GERM Reservoir Database
Development and Maintenance by the EarthRef.org Database Team

GERM Database Search Results        
Reservoir Z Element Value Median SD Low High N Unit Info Reference Source(s)
A La Baleine River   87Sr/86Sr 0.7265             Strontium isotopic content of major world rivers. All values obtained using standard mass specrometric techniques and used to determine global runoff of strontium. Palmer & Edmond 1989 Wadleigh et al. 1985
A La Baleine River 38 Sr 0.16             Strontium content of major world rivers as measured in micromoles per kilogram. All values obtained using standard mass specrometric techniques and used to determine riverine flux of strontium. Palmer & Edmond 1989 Wadleigh et al. 1985
Albany River   87Sr/86Sr 0.7158             Strontium isotopic content of major world rivers. All values obtained using standard mass specrometric techniques and used to determine global runoff of strontium. Palmer & Edmond 1989 Wadleigh et al. 1985
Albany River 38 Sr 0.32             Strontium content of major world rivers as measured in micromoles per kilogram. All values obtained using standard mass specrometric techniques and used to determine riverine flux of strontium. Palmer & Edmond 1989 Wadleigh et al. 1985
Amazon River   87Sr/86Sr 0.7109             Strontium isotopic content of major world rivers. All values obtained using standard mass specrometric techniques and used to determine global runoff of strontium. Palmer & Edmond 1989
Amazon River 38 Sr 0.32             Strontium content of major world rivers as measured in micromoles per kilogram. All values obtained using standard mass specrometric techniques and used to determine riverine flux of strontium. Palmer & Edmond 1989
Arnaud River   87Sr/86Sr 0.7264             Strontium isotopic content of major world rivers. All values obtained using standard mass specrometric techniques and used to determine global runoff of strontium. Palmer & Edmond 1989 Wadleigh et al. 1985
Arnaud River 38 Sr 0.091             Strontium content of major world rivers as measured in micromoles per kilogram. All values obtained using standard mass specrometric techniques and used to determine riverine flux of strontium. Palmer & Edmond 1989 Wadleigh et al. 1985
Attawapiskat River   87Sr/86Sr 0.714             Strontium isotopic content of major world rivers. All values obtained using standard mass specrometric techniques and used to determine global runoff of strontium. Palmer & Edmond 1989 Wadleigh et al. 1985
Attawapiskat River 38 Sr 0.297             Strontium content of major world rivers as measured in micromoles per kilogram. All values obtained using standard mass specrometric techniques and used to determine riverine flux of strontium. Palmer & Edmond 1989 Wadleigh et al. 1985
Aux Feuilles River   87Sr/86Sr 0.7347             Strontium isotopic content of major world rivers. All values obtained using standard mass specrometric techniques and used to determine global runoff of strontium. Palmer & Edmond 1989 Wadleigh et al. 1985
Aux Feuilles River 38 Sr 0.114             Strontium content of major world rivers as measured in micromoles per kilogram. All values obtained using standard mass specrometric techniques and used to determine riverine flux of strontium. Palmer & Edmond 1989 Wadleigh et al. 1985
Aux Outardes River   87Sr/86Sr 0.7186             Strontium isotopic content of major world rivers. All values obtained using standard mass specrometric techniques and used to determine global runoff of strontium. Palmer & Edmond 1989 Wadleigh et al. 1985
Aux Outardes River 38 Sr 0.103             Strontium content of major world rivers as measured in micromoles per kilogram. All values obtained using standard mass specrometric techniques and used to determine riverine flux of strontium. Palmer & Edmond 1989 Wadleigh et al. 1985
Avon River   87Sr/86Sr 0.7326             Strontium isotopic content of major world rivers. All values obtained using standard mass specrometric techniques and used to determine global runoff of strontium. Palmer & Edmond 1989 Goldstein & Jacobsen 1987
Avon River 38 Sr 33.554             Strontium content of major world rivers as measured in micromoles per kilogram. All values obtained using standard mass specrometric techniques and used to determine riverine flux of strontium. Palmer & Edmond 1989 Goldstein & Jacobsen 1987
Back River   87Sr/86Sr 0.7291             Strontium isotopic content of major world rivers. All values obtained using standard mass specrometric techniques and used to determine global runoff of strontium. Palmer & Edmond 1989 Wadleigh et al. 1985
Back River 38 Sr 0.091             Strontium content of major world rivers as measured in micromoles per kilogram. All values obtained using standard mass specrometric techniques and used to determine riverine flux of strontium. Palmer & Edmond 1989 Wadleigh et al. 1985
Blue Nile River   87Sr/86Sr 0.7056             Strontium isotopic content of major world rivers. All values obtained using standard mass specrometric techniques and used to determine global runoff of strontium. Palmer & Edmond 1989
Blue Nile River 38 Sr 1.55             Strontium content of major world rivers as measured in micromoles per kilogram. All values obtained using standard mass specrometric techniques and used to determine riverine flux of strontium. Palmer & Edmond 1989
Brahmaputra River   87Sr/86Sr 0.721             Strontium isotopic content of major world rivers. All values obtained using standard mass specrometric techniques and used to determine global runoff of strontium. Palmer & Edmond 1989
Brahmaputra River 38 Sr 0.93             Strontium content of major world rivers as measured in micromoles per kilogram. All values obtained using standard mass specrometric techniques and used to determine riverine flux of strontium. Palmer & Edmond 1989
Brazos River   87Sr/86Sr 0.7087             Strontium isotopic content of major world rivers. All values obtained using standard mass specrometric techniques and used to determine global runoff of strontium. Palmer & Edmond 1989 Brass 1976
Brazos River 38 Sr 6.418             Strontium content of major world rivers as measured in micromoles per kilogram. All values obtained using standard mass specrometric techniques and used to determine riverine flux of strontium. Palmer & Edmond 1989 Brass 1976
Cauveri River   87Sr/86Sr 0.713             Strontium isotopic content of major world rivers. All values obtained using standard mass specrometric techniques and used to determine global runoff of strontium. Palmer & Edmond 1989 Brass 1976
Cauveri River 38 Sr 3.62             Strontium content of major world rivers as measured in micromoles per kilogram. All values obtained using standard mass specrometric techniques and used to determine riverine flux of strontium. Palmer & Edmond 1989 Brass 1976
Chao Phraya River   87Sr/86Sr 0.7138             Strontium isotopic content of major world rivers. All values obtained using standard mass specrometric techniques and used to determine global runoff of strontium. Palmer & Edmond 1989
Chao Phraya River 38 Sr 1.071             Strontium content of major world rivers as measured in micromoles per kilogram. All values obtained using standard mass specrometric techniques and used to determine riverine flux of strontium. Palmer & Edmond 1989
Colorado River   87Sr/86Sr 0.7108             Strontium isotopic content of major world rivers. All values obtained using standard mass specrometric techniques and used to determine global runoff of strontium. Palmer & Edmond 1989 Goldstein & Jacobsen 1987
Colorado River 38 Sr 13.25             Strontium content of major world rivers as measured in micromoles per kilogram. All values obtained using standard mass specrometric techniques and used to determine riverine flux of strontium. Palmer & Edmond 1989 Goldstein & Jacobsen 1987
Columbia River   87Sr/86Sr 0.7121             Strontium isotopic content of major world rivers. All values obtained using standard mass specrometric techniques and used to determine global runoff of strontium. Palmer & Edmond 1989 Goldstein & Jacobsen 1987
Columbia River 38 Sr 0.982             Strontium content of major world rivers as measured in micromoles per kilogram. All values obtained using standard mass specrometric techniques and used to determine riverine flux of strontium. Palmer & Edmond 1989 Goldstein & Jacobsen 1987
Congo River   87Sr/86Sr 0.7155             Strontium isotopic content of major world rivers. All values obtained using standard mass specrometric techniques and used to determine global runoff of strontium. Palmer & Edmond 1989
Congo River 38 Sr 0.313             Strontium content of major world rivers as measured in micromoles per kilogram. All values obtained using standard mass specrometric techniques and used to determine riverine flux of strontium. Palmer & Edmond 1989
Copper River   87Sr/86Sr 0.7071             Strontium isotopic content of major world rivers. All values obtained using standard mass specrometric techniques and used to determine global runoff of strontium. Palmer & Edmond 1989
Copper River 38 Sr 1.449             Strontium content of major world rivers as measured in micromoles per kilogram. All values obtained using standard mass specrometric techniques and used to determine riverine flux of strontium. Palmer & Edmond 1989
Danube River   87Sr/86Sr 0.7089             Strontium isotopic content of major world rivers. All values obtained using standard mass specrometric techniques and used to determine global runoff of strontium. Palmer & Edmond 1989
Danube River 38 Sr 2.759             Strontium content of major world rivers as measured in micromoles per kilogram. All values obtained using standard mass specrometric techniques and used to determine riverine flux of strontium. Palmer & Edmond 1989
Dniepr River   87Sr/86Sr 0.7084             Estimated 87Sr/86Sr ratios normalized to a value of 0.7080. Precision is of no importance in measurements here due to the seasonal variation which causes concentration values to fluxuate. Palmer & Edmond 1989
Dniepr River 38 Sr 2.5             Estimated Sr concentrations derived from fluvial Ca data due to the precipitation of Sr with calcium carbonates in the sea. Sr concentrations were determined using standard mass spectrometric techniques. Palmer & Edmond 1989
Don River   87Sr/86Sr 0.7084             Estimated 87Sr/86Sr ratios normalized to a value of 0.7080. Precision is of no importance in measurements here due to the seasonal variation which causes concentration values to fluxuate. Palmer & Edmond 1989
Don River 38 Sr 2.5             Estimated Sr concentrations derived from fluvial Ca data due to the precipitation of Sr with calcium carbonates in the sea. Sr concentrations were determined using standard mass spectrometric techniques. Palmer & Edmond 1989
Dvina River   87Sr/86Sr 0.7084             Estimated 87Sr/86Sr ratios normalized to a value of 0.7080. Precision is of no importance in measurements here due to the seasonal variation which causes concentration values to fluxuate. Palmer & Edmond 1989
Dvina River 38 Sr 2.5             Estimated Sr concentrations derived from fluvial Ca data due to the precipitation of Sr with calcium carbonates in the sea. Sr concentrations were determined using standard mass spectrometric techniques. Palmer & Edmond 1989
Eastmain River   87Sr/86Sr 0.7285             Strontium isotopic content of major world rivers. All values obtained using standard mass specrometric techniques and used to determine global runoff of strontium. Palmer & Edmond 1989 Wadleigh et al. 1985
Eastmain River 38 Sr 0.068             Strontium content of major world rivers as measured in micromoles per kilogram. All values obtained using standard mass specrometric techniques and used to determine riverine flux of strontium. Palmer & Edmond 1989 Wadleigh et al. 1985
Eel River   87Sr/86Sr 0.7064             Strontium isotopic content of major world rivers. All values obtained using standard mass specrometric techniques and used to determine global runoff of strontium. Palmer & Edmond 1989 Brass 1976
Eel River 38 Sr 3.689             Strontium content of major world rivers as measured in micromoles per kilogram. All values obtained using standard mass specrometric techniques and used to determine riverine flux of strontium. Palmer & Edmond 1989 Brass 1976
Elbe River   87Sr/86Sr 0.7097             Strontium isotopic content of major world rivers. All values obtained using standard mass specrometric techniques and used to determine global runoff of strontium. Palmer & Edmond 1989
Elbe River 38 Sr 6.532             Strontium content of major world rivers as measured in micromoles per kilogram. All values obtained using standard mass specrometric techniques and used to determine riverine flux of strontium. Palmer & Edmond 1989
Fraser River   87Sr/86Sr 0.712             Strontium isotopic content of major world rivers. All values obtained using standard mass specrometric techniques and used to determine global runoff of strontium. Palmer & Edmond 1989 Wadleigh et al. 1985
Fraser River 38 Sr 0.913             Strontium content of major world rivers as measured in micromoles per kilogram. All values obtained using standard mass specrometric techniques and used to determine riverine flux of strontium. Palmer & Edmond 1989 Wadleigh et al. 1985
Ganges River   87Sr/86Sr 0.7257             Strontium isotopic content of major world rivers. All values obtained using standard mass specrometric techniques and used to determine global runoff of strontium. Palmer & Edmond 1989
Ganges River 38 Sr 1.581             Strontium content of major world rivers as measured in micromoles per kilogram. All values obtained using standard mass specrometric techniques and used to determine riverine flux of strontium. Palmer & Edmond 1989
Garonne River   87Sr/86Sr 0.7106             Strontium isotopic content of major world rivers. All values obtained using standard mass specrometric techniques and used to determine global runoff of strontium. Palmer & Edmond 1989 Albarede & Michard 1987
Garonne River 38 Sr 1.267             Strontium content of major world rivers as measured in micromoles per kilogram. All values obtained using standard mass specrometric techniques and used to determine riverine flux of strontium. Palmer & Edmond 1989 Albarede & Michard 1987
Hayes River   87Sr/86Sr 0.7177             Strontium isotopic content of major world rivers. All values obtained using standard mass specrometric techniques and used to determine global runoff of strontium. Palmer & Edmond 1989 Wadleigh et al. 1985
Hayes River 38 Sr 0.411             Strontium content of major world rivers as measured in micromoles per kilogram. All values obtained using standard mass specrometric techniques and used to determine riverine flux of strontium. Palmer & Edmond 1989 Wadleigh et al. 1985
Hudson River   87Sr/86Sr 0.7118             Strontium isotopic content of major world rivers. All values obtained using standard mass specrometric techniques and used to determine global runoff of strontium. Palmer & Edmond 1989
Hudson River 38 Sr 1.454             Strontium content of major world rivers as measured in micromoles per kilogram. All values obtained using standard mass specrometric techniques and used to determine riverine flux of strontium. Palmer & Edmond 1989
Hydrothermal Vents   87Sr/86Sr 0.7035             Global content of isotopic strontium at hydrothermally active areas. Low strontium content is indicative of mobilisation related to the water/rock ratio in the reaction zones and seawater passing thru the anhydrite precipitation zone. Palmer & Edmond 1989
Hydrothermal Vents 38 Sr 126             Global content of strontium at hydrothermally active areas. Sr levels from vent fluids are linearly correlated with Ca and Cl which is indicative of control of Sr by chloro-complexing along with Sr precipitation in sloid solution in secondary Ca minerals (Epidote). Palmer & Edmond 1989
Indonesia   87Sr/86Sr 0.7083             Estimated 87Sr/86Sr ratios normalized to a value of 0.7080. Precision is of no importance in measurements here due to the seasonal variation which causes concentration values to fluxuate. Palmer & Edmond 1989
Indonesia 38 Sr 0.3             Estimated Sr concentrations derived from fluvial Ca data due to the precipitation of Sr with calcium carbonates in the sea. Sr concentrations were determined using standard mass spectrometric techniques. Palmer & Edmond 1989
Indus River   87Sr/86Sr 0.7112             Strontium isotopic content of major world rivers. All values obtained using standard mass specrometric techniques and used to determine global runoff of strontium. Palmer & Edmond 1989 Goldstein & Jacobsen 1987
Indus River 38 Sr 3.33             Strontium content of major world rivers as measured in micromoles per kilogram. All values obtained using standard mass specrometric techniques and used to determine riverine flux of strontium. Palmer & Edmond 1989 Goldstein & Jacobsen 1987
Irrawady River   87Sr/86Sr 0.7102             Estimated 87Sr/86Sr ratios normalized to a value of 0.7080. Precision is of no importance in measurements here due to the seasonal variation which causes concentration values to fluxuate. Palmer & Edmond 1989
Irrawady River 38 Sr 3.393             Estimated Sr concentrations derived from fluvial Ca data due to the precipitation of Sr with calcium carbonates in the sea. Sr concentrations were determined using standard mass spectrometric techniques. Palmer & Edmond 1989
Japan   87Sr/86Sr 0.7076             Strontium isotopic content of major world rivers. All values obtained using standard mass specrometric techniques and used to determine global runoff of strontium. Palmer & Edmond 1989 Goldstein & Jacobsen 1987
Japan 38 Sr 0.63             Strontium content of major world rivers as measured in micromoles per kilogram. All values obtained using standard mass specrometric techniques and used to determine riverine flux of strontium. Palmer & Edmond 1989 Goldstein & Jacobsen 1987
Juba River   87Sr/86Sr 0.7061             Estimated 87Sr/86Sr ratios normalized to a value of 0.7080. Precision is of no importance in measurements here due to the seasonal variation which causes concentration values to fluxuate. Palmer & Edmond 1989
Juba River 38 Sr 1.5             Estimated Sr concentrations derived from fluvial Ca data due to the precipitation of Sr with calcium carbonates in the sea. Sr concentrations were determined using standard mass spectrometric techniques. Palmer & Edmond 1989
Kazan River   87Sr/86Sr 0.7258             Strontium isotopic content of major world rivers. All values obtained using standard mass specrometric techniques and used to determine global runoff of strontium. Palmer & Edmond 1989 Wadleigh et al. 1985
Kazan River 38 Sr 0.263             Strontium content of major world rivers as measured in micromoles per kilogram. All values obtained using standard mass specrometric techniques and used to determine riverine flux of strontium. Palmer & Edmond 1989 Wadleigh et al. 1985
Kenya   87Sr/86Sr 0.7114             Estimated 87Sr/86Sr ratios normalized to a value of 0.7080. Precision is of no importance in measurements here due to the seasonal variation which causes concentration values to fluxuate. Palmer & Edmond 1989
Kenya 38 Sr 1.1             Estimated Sr concentrations derived from fluvial Ca data due to the precipitation of Sr with calcium carbonates in the sea. Sr concentrations were determined using standard mass spectrometric techniques. Palmer & Edmond 1989
Koksoak River   87Sr/86Sr 0.7301             Strontium isotopic content of major world rivers. All values obtained using standard mass specrometric techniques and used to determine global runoff of strontium. Palmer & Edmond 1989 Wadleigh et al. 1985
Koksoak River 38 Sr 0.171             Strontium content of major world rivers as measured in micromoles per kilogram. All values obtained using standard mass specrometric techniques and used to determine riverine flux of strontium. Palmer & Edmond 1989 Wadleigh et al. 1985
Kuskokwim River   87Sr/86Sr 0.709             Strontium isotopic content of major world rivers. All values obtained using standard mass specrometric techniques and used to determine global runoff of strontium. Palmer & Edmond 1989
Kuskokwim River 38 Sr 1.603             Strontium content of major world rivers as measured in micromoles per kilogram. All values obtained using standard mass specrometric techniques and used to determine riverine flux of strontium. Palmer & Edmond 1989
La Grande River   87Sr/86Sr 0.7346             Strontium isotopic content of major world rivers. All values obtained using standard mass specrometric techniques and used to determine global runoff of strontium. Palmer & Edmond 1989 Wadleigh et al. 1985
La Grande River 38 Sr 0.137             Strontium content of major world rivers as measured in micromoles per kilogram. All values obtained using standard mass specrometric techniques and used to determine riverine flux of strontium. Palmer & Edmond 1989 Wadleigh et al. 1985
Maas River   87Sr/86Sr 0.7085             Strontium isotopic content of major world rivers. All values obtained using standard mass specrometric techniques and used to determine global runoff of strontium. Palmer & Edmond 1989
Maas River 38 Sr 2.506             Strontium content of major world rivers as measured in micromoles per kilogram. All values obtained using standard mass specrometric techniques and used to determine riverine flux of strontium. Palmer & Edmond 1989
MacKenzie River   87Sr/86Sr 0.711             Strontium isotopic content of major world rivers. All values obtained using standard mass specrometric techniques and used to determine global runoff of strontium. Palmer & Edmond 1989 Wadleigh et al. 1985
MacKenzie River 38 Sr 2             Strontium content of major world rivers as measured in micromoles per kilogram. All values obtained using standard mass specrometric techniques and used to determine riverine flux of strontium. Palmer & Edmond 1989 Wadleigh et al. 1985
Mae Klong River   87Sr/86Sr 0.7164             Strontium isotopic content of major world rivers. All values obtained using standard mass specrometric techniques and used to determine global runoff of strontium. Palmer & Edmond 1989
Mae Klong River 38 Sr 0.75             Strontium content of major world rivers as measured in micromoles per kilogram. All values obtained using standard mass specrometric techniques and used to determine riverine flux of strontium. Palmer & Edmond 1989
Manicougan River   87Sr/86Sr 0.7169             Strontium isotopic content of major world rivers. All values obtained using standard mass specrometric techniques and used to determine global runoff of strontium. Palmer & Edmond 1989 Wadleigh et al. 1985
Manicougan River 38 Sr 0.137             Strontium content of major world rivers as measured in micromoles per kilogram. All values obtained using standard mass specrometric techniques and used to determine riverine flux of strontium. Palmer & Edmond 1989 Wadleigh et al. 1985
Manning River   87Sr/86Sr 0.7063             Strontium isotopic content of major world rivers. All values obtained using standard mass specrometric techniques and used to determine global runoff of strontium. Palmer & Edmond 1989 Goldstein & Jacobsen 1987
Manning River 38 Sr 1.02             Strontium content of major world rivers as measured in micromoles per kilogram. All values obtained using standard mass specrometric techniques and used to determine riverine flux of strontium. Palmer & Edmond 1989 Goldstein & Jacobsen 1987
Mekong River   87Sr/86Sr 0.7102             Strontium isotopic content of major world rivers. All values obtained using standard mass specrometric techniques and used to determine global runoff of strontium. Palmer & Edmond 1989
Mekong River 38 Sr 3.393             Strontium content of major world rivers as measured in micromoles per kilogram. All values obtained using standard mass specrometric techniques and used to determine riverine flux of strontium. Palmer & Edmond 1989
Middle Churchill River   87Sr/86Sr 0.72             Strontium isotopic content of major world rivers. All values obtained using standard mass specrometric techniques and used to determine global runoff of strontium. Palmer & Edmond 1989 Wadleigh et al. 1985
Middle Churchill River 38 Sr 0.263             Strontium content of major world rivers as measured in micromoles per kilogram. All values obtained using standard mass specrometric techniques and used to determine riverine flux of strontium. Palmer & Edmond 1989 Wadleigh et al. 1985
Mississippi River   87Sr/86Sr 0.7102             Strontium isotopic content of major world rivers. All values obtained using standard mass specrometric techniques and used to determine global runoff of strontium. Palmer & Edmond 1989 Stordal & Wasserburg 1986
Mississippi River 38 Sr 1.712             Strontium content of major world rivers as measured in micromoles per kilogram. All values obtained using standard mass specrometric techniques and used to determine riverine flux of strontium. Palmer & Edmond 1989 Stordal & Wasserburg 1986
Moisie River   87Sr/86Sr 0.7163             Strontium isotopic content of major world rivers. All values obtained using standard mass specrometric techniques and used to determine global runoff of strontium. Palmer & Edmond 1989 Wadleigh et al. 1985
Moisie River 38 Sr 0.137             Strontium content of major world rivers as measured in micromoles per kilogram. All values obtained using standard mass specrometric techniques and used to determine riverine flux of strontium. Palmer & Edmond 1989 Wadleigh et al. 1985
Moose River   87Sr/86Sr 0.7132             Strontium isotopic content of major world rivers. All values obtained using standard mass specrometric techniques and used to determine global runoff of strontium. Palmer & Edmond 1989 Wadleigh et al. 1985
Moose River 38 Sr 0.479             Strontium content of major world rivers as measured in micromoles per kilogram. All values obtained using standard mass specrometric techniques and used to determine riverine flux of strontium. Palmer & Edmond 1989 Wadleigh et al. 1985
Mozambique   87Sr/86Sr 0.716             Estimated 87Sr/86Sr ratios normalized to a value of 0.7080. Precision is of no importance in measurements here due to the seasonal variation which causes concentration values to fluxuate. Palmer & Edmond 1989
Mozambique 38 Sr 1.2             Estimated Sr concentrations derived from fluvial Ca data due to the precipitation of Sr with calcium carbonates in the sea. Sr concentrations were determined using standard mass spectrometric techniques. Palmer & Edmond 1989
Murchison River   87Sr/86Sr 0.728             Strontium isotopic content of major world rivers. All values obtained using standard mass specrometric techniques and used to determine global runoff of strontium. Palmer & Edmond 1989 Goldstein & Jacobsen 1987
Murchison River 38 Sr 12.326             Strontium content of major world rivers as measured in micromoles per kilogram. All values obtained using standard mass specrometric techniques and used to determine riverine flux of strontium. Palmer & Edmond 1989 Goldstein & Jacobsen 1987
Murray River   87Sr/86Sr 0.7108             Strontium isotopic content of major world rivers. All values obtained using standard mass specrometric techniques and used to determine global runoff of strontium. Palmer & Edmond 1989 Goldstein & Jacobsen 1987
Murray River 38 Sr 2.454             Strontium content of major world rivers as measured in micromoles per kilogram. All values obtained using standard mass specrometric techniques and used to determine riverine flux of strontium. Palmer & Edmond 1989 Goldstein & Jacobsen 1987
Nass River   87Sr/86Sr 0.7054             Strontium isotopic content of major world rivers. All values obtained using standard mass specrometric techniques and used to determine global runoff of strontium. Palmer & Edmond 1989 Wadleigh et al. 1985
Nass River 38 Sr 1.107             Strontium content of major world rivers as measured in micromoles per kilogram. All values obtained using standard mass specrometric techniques and used to determine riverine flux of strontium. Palmer & Edmond 1989 Wadleigh et al. 1985
Natashquan River   87Sr/86Sr 0.7131             Strontium isotopic content of major world rivers. All values obtained using standard mass specrometric techniques and used to determine global runoff of strontium. Palmer & Edmond 1989 Wadleigh et al. 1985
Natashquan River 38 Sr 0.137             Strontium content of major world rivers as measured in micromoles per kilogram. All values obtained using standard mass specrometric techniques and used to determine riverine flux of strontium. Palmer & Edmond 1989 Wadleigh et al. 1985
Nelson River   87Sr/86Sr 0.7146             Strontium isotopic content of major world rivers. All values obtained using standard mass specrometric techniques and used to determine global runoff of strontium. Palmer & Edmond 1989 Wadleigh et al. 1985
Nelson River 38 Sr 0.856             Strontium content of major world rivers as measured in micromoles per kilogram. All values obtained using standard mass specrometric techniques and used to determine riverine flux of strontium. Palmer & Edmond 1989 Wadleigh et al. 1985
Niger River   87Sr/86Sr 0.714             Strontium isotopic content of major world rivers. All values obtained using standard mass specrometric techniques and used to determine global runoff of strontium. Palmer & Edmond 1989
Niger River 38 Sr 0.25             Strontium content of major world rivers as measured in micromoles per kilogram. All values obtained using standard mass specrometric techniques and used to determine riverine flux of strontium. Palmer & Edmond 1989
Northern Churchill River   87Sr/86Sr 0.7176             Strontium isotopic content of major world rivers. All values obtained using standard mass specrometric techniques and used to determine global runoff of strontium. Palmer & Edmond 1989 Wadleigh et al. 1985
Northern Churchill River 38 Sr 0.08             Strontium content of major world rivers as measured in micromoles per kilogram. All values obtained using standard mass specrometric techniques and used to determine riverine flux of strontium. Palmer & Edmond 1989 Wadleigh et al. 1985
Nottaway River   87Sr/86Sr 0.7186             Strontium isotopic content of major world rivers. All values obtained using standard mass specrometric techniques and used to determine global runoff of strontium. Palmer & Edmond 1989 Wadleigh et al. 1985
Nottaway River 38 Sr 0.126             Strontium content of major world rivers as measured in micromoles per kilogram. All values obtained using standard mass specrometric techniques and used to determine riverine flux of strontium. Palmer & Edmond 1989 Wadleigh et al. 1985
Orange River   87Sr/86Sr 0.7146             Strontium isotopic content of major world rivers. All values obtained using standard mass specrometric techniques and used to determine global runoff of strontium. Palmer & Edmond 1989
Orange River 38 Sr 1.851             Strontium content of major world rivers as measured in micromoles per kilogram. All values obtained using standard mass specrometric techniques and used to determine riverine flux of strontium. Palmer & Edmond 1989
Orinoco River   87Sr/86Sr 0.7183             Strontium isotopic content of major world rivers. All values obtained using standard mass specrometric techniques and used to determine global runoff of strontium. Palmer & Edmond 1989
Orinoco River 38 Sr 0.21             Strontium content of major world rivers as measured in micromoles per kilogram. All values obtained using standard mass specrometric techniques and used to determine riverine flux of strontium. Palmer & Edmond 1989
Parana River   87Sr/86Sr 0.7139             Strontium isotopic content of major world rivers. All values obtained using standard mass specrometric techniques and used to determine global runoff of strontium. Palmer & Edmond 1989
Parana River 38 Sr 0.518             Strontium content of major world rivers as measured in micromoles per kilogram. All values obtained using standard mass specrometric techniques and used to determine riverine flux of strontium. Palmer & Edmond 1989
Pearl River   87Sr/86Sr 0.7119             Strontium isotopic content of major world rivers. All values obtained using standard mass specrometric techniques and used to determine global runoff of strontium. Palmer & Edmond 1989
Pearl River 38 Sr 0.767             Strontium content of major world rivers as measured in micromoles per kilogram. All values obtained using standard mass specrometric techniques and used to determine riverine flux of strontium. Palmer & Edmond 1989
Petit Mecatina River   87Sr/86Sr 0.7105             Strontium isotopic content of major world rivers. All values obtained using standard mass specrometric techniques and used to determine global runoff of strontium. Palmer & Edmond 1989 Wadleigh et al. 1985
Petit Mecatina River 38 Sr 0.148             Strontium content of major world rivers as measured in micromoles per kilogram. All values obtained using standard mass specrometric techniques and used to determine riverine flux of strontium. Palmer & Edmond 1989 Wadleigh et al. 1985
Philippines   87Sr/86Sr 0.7056             Strontium isotopic content of major world rivers. All values obtained using standard mass specrometric techniques and used to determine global runoff of strontium. Palmer & Edmond 1989 Goldstein & Jacobsen 1987
Philippines 38 Sr 1.41             Strontium content of major world rivers as measured in micromoles per kilogram. All values obtained using standard mass specrometric techniques and used to determine riverine flux of strontium. Palmer & Edmond 1989 Goldstein & Jacobsen 1987
Rhine River   87Sr/86Sr 0.7092             Strontium isotopic content of major world rivers. All values obtained using standard mass specrometric techniques and used to determine global runoff of strontium. Palmer & Edmond 1989
Rhine River 38 Sr 6.227             Strontium content of major world rivers as measured in micromoles per kilogram. All values obtained using standard mass specrometric techniques and used to determine riverine flux of strontium. Palmer & Edmond 1989
Rhone River   87Sr/86Sr 0.7087             Strontium isotopic content of major world rivers. All values obtained using standard mass specrometric techniques and used to determine global runoff of strontium. Palmer & Edmond 1989 Albarede & Michard 1987
Rhone River 38 Sr 5.936             Strontium content of major world rivers as measured in micromoles per kilogram. All values obtained using standard mass specrometric techniques and used to determine riverine flux of strontium. Palmer & Edmond 1989 Albarede & Michard 1987
Rio Grande River   87Sr/86Sr 0.7092             Strontium isotopic content of major world rivers. All values obtained using standard mass specrometric techniques and used to determine global runoff of strontium. Palmer & Edmond 1989
Rio Grande River 38 Sr 3.247             Strontium content of major world rivers as measured in micromoles per kilogram. All values obtained using standard mass specrometric techniques and used to determine riverine flux of strontium. Palmer & Edmond 1989
Rivers   87Sr/86Sr 0.7119             Global average of isotopic strontium content due to continental runoff and river input. This value is much higher than was originally given by previous references which partly accounts for the rise in the global Sr budget across the board. Palmer & Edmond 1989
Rivers 38 Sr 0.89             Global strontium content input to the oceans by continental runoff by rivers. Palmer & Edmond 1989
Rupert River   87Sr/86Sr 0.7283             Strontium isotopic content of major world rivers. All values obtained using standard mass specrometric techniques and used to determine global runoff of strontium. Palmer & Edmond 1989 Wadleigh et al. 1985
Rupert River 38 Sr 0.08             Strontium content of major world rivers as measured in micromoles per kilogram. All values obtained using standard mass specrometric techniques and used to determine riverine flux of strontium. Palmer & Edmond 1989 Wadleigh et al. 1985
Saguenay River   87Sr/86Sr 0.7131             Strontium isotopic content of major world rivers. All values obtained using standard mass specrometric techniques and used to determine global runoff of strontium. Palmer & Edmond 1989 Wadleigh et al. 1985
Saguenay River 38 Sr 0.263             Strontium content of major world rivers as measured in micromoles per kilogram. All values obtained using standard mass specrometric techniques and used to determine riverine flux of strontium. Palmer & Edmond 1989 Wadleigh et al. 1985
Salween River   87Sr/86Sr 0.7102             Estimated 87Sr/86Sr ratios normalized to a value of 0.7080. Precision is of no importance in measurements here due to the seasonal variation which causes concentration values to fluxuate. Palmer & Edmond 1989
Salween River 38 Sr 3.393             Estimated Sr concentrations derived from fluvial Ca data due to the precipitation of Sr with calcium carbonates in the sea. Sr concentrations were determined using standard mass spectrometric techniques. Palmer & Edmond 1989
Sao Francisco River   87Sr/86Sr 0.717             Estimated 87Sr/86Sr ratios normalized to a value of 0.7080. Precision is of no importance in measurements here due to the seasonal variation which causes concentration values to fluxuate. Palmer & Edmond 1989
Sao Francisco River 38 Sr 0.253             Estimated Sr concentrations derived from fluvial Ca data due to the precipitation of Sr with calcium carbonates in the sea. Sr concentrations were determined using standard mass spectrometric techniques. Palmer & Edmond 1989
Schelde River   87Sr/86Sr 0.7088             Strontium isotopic content of major world rivers. All values obtained using standard mass specrometric techniques and used to determine global runoff of strontium. Palmer & Edmond 1989
Schelde River 38 Sr 5.065             Strontium content of major world rivers as measured in micromoles per kilogram. All values obtained using standard mass specrometric techniques and used to determine riverine flux of strontium. Palmer & Edmond 1989
Seawater   87Sr/86Sr 0.70916             Global isotopic strontium content in seawater which has been found in this study to not be in a steady state as was previously believed. Hydrothermal flux and riverine input have caused the concentration to vary greatly. Palmer & Edmond 1989
Seawater 38 Sr 90             Global strontium content in seawater which has been found in this study to not be in a steady state as was previously believed. Hydrothermal flux and riverine input have caused the concentration to vary greatly. Palmer & Edmond 1989
Seine River   87Sr/86Sr 0.7081             Strontium isotopic content of major world rivers. All values obtained using standard mass specrometric techniques and used to determine global runoff of strontium. Palmer & Edmond 1989
Seine River 38 Sr 4.574             Strontium content of major world rivers as measured in micromoles per kilogram. All values obtained using standard mass specrometric techniques and used to determine riverine flux of strontium. Palmer & Edmond 1989
Severn River   87Sr/86Sr 0.7182             Strontium isotopic content of major world rivers. All values obtained using standard mass specrometric techniques and used to determine global runoff of strontium. Palmer & Edmond 1989 Wadleigh et al. 1985
Severn River 38 Sr 0.388             Strontium content of major world rivers as measured in micromoles per kilogram. All values obtained using standard mass specrometric techniques and used to determine riverine flux of strontium. Palmer & Edmond 1989 Wadleigh et al. 1985
Skeena River   87Sr/86Sr 0.7046             Strontium isotopic content of major world rivers. All values obtained using standard mass specrometric techniques and used to determine global runoff of strontium. Palmer & Edmond 1989 Wadleigh et al. 1985
Skeena River 38 Sr 0.811             Strontium content of major world rivers as measured in micromoles per kilogram. All values obtained using standard mass specrometric techniques and used to determine riverine flux of strontium. Palmer & Edmond 1989 Wadleigh et al. 1985
St. John River   87Sr/86Sr 0.7098             Strontium isotopic content of major world rivers. All values obtained using standard mass specrometric techniques and used to determine global runoff of strontium. Palmer & Edmond 1989 Wadleigh et al. 1985
St. John River 38 Sr 0.674             Strontium content of major world rivers as measured in micromoles per kilogram. All values obtained using standard mass specrometric techniques and used to determine riverine flux of strontium. Palmer & Edmond 1989 Wadleigh et al. 1985
St. Lawrence River   87Sr/86Sr 0.7095             Strontium isotopic content of major world rivers. All values obtained using standard mass specrometric techniques and used to determine global runoff of strontium. Palmer & Edmond 1989 Wadleigh et al. 1985
St. Lawrence River 38 Sr 1.564             Strontium content of major world rivers as measured in micromoles per kilogram. All values obtained using standard mass specrometric techniques and used to determine riverine flux of strontium. Palmer & Edmond 1989 Wadleigh et al. 1985
St. Maurice River   87Sr/86Sr 0.7112             Strontium isotopic content of major world rivers. All values obtained using standard mass specrometric techniques and used to determine global runoff of strontium. Palmer & Edmond 1989 Wadleigh et al. 1985
St. Maurice River 38 Sr 0.126             Strontium content of major world rivers as measured in micromoles per kilogram. All values obtained using standard mass specrometric techniques and used to determine riverine flux of strontium. Palmer & Edmond 1989 Wadleigh et al. 1985
Stikine River   87Sr/86Sr 0.7054             Strontium isotopic content of major world rivers. All values obtained using standard mass specrometric techniques and used to determine global runoff of strontium. Palmer & Edmond 1989 Wadleigh et al. 1985
Stikine River 38 Sr 0.662             Strontium content of major world rivers as measured in micromoles per kilogram. All values obtained using standard mass specrometric techniques and used to determine riverine flux of strontium. Palmer & Edmond 1989 Wadleigh et al. 1985
Susquehanna River   87Sr/86Sr 0.7142             Strontium isotopic content of major world rivers. All values obtained using standard mass specrometric techniques and used to determine global runoff of strontium. Palmer & Edmond 1989 Fisher & Stueber 1976
Susquehanna River 38 Sr 1.225             Strontium content of major world rivers as measured in micromoles per kilogram. All values obtained using standard mass specrometric techniques and used to determine riverine flux of strontium. Palmer & Edmond 1989 Fisher & Stueber 1976
Tamar River   87Sr/86Sr 0.7098             Strontium isotopic content of major world rivers. All values obtained using standard mass specrometric techniques and used to determine global runoff of strontium. Palmer & Edmond 1989
Tamar River 38 Sr 0.928             Strontium content of major world rivers as measured in micromoles per kilogram. All values obtained using standard mass specrometric techniques and used to determine riverine flux of strontium. Palmer & Edmond 1989
Tanzania   87Sr/86Sr 0.7219             Estimated 87Sr/86Sr ratios normalized to a value of 0.7080. Precision is of no importance in measurements here due to the seasonal variation which causes concentration values to fluxuate. Palmer & Edmond 1989
Tanzania 38 Sr 0.492             Estimated Sr concentrations derived from fluvial Ca data due to the precipitation of Sr with calcium carbonates in the sea. Sr concentrations were determined using standard mass spectrometric techniques. Palmer & Edmond 1989
Tapajos River   87Sr/86Sr 0.7322             Strontium isotopic content of major world rivers. All values obtained using standard mass specrometric techniques and used to determine global runoff of strontium. Palmer & Edmond 1989
Tapajos River 38 Sr 0.1             Strontium content of major world rivers as measured in micromoles per kilogram. All values obtained using standard mass specrometric techniques and used to determine riverine flux of strontium. Palmer & Edmond 1989
Thelon River   87Sr/86Sr 0.7188             Strontium isotopic content of major world rivers. All values obtained using standard mass specrometric techniques and used to determine global runoff of strontium. Palmer & Edmond 1989 Wadleigh et al. 1985
Thelon River 38 Sr 0.16             Strontium content of major world rivers as measured in micromoles per kilogram. All values obtained using standard mass specrometric techniques and used to determine riverine flux of strontium. Palmer & Edmond 1989 Wadleigh et al. 1985
Tisza River   87Sr/86Sr 0.7096             Strontium isotopic content of major world rivers. All values obtained using standard mass specrometric techniques and used to determine global runoff of strontium. Palmer & Edmond 1989
Tisza River 38 Sr 2.043             Strontium content of major world rivers as measured in micromoles per kilogram. All values obtained using standard mass specrometric techniques and used to determine riverine flux of strontium. Palmer & Edmond 1989
Tocantins River   87Sr/86Sr 0.717             Strontium isotopic content of major world rivers. All values obtained using standard mass specrometric techniques and used to determine global runoff of strontium. Palmer & Edmond 1989
Tocantins River 38 Sr 0.253             Strontium content of major world rivers as measured in micromoles per kilogram. All values obtained using standard mass specrometric techniques and used to determine riverine flux of strontium. Palmer & Edmond 1989
Victoria Nile River   87Sr/86Sr 0.7114             Strontium isotopic content of major world rivers. All values obtained using standard mass specrometric techniques and used to determine global runoff of strontium. Palmer & Edmond 1989
Victoria Nile River 38 Sr 1.102             Strontium content of major world rivers as measured in micromoles per kilogram. All values obtained using standard mass specrometric techniques and used to determine riverine flux of strontium. Palmer & Edmond 1989
Vistula River   87Sr/86Sr 0.7094             Strontium isotopic content of major world rivers. All values obtained using standard mass specrometric techniques and used to determine global runoff of strontium. Palmer & Edmond 1989
Vistula River 38 Sr 4.942             Strontium content of major world rivers as measured in micromoles per kilogram. All values obtained using standard mass specrometric techniques and used to determine riverine flux of strontium. Palmer & Edmond 1989
Wesser River   87Sr/86Sr 0.7089             Strontium isotopic content of major world rivers. All values obtained using standard mass specrometric techniques and used to determine global runoff of strontium. Palmer & Edmond 1989
Wesser River 38 Sr 8.229             Strontium content of major world rivers as measured in micromoles per kilogram. All values obtained using standard mass specrometric techniques and used to determine riverine flux of strontium. Palmer & Edmond 1989
Winisk River   87Sr/86Sr 0.7177             Strontium isotopic content of major world rivers. All values obtained using standard mass specrometric techniques and used to determine global runoff of strontium. Palmer & Edmond 1989 Wadleigh et al. 1985
Winisk River 38 Sr 0.251             Strontium content of major world rivers as measured in micromoles per kilogram. All values obtained using standard mass specrometric techniques and used to determine riverine flux of strontium. Palmer & Edmond 1989 Wadleigh et al. 1985
Xingu River   87Sr/86Sr 0.7292             Strontium isotopic content of major world rivers. All values obtained using standard mass specrometric techniques and used to determine global runoff of strontium. Palmer & Edmond 1989
Xingu River 38 Sr 0.156             Strontium content of major world rivers as measured in micromoles per kilogram. All values obtained using standard mass specrometric techniques and used to determine riverine flux of strontium. Palmer & Edmond 1989
Yangtze River   87Sr/86Sr 0.7109             Strontium isotopic content of major world rivers. All values obtained using standard mass specrometric techniques and used to determine global runoff of strontium. Palmer & Edmond 1989
Yangtze River 38 Sr 2.053             Strontium content of major world rivers as measured in micromoles per kilogram. All values obtained using standard mass specrometric techniques and used to determine riverine flux of strontium. Palmer & Edmond 1989
Yellow River   87Sr/86Sr 0.7111             Strontium isotopic content of major world rivers. All values obtained using standard mass specrometric techniques and used to determine global runoff of strontium. Palmer & Edmond 1989
Yellow River 38 Sr 7.458             Strontium content of major world rivers as measured in micromoles per kilogram. All values obtained using standard mass specrometric techniques and used to determine riverine flux of strontium. Palmer & Edmond 1989
Yukon River   87Sr/86Sr 0.7137             Strontium isotopic content of major world rivers. All values obtained using standard mass specrometric techniques and used to determine global runoff of strontium. Palmer & Edmond 1989
Yukon River 38 Sr 1.589             Strontium content of major world rivers as measured in micromoles per kilogram. All values obtained using standard mass specrometric techniques and used to determine riverine flux of strontium. Palmer & Edmond 1989
Zambezi River   87Sr/86Sr 0.716             Estimated 87Sr/86Sr ratios normalized to a value of 0.7080. Precision is of no importance in measurements here due to the seasonal variation which causes concentration values to fluxuate. Palmer & Edmond 1989
Zambezi River 38 Sr 1.2             Estimated Sr concentrations derived from fluvial Ca data due to the precipitation of Sr with calcium carbonates in the sea. Sr concentrations were determined using standard mass spectrometric techniques. Palmer & Edmond 1989
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