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The Grand Geochemical Cycle: Residence time The average time that a substance remains dissolved in seawater We call this the “residence time” of an element.

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Presentation on theme: "The Grand Geochemical Cycle: Residence time The average time that a substance remains dissolved in seawater We call this the “residence time” of an element."— Presentation transcript:

1 The Grand Geochemical Cycle: Residence time The average time that a substance remains dissolved in seawater We call this the “residence time” of an element or substance where Input rate= average concentration in rivers (kg/km 3 ) x river discharge (km 3 /yr) Let’s consider: We will see how this works: first for water, then for total salt, and, finally, for some individual elements. These calculations give us insights into how the system works Residence Time (yrs.) = Total amount in seawater (kg) Input rate (kg/yr)

2 How long does it take to cycle ocean water through rivers and back again? Residence time of water in the ocean Volume = 1.4 x 10 9 km 3 River Influx = 3.7 x 10 5 km 3 /yr t = Volume / Influx 1.4 x 10 9 km 3 3.7 x 10 5 km 3 t = 4000 years t =

3 The Grand Geochemical Cycle How much time to make the ocean salty? about 5 x 10 22 grams of dissolved solids in ocean rivers bring in about 2.5 x 10 15 gm dissolved solids per year --think about it! Should only take about 2 x 10 7 years (20 million yrs.) to bring oceans to present salinity --but we know oceans are 3.8 billion yrs. old Assuming: rivers have kept approx. same input through time oceans have kept approx. same composition through time This confirms that there must be output of material from ocean!!

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