primary input of strontium (and calcium) to the labile cation pool. In the irrigated soil profiles, 87Sr/86Sr ratios of labile cations are consistently shifted towards that of the irrigation water. Mass-balance calculations using 87Sr/86Sr ratios of the different inputs to the labile cation pool indicate more than 90% of labile strontium is derived from precipitation solutes in unirrigated soils, and up to 44% from irrigation water solutes as an additional source in irrigated soils. The 87Sr/86Sr ratios of grapes grown in irrigated soils match precisely with those of the labile soil cations, demonstrating that cation nutrients are drawn wholly from the labile cation pool and have the same mix of precipitation, irrigation, and soil solid sources. The 87Sr/86Sr ratios of grapes grown in the irrigated soils may therefore vary over time depending on (1) the changing mix of irrigation water and local precipitation and (2) potential change to irrigation water. These findings suggest limitations to the use of strontium isotopes in the tracing of grapes and wines to their soil of origin.
• Publication Date: Apr 2004
• Journal: Biogeochemistry (Dordrecht)