![]() ![]() Grid name: trav_ID Common Name: Debris flow traversal (the probability of debris flows traversing channel grid cells) Also see Warning about using Slope Stability Models.įield Name: P_DF_AVE Common Name: Debris Flow Susceptibilityįield Name: DF_Junct Common Name: Debris Flow Susceptibility – Junctions A calibration tool is planned for NetMap in later 2014. Although the model employs universal topographic indicators of debris flow initiation and runout potential increased accuracy and resolution can be obtained when debris flow model is calibrated using local data (georeferenced locations of debris flow initiation and runout). Thus when used outside of that landscape, the model should be considered as a screening tool that provides a relative ranking of instability potential(e.g., low - high). Important Notice: This erosion model is calibrated for the Oregon Coast Range. There are four component models that address debris flow rish in streams, debris flow risk at tributary confluences (fish eye view), proportion of debris flow risk (0-100%) based on predicted delivery to streams of a specified channel gradient threshold (see Delivery Tool ), and combined shallow landslide-debris flow risk proportion (also using a user specified delivery channel gradient threshold). Predictions include debris flow susceptibility across entire river networks, focusing on headwater streams, and debris flow susceptibilities in mainstem (fish bearing) channels at headwater tributary junctions (e.g., likely areas of debris flows impacts from steeper headwater channels). The NHDplus allows for the communication of NetMap’s attributes and analysis results to the common national hydrography platform used for distributing data and modeling results across large and diverse stakeholder groups.Parameter Description: The susceptibility of channels to debris flow movement, scour and deposition, in terms of probability an empirical model. NetMap provides derivation of detailed hydrography extending to the ephemeral and unchanneled portions of landscapes, connectivity and routing analyses, and advanced tools for resource management, risk mitigation and conservation, with transfer of that information to the NHDplus. Explore our website to learn more.Ĭompatibility & Fusion with the NHD/NHDplus: NetMap and the NHDplus have compatible goals and each provides value-added facilities to the other. NetMap applications include fish habitat mapping, floodplain delineation, road analyses, slope stability, riparian management and wildfire. NetMap also provides support in the form of (1) online technical help, (2) step-wise guides, (3) online mapping tools and a (4) community based approach to tool development and dissemination. Our goal at TerrainWorks is to make user-friendly GIS virtual watersheds and smart river networks available to agencies, NGOs, universities and the private sector. NetMap was created to provide off-the-shelf analysis capabilities in resource management, risk mitigation and conservation unavailable in other formats. TerrainWorks, with its flagship analysis technology “NetMap”, is being used by NOAA, US Forest Service, EPA, BLM, US Fish and Wildfire Service, Conservation NGOs, watershed councils, tribes, private sector, universities and internationally. NetMap can be built and applied anywhere in the world (Global Opportunity). TerrainWorks provides comprehensive analyses, ranging in scale from entire landscapes to watersheds to individual stream reaches, and is designed to be collaborative and accessible. NetMap’s unique set of virtual watersheds, analysis tools and online technical help, is designed to provide decision support in forestry, fisheries, restoration, riparian management, conservation, pre- and post-wildfire planning and climate change. ![]() It enables users to extrapolate survey results to unsurveyed streams by using GIS to estimate habitat abundance, potential fish abundance, or fish carrying capacity, for example. The output is a shapefile of survey reaches with both the survey data and attributes associated with the digitally produced stream layer (e.g., drainage area, gradient, and valley width). It hosts a climate change component that includes projected changes in seasonal hydrographs, changes in the likely location of snow-to-rain transition zones, and thermal loading. This tool based on a geographic information system matches stream-survey data to digitally produced stream layers created with NetStream software.NetMap contains models that allow the user to conduct analyses on various parameters that influence aquatic ecosystems such as wood recruitment, erosion sources, and potential habitat. A GIS-based tool for linking field and digital stream data. ![]()
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