As scientists from diverse disciplines improve the ability to qua

As scientists from diverse disciplines improve the ability to quantify rates and magnitudes of diverse fluxes, it becomes increasingly clear that the majority of landscape change occurs during relatively short periods of time and that some portions of the

landscape are much more dynamic than other portions, as illustrated by several examples. Biogeochemists describe a short period of time with disproportionately high reaction rates relative to longer intervening time periods as a hot moment, and a small area with disproportionately high reaction rates relative AZD6244 to the surroundings as a hot spot (McClain et al., 2003). Numerous examples of inequalities in time and space exist in the geomorphic literature. More than 75% of the long-term sediment flux from mountain rivers in Taiwan occurs less than 1% of the time, during typhoon-generated floods (Kao and Milliman, 2008). Approximately 50% of the suspended sediment discharged by rivers of the Western Transverse Ranges of California, USA comes from the 10% of the basin underlain by weakly consolidated bedrock (Warrick and Mertes, 2009). Somewhere between 17% and 35% of the total particulate organic carbon flux to the world’s oceans comes from high-standing islands in

the southwest Pacific, which constitute only about 3% of Earth’s landmass (Lyons et al., 2002). One-third of the total amount of stream energy generated by the Tapi River of India during the monsoon season is expended http://www.selleckchem.com/products/Trichostatin-A.html on the day of the peak flood (Kale and Hire, 2007). Three-quarters of the carbon

stored in dead wood and floodplain sediments along headwater mountain stream networks Interleukin-2 receptor in the Colorado Front Range is stored in one-quarter of the total length of the stream network (Wohl et al., 2012). Because not all moments in time or spots on a landscape are of equal importance, effective understanding and management of critical zone environments requires knowledge of how, when, and where fluxes occur. Particularly dynamic portions of a landscape, such as riparian zones, may be disproportionately important in providing ecosystem services, for example, and relatively brief natural disturbances, such as floods, may be disproportionately important in ensuring reproductive success of fish populations. Recognition of inequalities also implies that concepts and process-response models based on average conditions should not be uncritically applied to all landscapes and ecosystems. Geomorphologists are used to thinking about thresholds. Use of the term grew rapidly following Schumm’s seminal 1973 paper “Geomorphic thresholds and complex response of drainage systems,” although thinking about landscape change in terms of thresholds was implicit prior to this paper, as Schumm acknowledged.

Leave a Reply

Your email address will not be published. Required fields are marked *

*

You may use these HTML tags and attributes: <a href="" title=""> <abbr title=""> <acronym title=""> <b> <blockquote cite=""> <cite> <code> <del datetime=""> <em> <i> <q cite=""> <strike> <strong>