6.1: Sediments and Biogeochemical Cycles

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Sediments are important components of biogeochemical cycles (Chap. 5), and they act as both sinks and sources of elements dissolved in seawater. Human civilization has now altered the steady state (Chap. 5) of the biogeochemical cycles of many elements by mining rocks and burning fossil fuels; by deforestation, which increases erosion; and by releasing contaminants that cause acid rain and promote leaching. Many human activities have increased the rate at which some elements enter the ocean and atmosphere, which will probably cause concentrations of these elements in seawater to rise even if the rate of removal to the sediment increases to match the increased input rate (CC8).

For many elements, the rate of input to the oceans has varied over millions of years. Periods of intense volcanic activity or changes in land erosion rates related to sea-level and glaciation changes, for example, affect the rate of input to the oceans. Without a full understanding of these processes, we cannot understand or predict how releases of elements due to human activities will affect the ocean environment. Biogeochemical cycles are difficult to study because of their many complex interactions and because some of the key processes occur on timescales of tens of millions of years. Fortunately, seafloor sediments preserve a history of the biogeochemical cycles and their variations over the past 170 million years (the age range of almost all surviving seafloor; Chap. 4) and perhaps as far back as 340 million years ago. Sedimentary rocks on land preserve even older history. Studying the jigsaw puzzle of information contained in ocean sediment is essential to understanding the consequences of human activities, including pollution (Chap. 16).

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