Ranking Brook Trout Habitat Patches for Resiliency to Climate Change Brad Trumbo And Mark Hudy USDA Forest Service Fish and Aquatic Ecology Unit James.

Slides:

Advertisements

Similar presentations

Implement the Grande Ronde Model Watershed Program Administration and Habitat Restoration Projects Project Lyle Kuchenbecker, Project Planner.

Advertisements

LOWER SALMON RIVER Tributary Protection and Enhancement.

Little Canyon Creek Subwatershed Steelhead Trout Habitat Improvement Project Sponsored by: Lewis Soil Conservation District.

Acquire South Fork Asotin Creek Property A proposal from the Rocky Mountain Elk Foundation.

Cyndi Baker & Jen Graham. Began in 1998 to document bull trout life history in WSR and SC and monitor population abundance Data from 1998.

Ralph W. Tingley III 1, Richard MacKenzie 2, Dana M. Infante 1, Ayron M. Strauch 3 1 Department of Fisheries and Wildlife, Michigan State University, East.

David McCormick & Simon Harrison

Middle Eel River Initiative: A collaborative approach for ecological studies.

Monitoring of Great Basin Redband Trout 6 Year Pilot Study ODFW Native Fish Investigations Project.

Yakama Nation Pacific Lamprey Recovery Project Core Data And Monitoring Framework.

Joey Wisby GIS Manager Tennessee Chapter of The Nature Conservancy.

Mid-Atlantic Region Workgroup Pennsylvania, West Virginia, New Jersey, Maryland, Ohio 1. Maintain the status of 746 subwatersheds classified as healthy.

Soil CO 2 Efflux from a Subalpine Catchment Diego A. Riveros-Iregui 1, Brian L. McGlynn 1, Vincent J. Pacific 1, Howard E. Epstein 2, Daniel L. Welsch,

Request to Revise the Executive Order Brook Trout Outcome to Align with State Restoration Efforts Jeff Horan, Habitat GIT Chair Doug Stang, EBTJV Steering.

Paul Scheerer, Brian Bangs, and Shaun Clements Native Fish Investigations Program Oregon Department of Fish and Wildlife Do Native and Nonnative Fish Partition.

The central theme of this project is to attempt to quantify the effect of riparian cover on stream water temperature at small spatial scales, with a view.

Down-scaling climate data for microclimate models and forecasts Securing the Conservation of biodiversity across Administrative Levels and spatial, temporal.

A landscape perspective of stream food webs: Exploring cumulative effects and defining biotic thresholds.

Development of Aquatic Ecosystem Models Lizhu Wang, Shaw Lacy, Paul Seebach, Mike Wiley Institute for Fisheries Research MDNR and U of M.

What are the potential impacts of climate change on fresh water recreational fishing opportunities in the U.S.? Presentation to: Water Ecology and Climate.

Methods for Estimating Distributions Static Distributions –Polygon –Grid –Habitat Mapping.

Incorporating Spatial Heterogeneity in Temperature into Climate Vulnerability Assessments for Coastal Pacific Streams NOAA, UW, USGS This project will.

Hancock Springs A natural lab for studying the roles of physical habitat, nutrient availability, and non-native species to inform river restoration John.

Benjamin Blandford, PhD University of Kentucky Kentucky Transportation Center Michael Shouse, PhD University of Southern Illinois.

Sonoma Ecology Center TMDL Implementation Project Update November 4, 2011 Funded by EPA, Managed by SFEP, Administered by MMWD, and north bay partnership.

EBT Joint Venture Goals. Visionary EBT Joint Venture Goals Visionary Long Term.

Watershed Assessment and Planning. Review Watershed Hydrology Watershed Hydrology Watershed Characteristics and Processes Watershed Characteristics and.

The Utility of Spatially Explicit Parameters in Phosphorus Water Quality Monitoring Graduate Student: Mark Breunig Graduate Advisor: Dr. Paul McGinley.

U.S. Department of the Interior U.S. Geological Survey Leetown Science Center Research in the Shenandoah Valley Presented to the Shenandoah Valley Natural.

Development and validation of models to assess the threat to freshwater fishes from environmental change and invasive species PIs: Craig Paukert Joanna.

U.S. Department of the Interior U.S. Geological Survey Sue Haseltine Associate Director for Biology U.S. Geological Survey David Schad Chair, Association.

EBTJV Project Overview  Riparian planting tool  Brook trout habitat patch layer.

Gradient Modeling Spatial layers of environmental gradients (predictor variables) known to govern rust propagation were compared to percent rust infection.

PNAMP Habitat Status and Trends Monitoring Management Question: Are the Primary Habitat Factors Limiting the Status of the Salmon and Steelhead Populations.

Soil Movement in West Virginia Watersheds A GIS Assessment Greg Hamons Dr. Michael Strager Dr. Jingxin Wang.

Candidate KBA Identification: Modeling Techniques for Field Survey Prioritization Species Distribution Modeling: approximation of species ecological niche.

Climate Change Impacts in the Interior Columbia Basin.

Assessing Linkages between Nearshore Habitat and Estuarine Fish Communities in the Chesapeake Bay Donna Marie Bilkovic*, Carl H. Hershner, Kirk J. Havens,

Extent and Mask Extent of original data Extent of analysis area Mask – areas of interest Remember all rasters are rectangles.

A Watershed-based Land Prioritization Model for Water Supply Protection Paper by Randhir, T. O., R. O’Connor, P. R. Penner, D. W. Goodwin A watershed-based.

Brook Trout And Climate Change

RipStream: Quantifying stream temperature response to Oregon timber harvest practices Jeremy Groom 1, Liz Dent 2, Lisa Madsen 3 1 OSU Dept. of Forest Engineering.

To main objectives: Build a seamless, routed stream network across WAM tiles Apply a process based, riparian zone delineation tool Riparian Processes.

HYDROELECTRIC POWER AND FERC. HYDRO 101A ”Water Runs Down Hill”

Volunteer-collected data can provide important baseline information to assist with decision making and improve watershed management. In this study, data.

Fine-Resolution, Regional-Scale Terrestrial Hydrologic Fluxes Simulated with the Integrated Landscape Hydrology Model (ILHM) David W Hyndman Anthony D.

Eastern Brook Trout Joint Venture Habitat Work Group Update Hannibal Bolton Chair, Habitat Work Group.

Agency Questionnaire Results Eastern Brook Trout Joint Venture Conservation Strategy Work Group Information gathered September/October 2005.

Kettle River Watershed Management Plan Stakeholder Advisory Group Meeting #3 – July 19, 2012.

Iowa Rivers Information System Inventory, Modeling, and Evaluation of Basin, In-Stream Habitat, and Fishery Resource Relationships Kevin Kane, Iowa State.

Jeff Horan, Habitat GIT Chair February 16, 2012 CBP Decision Framework in Action.

USDA FS SRS Center for Forest Watershed Science Coweeta Hydrologic Lab in Otto NC Santee Experimental Forest in Cordesville SC Coldwater Fish Unit in Blacksburg.

Effects of timber harvest on baseflow yield in the Mica Creek Experimental Watershed Wes Green, Will Drier, Tim Link (College of Natural Resources), John.

Using Regional Models to Assess the Relative Effects of Stressors Lester L. Yuan National Center for Environmental Assessment U.S. Environmental Protection.

Patterns of fire refugia across climate gradients in northern Rocky Mountain landscapes IALE 2015 Portland, Oregon USA.

For EBTJV meeting October 26, 2010 Executive Order Strategy for Protecting and Restoring the Chesapeake Bay Watershed.

Climate Change Scenarios for Brook Trout Persistence: Issues of Scale Mark Hudy October 2010 US Forest Service Fish and Aquatic Ecology Unit, Harrisonburg,

Dr. Thomas Hardy Chief Science Officer River Systems Institute Texas State University.

Goals, Priorities, & Outcomes Fostering Participation in the Eastern Brook Trout Joint Venture.

Research design for hydrologic response to watershed treatments in the mixed conifer zone of California’s Sierra Nevada John Battles 1, Roger Bales 2,

Effects of Stream Restoration: A Comparative Study of Pine Run in Felton, Pennsylvania Luke Mummert, Department of Biological Sciences, York College of.

STREAM DRYING IN THE UPPER COLORADO RIVER BASIN: HOW WILL LOW FLOWS SHAPE FUTURE RIPARIAN VEGETATION? Lindsay V. Reynolds 1,2,3, Patrick B. Shafroth 3,

Texas Surface Water Resources

Critical Linkages: Identifying Culvert Replacement Priorities to Maintain Connectivity of Cold Water Streams in the Face of Climate Change Scott Jackson,

Modeling Stream Temperature at a Management Level

Mark Hudy Senior Science Advisor – Fisheries USGS

TU EBT Portfolio, Range-wide, & Focal Area Assessments

Predicting species distributions for New England invasives

The Watershed Agreement and the Phase 3 WIPs

Northern Workgroup Update

Presentation transcript:

Ranking Brook Trout Habitat Patches for Resiliency to Climate Change Brad Trumbo And Mark Hudy USDA Forest Service Fish and Aquatic Ecology Unit James Madison University, Biology Department Virginia Department of Game and Inland Fisheries

Under various climate change scenarios, brook trout are predicted to be extirpated from many states. Flebbe et al Spatial Modeling to Project Southern Appalachian Trout Distribution in a Warmer Climate. TAFS Clark et al Predicting Climate Change Effects on Appalachian Trout: Combining GIS and Individual –Based Modeling. Ecological Applications. Meisner Effect of Climatic Warming on the southern margins of the Native Brook Trout. CJAS USDA Forest Service Fish and Aquatic Ecology Unit

Are the models accurate at smaller scales? Are small refugia likely ? Small Area Influences –Land use –Riparian vegetation –Groundwater –Aspect –Elevation –Latitude –Solar input

A question of Scale ? 1.While large scale climate models predict extirpation throughout much of the EBTJV study area, our pilot studies suggest potential refugia for brook trout. 2. Refugia may exist because of the different air/water temperature relationships at the catchment scale. USDA Forest Service Fish and Aquatic Ecology Unit

Working hypothesis: 1.Landscape characteristics can explain the residuals of these local air/water temperature relationships. 2.Models predicting these air/water temperature relationships from local landscape characteristics can be used to rank brook trout populations for resiliency to climate change. 3.These rankings can be used by managers for prioritization of future, protection and restoration efforts of the EBTJV. USDA Forest Service Fish and Aquatic Ecology Unit

Approach

EBTJV Data Set USDA Forest Service Fish and Aquatic Ecology Unit

Sub-basins (4 th HUC)

Watersheds (5 th HUC)

Subwatersheds (6 th HUC)

Catchments

USDA Forest Service Fish and Aquatic Ecology Unit

Methods

Sampling Methods Paired air and water temperature data will be used to develop the unique sigmoid curve function for the pour point and centroid of each selected patch. USDA Forest Service Fish and Aquatic Ecology Unit centroid Pour point

Sample Duration Temperature data is being collected at 30 minute intervals for 17 months including two critical summer periods (July-September 15) Various temperature metrics will be plotted to detect critical limits as well as define the air/water temperature relationships. USDA Forest Service Fish and Aquatic Ecology Unit

Thermograph Specifications Onset HOBO Water Temp Pro v2 Operation Range: -20 to 70°C Accuracy: 0.2°C over 0° to 50°C Resolution: 0.02°C at 25°C USDA Forest Service Fish and Aquatic Ecology Unit

$$ Sampling $$

Candidate Metrics for Clustering –Percent Riparian Canopy Cover –Total Annual Riparian Area Solar Gain (kWh) –Total forest area in each patch –Pour Point Elevation –30 year annual mean max air temperature at the Pour Point –Number of springs in each patch USDA Forest Service Fish and Aquatic Ecology Unit

Table Comparing Cluster Metrics

USDA Forest Service Fish and Aquatic Ecology Unit

Summary Managers need climate change information at various scales. This project focuses on monitoring at the habitat patch scale. Habitat patches have different air/water temperature relationships that can be explained by landscape charactersitics. Identify brook trout patches within the EBTJV. Stratified random subsample ( n = 200) of patches from cluster groupings. Collecting matched air/water temperature data at pour point and centroid of selected patches. Model landscape charactersitics that explain Air/water temperature relationships.