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WinXSPRO is an interactive Windows software package designed to analyze stream channel cross section data for geometric, hydraulic, and sediment transport parameters. WinXSPRO was specifically developed for use in high-gradient streams (gradient > 0.01) and supports four alternative resistance equations for computing boundary roughness and resistance to flow. Cross section input data may be from standard cross section surveys using a rod and level or sag-tape procedures. WinXSPRO allows the user to subdivide the channel cross section into multiple sub-sections and has the ability to vary watersurface slopes with discharge to reflect natural conditions. Analysis options include developing stage-discharge relationships, evaluating changes in channel cross-sectional area, and computing sediment transport rates. Resource specialists can use the estimated stream-channel geometry cross section hydraulic characteristics and sediment transport output to assist with channel design and monitoring, instream flow analysis, the restoration of riparian areas, and the placement of instream structures.
Mountain Geomorphology - Integrating Earth Systemspresents the papers of the 32nd Annual Binghamton Geomorphology Symposium, held in 2001 in advance of the United Nations-designated '2002 International Year of Mountains'.The three co-editors have collectively worked in mountain environments for over 70 years, and brought together internationally recognized experts in mountain geomorphology from 7 nations presenting research on mountain processes from around the world, including the USA, Canada, China, Europe, and South America.The volume utilizes Earth Systems as a unifying and organizing theme, examining the interactions of the four Earth "spheres" (Lithosphere, Biosphere, Atmosphere, and Hydrosphere) in the context of geomorphic processes in mountain environments. The volume is also a "Festschrift" in honor of Professor John D. "Jack" Vitek, long-time editor of Geomorphology and an outstanding mentor to each of the three co-editors. Papers presented in the volume represent cutting-edge examinations of mountain landforms, geomorphic processes in mountains, and the application of advanced remote sensing and Geographic Information Science technologies for the study of mountain geomorphology.The book should be of interest to all geomorphologists, and to physical geographers and geologists interested in mountain environments. Mountain Geomorphology - Integrating Earth Systemsis the only book of its kind, and stands as a testament to the importance of mountains as locations for studying the interaction of geomorphic processes within an Earth Systems perspective.
This book reports an approach developed to research and apply methods of assessing patterns of processes in the landscape, and suitability of different types of vegetation to mitigate soil erosion and sediment flux. Practical guidelines on a spatially strategic approach to management of land degradation at a range of spatial scales were produced. Originally developed for the Mediterranean environment, it has much wider potential global application. It provides researchers with methods to acquire the knowledge necessary for such an approach and provides practitioners with guidance on implementation and benefits of targeted methods of soil erosion control. It includes substantial information about processes and vegetation in the Mediterranean environment and the species effectiveness in soil erosion control.
A study of the effect of streamflow on Chinook salmon in the Mokelumne River and Yuba River in California.
We describe a protocol to monitor the effectiveness of the Tongass Land Management Plan (TLMP) management standards for maintaining fish habitat. The protocol uses juvenile coho salmon (Oncorhynchus kisutch) in small tributary streams in forested watersheds. We used a 3-year pilot study to develop detailed methods to estimate juvenile salmonid populations, measure habitat, and quantitatively determine trends in juvenile coho salmon abundance over 10 years. Coho salmon have been shown to be sensitive to habitat alterations, and we use coho salmon parr as the primary indicator in the protocol. A priori criteria for type I and type II error rates, effect size, and sample sizes for the protocol were derived with estimates of variance computed from the 3-year pilot study. The protocol is designed to detect trends in abundance of coho salmon parr, as well as coho salmon fry and Dolly Varden (Salvelinus malma), in small streams managed according to TLMP standards and guidelines and to compare these to trends in unmanaged (old-growth) watersheds. Trends are adjusted to account for statistically significant habitat covariates. This information provides an important element in monitoring land management practices in the Tongass National Forest. The methods we describe may have application to monitoring protocols elsewhere for fish populations and land management practices.