Reliance on reference conditions in a contemporary, relatively un

Reliance on reference conditions in a contemporary, relatively unaltered ecosystem can be misleading because contemporary conditions reflect only a single state or limited portion of the HRV (SER, 2002). In other words, we cannot metaphorically point

to some time prior to the development of agriculture or other intensive human activity and use information regarding ecosystem conditions from this time as a precise target for managing and restoring an ecosystem. But, geomorphologists can help to inform understanding of HRV, particularly by emphasizing (i) the depth and breadth find more of records of the critical zone contained in landforms, (ii) the extent, intensity, variety and duration of past human alterations of the critical zone, and (iii) the dynamic nature of landscape processes. Fluxes of matter and energy within the critical zone influence landscape configuration and the processes that maintain or alter that configuration – in other words, geomorphology. Since its origin, geomorphology has been especially concerned with the movement of water and sediment at the surface and near-surface (in the atmosphere and below the ground surface), and this focus has broadened to Erastin solubility dmso include solutes and particulate organic matter. Geomorphologists have numerous qualitative and quantitative models of

water and sediment transport and storage, and many of these models are, or can be, coupled to solute fluxes for hillslope, river, glacial and other environments. Our specialized insight into fluxes – exemplified by equations such as those developed for soil production (Heimsath et al., 1997), hillslope sediment diffusion (Roering et al., 2001), rainfall-infiltration-runoff (Refsgaard PRKACG and Storm, 1995), flow routing through stream networks (Marks and Bates, 2000), or bedload transport within rivers (Meyer-Peter and Mueller, 1948) – and storage within diverse landforms (e.g., floodplains, terraces, deltas, alluvial fans) positions us uniquely to quantify how past human activities have affected fluxes and to numerically

simulate and quantitatively predict the effects of proposed future human manipulations on fluxes. Quantifying magnitude and spatial and temporal dimensions of fluxes is at the heart of understanding interactions between human resource use, landscapes and ecosystems, as illustrated by the earlier example of sand fluxes in the Grand Canyon. Ecological integrity can be defined as the ability of an ecosystem to support and maintain a community of organisms with species composition, diversity, and functional organization similar to those within natural habitats in the same region (Parrish et al., 2003). This definition focuses on biota, although the physical and chemical processes that sustain the biota are implicitly included.

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