Geomorphologists increasingly focus on such interactions in the f

Geomorphologists increasingly focus on such interactions in the form of feedback loops between resource use, landscape stability, ecosystem processes, resource availability, and natural hazards (Chin et al., in press). An example comes from the sediment budget developed for the Colorado River in Grand Canyon (Wiele et al., 2007 and Melis, 2011). Much of the river sand within Grand Canyon comes from upstream and is now trapped by the dam, but sand also enters Grand Canyon via tributaries downstream from the dam. Sand present along the main river corridor at the time of dam

closure can also be redistributed between channel-bed and channel-margin storage sites. Alteration of water and sediment fluxes by Glen Canyon Dam has RG7420 manufacturer led to beach erosion and loss of fish habitat in Grand Canyon, affecting recreational river runners and endemic native fish Compound C populations. Resource managers respond to these landscape and ecosystem alterations by experimenting with different ways of operating the dam. The availability and distribution of sand-sized sediment drives decisions as to when managers will create experimental floods by releasing larger-than-average

volumes of water from the dam. Given the documented extent and intensity of human alteration of the critical zone, a vital question now is how can geomorphologists most PAK6 effectively respond to this state of affairs? More than one recently published paper notes the absence of a geomorphic perspective in discussions of global change and sustainability (e.g., Grimm and van der Pluijm, 2012, Knight and Harrison, 2012 and Lane, 2013). Geomorphologists certainly have important contributions to make to scholarly efforts to understand and predict diverse aspects of global change and sustainability, but thus far the community as a whole has not been very effective in communicating this to scholars in other disciplines or to society in general. Scientists as a group are

quite aware of existing and accelerating global change, but there may be less perception of the long history of human manipulation of surface and near-surface environments, or of the feedbacks through time between human actions and landscape configuration and process. Geomorphologists can particularly contribute to increasing awareness of human effects on the critical zone during past centuries. Geomorphologists can also identify how human-induced alterations in the critical zone propagate through ecosystems and human communities – that is, geomorphologists can contribute the recognition that landscapes are not static entities with simple or easily predictable responses to human manipulation, but are rather complex, nonlinear systems that commonly display unexpected responses to human alteration.

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