Mike Duniway, Ph.D.
Dr. Michael (Mike) Duniway is a soil scientist focused on soils and soil processes in dryland ecosystems and the interactions between environmental and land-use drivers, vegetation, soils, and geomorphology. His areas of focus include restoration, ecohydrology, effects of land-use (grazing, energy, and recreation), dust production, plant-soil feedbacks, and soil mapping and interpretations.
In his research and outreach activities, Dr. Duniway seeks to provide information for land managers and owners to facilitate sustainable land-use activities. He works closely with federal agency partners (Bureau of Land Management, National Park Service, National Resource Conservation Service, US Fish and Wildlife Service, and others such as The Nature Conservancy's Canyonlands Research Center) in designing research studies, conducting technology transfer, and outreach activities. Some primary current research focuses include understanding the impacts of drought on Colorado Plateau landscapes, evaluating the recovery of oil and gas pads on the Colorado Plateau and opportunities for improved restoration practices, developing novel restoration techniques for highly disturbed lands using biological soil crusts and physical barriers, and basic research into the importance of soils for dryland ecosystem processes.
Professional Experience
2011-Present: Research Ecologist, USGS Southwest Biological Science Center, Moab, UT
2010-2011: Research Soil Scientist, US Department of Agriculture Agricultural Research Service, Jornada, Las Cruces, NM
2006-2010: Research Soil Scientist (post doc), US Department of Agriculture Agricultural Research Service, Jornada, Las Cruces, NM
2012-Present: Adjunct Faculty, Utah State University, Logan, UT
2007-Present: Adjunct Faculty, NM State University, Las Cruces, NM
Education and Certifications
Ph.D., 2006 — Agronomy (Soil Science), New Mexico State University, Las Cruces, NM
B.S., 1994 — Environmental Resource Science, University of California, Davis, CA
Science and Products
Drylands are highly vulnerable to climate and land use changes: what ecosystem changes are in store?
Wind Erosion and Dust Emissions on the Colorado Plateau
Long-Term Vegetation Change on the Colorado Plateau
Using Long-Term Remote Sensing and an Automated Reference Toolset To Estimate and Predict Post-Development Recovery Potential
RestoreNet: Distributed Field Trial Network for Dryland Restoration
Colorado Plateau Futures: Understanding Agents of Change on the Colorado Plateau to Facilitate Collaborative Adaptation
Colorado Plateau Native Plant Program Field Trial Study
New Approaches for Restoring Colorado Plateau Grasslands
Climate change and ecohydrology in temperate dryland ecosystems: a global assessment
Soil geomorphic unit and ecological site group maps for the rangelands of the Upper Colorado River Basin region
Precipitation, soil moisture, and vegetation data from 36 experimental plots in southeastern Utah, near Canyonlands National Park (2015 - 2018)
Soil surface properties and roughness data at two experimental restoration sites within the Southwestern USA
A snapshot of stakeholder science needs related to drought in the Colorado River Basin
Long-term annual aeolian dust deposition data from seven locations in southeastern Utah
Rangeland Ecosystem Data, Grand Canyon - Parashant National Monument, AZ, USA
Predictive soil property maps with prediction uncertainty at 30-meter resolution for the Colorado River Basin above Lake Mead
High-resolution object-based image classifications of biological soil crusts and vegetation (Beef Basin, Utah)
Vegetation cover and composition data in environments surrounding uranium mines in the Grand Canyon ecosystem, USA
Meteorological measurements from five locations within the Badger Wash study area near Mack, Colorado (ver. 2.0, April 2023)
Long-term precipitation reduction experiment in the Colorado Plateau - Survival and mortality data from 2010 to 2018
Predictive maps of 2D and 3D surface soil properties and associated uncertainty for the Upper Colorado River Basin, USA
Variable effects of long-term livestock grazing across the western United States suggest diverse approaches are needed to meet global change challenges
Soil surface treatments and precipitation timing determine seedling development across southwestern US restoration sites
Livestock removal increases plant cover across a heterogeneous dryland landscape on the Colorado Plateau
Geologic, geomorphic, and edaphic underpinnings of dryland ecosystems: Colorado Plateau landscapes in a changing world
Adapting to climate change on desert rangelands: A multi-site comparison of grazing behavior plasticity of heritage and improved beef cattle
Conflict of energies: Spatially modeling mule deer caloric expenditure in response to oil and gas development
Southeast Utah Group climate and drought adaptation report: Exposure and perennial grass sensitivity
Supporting the development and use of native plant materials for restoration on the Colorado Plateau (Fiscal Year 2021 Report)
Soil depth and precipitation moderate soil textural effects on seedling survival of a foundation shrub species
Decline in biological soil crust N-fixing lichens linked to increasing summertime temperatures
Assessing vegetation recovery from energy development using a dynamic reference approach
A quantitative soil-geomorphic framework for developing and mapping ecological site groups
Non-USGS Publications**
**Disclaimer: The views expressed in Non-USGS publications are those of the author and do not represent the views of the USGS, Department of the Interior, or the U.S. Government.
Science and Products
- Science
Filter Total Items: 21
Drylands are highly vulnerable to climate and land use changes: what ecosystem changes are in store?
Improper land use during drought has been a major driver of land degradation in drylands globally, especially in the western U.S. Increasing aridity in western U.S. drylands under future climates will exacerbate risks associated with drought and land use decisions. This project provides critical observational, experimental, and modelling evidence to support our DOI partners with decision processes...Wind Erosion and Dust Emissions on the Colorado Plateau
Wind erosion of soils and dust emissions are a significant resource management challenge on the Colorado Plateau. Loss of topsoil and associated aeolian sediment (wind-driven sediment) movement can lead to reduced soil fertility as well as abrasion and burial of vegetation. Dust in the atmosphere poses a threat to human health, visual resources, and regional water supplies (due to interactions...Long-Term Vegetation Change on the Colorado Plateau
The Colorado Plateau, centered around the four corners area of the Southwest, and includes much of Arizona, Utah, Colorado, and New Mexico, is a large and important component of U.S. drylands. This important home to mountains, desert basins, dramatic canyons, arid woodlands, and grasslands is also one of North America’s most rapidly warming hot spots, with rates of warming of up to 2-3° C within...Using Long-Term Remote Sensing and an Automated Reference Toolset To Estimate and Predict Post-Development Recovery Potential
USGS scientists are using a time-varying approach to monitor and predict recovery of sagebrush ecosystems following disturbance.RestoreNet: Distributed Field Trial Network for Dryland Restoration
Starting in 2017, U.S. Geological Survey (USGS) researchers and land managers are co-producing a network of restoration field trial sites on Department of Interior (DOI) and surrounding lands in the southwestern U.S. The network systematically tests restoration treatments across a broad range of landscape, soil, and climate conditions. Each site in the network is used to test suitable seed mixes...Colorado Plateau Futures: Understanding Agents of Change on the Colorado Plateau to Facilitate Collaborative Adaptation
The objective of this interdisciplinary research effort is to 1) characterize agents of change important to land management decision makers on the Colorado Plateau; 2) identify and analyze relationships between agents of change and key landscape attributes and processes; 3) collectively assess the influence of agents of change and attributes and processes on the services provided by the ecosystem...Colorado Plateau Native Plant Program Field Trial Study
In the southwest US, monsoon precipitation increases sharply along a northwest to southeast gradient. Pleuraphis jamesii or galleta grass, is an important C4 grass species that spans across this large range in precipitation pattern. In this study we are assessing the ability of galleta grass to adapt to changes in the seasonality of rainfall (termed “plasticity”). In the fall of 2014, we...New Approaches for Restoring Colorado Plateau Grasslands
Historic over-grazing of arid grasslands in the Intermountain West has led to widespread soil erosion, loss of plant diversity, and invasion by exotic species. Degraded grassland conditions can be very persistent, even after livestock use has ceased. For example, in national parks on the Colorado Plateau, livestock have been excluded for decades, but soil and native plants have not recovered on...Climate change and ecohydrology in temperate dryland ecosystems: a global assessment
Water cycling and availability exert dominant control over ecological processes and the sustainability of ecosystem services in water - limited ecosystems. Consequently, dryland ecosystems have the potential to be dramatically impacted by hydrologic alterations emerging from global change, notably increasing temperature and altered precipitation patterns. In addition, the possibility of directly m - Data
Filter Total Items: 31
Soil geomorphic unit and ecological site group maps for the rangelands of the Upper Colorado River Basin region
This data release includes maps characterizing soil geomorphic units (SGUs), climate zones, and ecological site groups that classify landscapes by ecological potential and behavior for use in land management in the Upper Colorado River Basin (UCRB) region. Soil geomorphic units were created by analysis and grouping of ecological sites (ESs), a more detailed local system of ecological units managedPrecipitation, soil moisture, and vegetation data from 36 experimental plots in southeastern Utah, near Canyonlands National Park (2015 - 2018)
These data were compiled for a study that investigated the effects of drought seasonality and plant community composition on two dominant perennial grasses, Achnatherum hymenoides (C3 photosynthesis), and Pleuraphis jamesii (C4 photosynthesis), in a dryland ecosystem. In 2015 USGS Ecologists recorded vegetation and soil moisture data in 36 experimental plots which manipulated precipitation in twoSoil surface properties and roughness data at two experimental restoration sites within the Southwestern USA
This data release presents data used for analyzing spatial and temporal differences in soil surface roughness within selected biocrust communities. These records were collected by ground-based lidar for 121, 1m x 3m soil plots with biological soil crusts (biocrusts). Roughness was estimated from 5 mm resolution data (CloudCompare v. 2.10.2, 2019) for two Great Basin Desert sites (UTTR-1; UTTR-2) iA snapshot of stakeholder science needs related to drought in the Colorado River Basin
Stakeholder science needs were determined by reviewing more than 200 recently published literature items and web pages from Colorado River Basin (CRB) stakeholders. These stakeholder communications were used to characterize over 400 stakeholder science needs by reviewing their priorities, strategies, issues, missions, and concerns related to drought in the CRB. Members of the CRB Integrated SciencByArizona Water Science Center, California Water Science Center, Colorado Water Science Center, Fort Collins Science Center, Geology, Geophysics, and Geochemistry Science Center, Nevada Water Science Center, New Mexico Water Science Center, Southwest Biological Science Center, Utah Water Science Center, Wyoming-Montana Water Science Center, Colorado River Basin: Actionable and Strategic Integrated Science and TechnologyLong-term annual aeolian dust deposition data from seven locations in southeastern Utah
These data are annual aeolian dust deposition calculations from vertical deposition at seven locations near the vicinity of Moab, Utah covering the period from 1999 to 2020. Data were collected by the U.S. Geological Survey Geosciences and Environmental Change Science Center (Denver, Colorado) and Southwest Biological Science Center (Moab, Utah) to "monitor sediment characteristics at sites selectRangeland Ecosystem Data, Grand Canyon - Parashant National Monument, AZ, USA
These data were compiled for an assessment of rangeland ecosystem conditions of the Grand Canyon - Parashant National Monument. The approximately one-million-acre Grand Canyon-Parashant National Monument (PARA) is located in the northwest corner of Arizona and co-managed by the Bureau of Land Management (BLM) and National Park Service (NPS). This report is focused on the ca. 200,000 acres of NPSPredictive soil property maps with prediction uncertainty at 30-meter resolution for the Colorado River Basin above Lake Mead
These data were compiled to demonstrate new predictive mapping approaches and provide comprehensive gridded 30 meter resolution soil property maps for the Colorado River Basin above Hoover Dam. Random forest models related environmental raster layers representing soil forming factors with field samples to render predictive maps that interpolate between sample locations. Maps represented soil pH, tHigh-resolution object-based image classifications of biological soil crusts and vegetation (Beef Basin, Utah)
This dataset contains 10 classified raster images identifying the distribution and condition of biological soil crusts using high-resolution imagery from Unmanned Aerial Systems (UAS). Also included are: a supplemental accuracy report and accuracy matrix for each classified image, and all associated accessory files. These images are located in Beef Basin, Southeastern Utah, and focuses on two ecolVegetation cover and composition data in environments surrounding uranium mines in the Grand Canyon ecosystem, USA
This data package contains the final combined field sampling data collected by the USGS July 2013 and July-August 2015 at three active uranium mines (Canyon Rim Mine, Pinenut Mine, and Arizona 1 Mine) as well as two reference sites (Little Robinson Tank and EZ2 Pipe) in northwestern Arizona. Vegetation and soils were assessed by using line-point intersect (LPI) methods and estimates of plant speciMeteorological measurements from five locations within the Badger Wash study area near Mack, Colorado (ver. 2.0, April 2023)
These data are records collected from an automated weather station and four stand-alone tipping bucket rain gauges each with their own data logger that were in operation between February 2005 and December 2019 in the Badger Wash Study Area near Mack, Colorado as part of a larger project funded by the Bureau of Land Management. These files are hourly-interval data from the automated weather stationLong-term precipitation reduction experiment in the Colorado Plateau - Survival and mortality data from 2010 to 2018
From 2011-2018 USGS biologists recorded vegetation and biological soil crust (BSC) cover by species and tracked survival of tagged individual plants (388 in total) across 40 locations where paired experimental plots had been installed in 2010. Plant cover was visually estimated using four 75 x 100 cm survey frames. Each site contained a two plots measuring 1.5 by 2.0 meteres: a control plot and aPredictive maps of 2D and 3D surface soil properties and associated uncertainty for the Upper Colorado River Basin, USA
The raster datasets in this data release are maps of soil surface properties that were used in analyzing different approaches for digital soil mapping. They include maps of soil pH, electrical conductivity, soil organic matter, and soil summed fine and very fine sand contents that were created using both 2D and 3D modeling strategies. For each property a map was created using both 2D and 3D approa - Multimedia
- Publications
Filter Total Items: 101
Variable effects of long-term livestock grazing across the western United States suggest diverse approaches are needed to meet global change challenges
AimsLivestock production is the most widespread land use globally and occurs across a diverse set of ecosystems. Variability in long-term livestock grazing impacts across ecosystems is poorly characterized, particularly at larger spatial scales, despite strong relationships with various ecosystem services related to soil fertility and stabilization and vegetation productivity. Here we examine theAuthorsStella M. Copeland, David L. Hoover, David J. Augustine, Jonathan D Bates, Chad S. Boyd, Kirk W. Davies, Justin D. Derner, Michael C. Duniway, Lauren M. Porensky, Lance T VermeireSoil surface treatments and precipitation timing determine seedling development across southwestern US restoration sites
Restoration in dryland ecosystems often has poor success due to low and variable water availability, degraded soil conditions, and slow plant community recovery rates. Restoration treatments can mitigate these constraints but, because treatments and subsequent monitoring are typically limited in space and time, our understanding of their applicability across broader environmental gradients remainsAuthorsHannah Lucia Farrell, Seth M. Munson, Bradley J. Butterfield, Michael C. Duniway, Aksasha M Faist, Elise S Gornish, Caroline Havrilla, Loralee Larios, Sasha C. Reed, Helen I Rowe, Katherine M. Laushman, Molly L. McCormickLivestock removal increases plant cover across a heterogeneous dryland landscape on the Colorado Plateau
Livestock removal is increasingly used as a management option to mitigate the negative impacts of grazing-related disturbances on rangelands. Removal generally increases plant cover, but it is unclear when, where, and by how much plant and soil cover changes can be expected. On the Colorado Plateau, complex geology, topography, soils, and climate all interact to mediate the relationship between laAuthorsBrandon E McNellis, Anna C Knight, Travis W. Nauman, Samuel Norton Chambers, C.W. Brungard, S.E. Fick, C.G. Livensperger, C.G. Borthwick, Michael C. DuniwayGeologic, geomorphic, and edaphic underpinnings of dryland ecosystems: Colorado Plateau landscapes in a changing world
Drylands represent more than 41% of the global land surface and are at degradation risk due to land use and climate change. Developing strategies to mitigate degradation and restore drylands in the face of these threats requires an understanding of how drylands are shaped by not only soils and climate, but also geology and geomorphology. However, few studies have completed such a comprehensive anaAuthorsMichael C. Duniway, Christopher Benson, Travis W. Nauman, Anna C Knight, John B. Bradford, Seth M. Munson, Dana L. Witwicki, Carolyn Livensperger, Matthew W. Van Scoyoc, Terry T Fisk, David Thoma, Mark E. MillerAdapting to climate change on desert rangelands: A multi-site comparison of grazing behavior plasticity of heritage and improved beef cattle
Climate change is amplifying the spatiotemporal heterogeneity of desert rangeland forages through its impact on precipitation variability. Foraging behavior plasticity (an animal's ability to alter its behavior to cope with environmental variation) could be a key trait for climate adaptation of beef cattle in arid environments. We analyzed GPS-derived movement and activity data of Criollo and commAuthorsAndres F. Cibils, Rick E. Estell, Sheri Spiegal, Shelemia Nyamuryekung’e, Matthew M. McIntosh, Danielle M. Duni, Herrera Conegliano, Felipe A. Rodriguez Almeida, Octavio Roacho Estrada, Lisandro J. Blanco, Michael C. Duniway, Santiago A. Utsumi, Alfredo L. GonzalezConflict of energies: Spatially modeling mule deer caloric expenditure in response to oil and gas development
ContextWildlife avoid human disturbances, including roads and development. Avoidance and displacement of wildlife into less suitable habitat due to human development can affect their energy expenditures and fitness. The heart rate and oxygen uptake of large mammals varies with both natural aspects of their habitat (terrain, climate, predators, etc.) and anthropogenic influence (noise, light, fragmAuthorsSamuel Norton Chambers, Miguel L. Villarreal, Olivia Jane Marie Duane, Seth M. Munson, Erica Francis Stuber, Gayle L Tyree, Eric K Waller, Michael C. DuniwaySoutheast Utah Group climate and drought adaptation report: Exposure and perennial grass sensitivity
National Park Service (NPS) managers face growing challenges resulting from the effects of climate change. In particular, as temperatures rise in coming decades, natural resource management in the western United States must cope with expectations for elevated severity and frequency of droughts. These challenges are particularly pronounced for vegetation managers in dryland environments. DevelopingAuthorsJohn B. Bradford, Caroline Havrilla, Jessica A. Hartsell, Daniel Rodolphe Schlaepfer, Molly L. McCormick, Seth M. Munson, Charles Yackulic, Terry T Fisk, David Thoma, Dusty Perkins, Dana L. Witwicki, Matt VanScoyoc, Michael C. Duniway, Sasha C. ReedSupporting the development and use of native plant materials for restoration on the Colorado Plateau (Fiscal Year 2021 Report)
A primary focus of the Colorado Plateau Native Plant Program (CPNPP) is to identify and develop appropriate native plant materials (NPMs) for current and future restoration projects. Multiple efforts have characterized the myriad challenges inherent in providing appropriate seed resources to enable effective, widespread restoration and have identified a broad suite of research activities to providAuthorsRobert Massatti, Daniel E. Winkler, Sasha C. Reed, Michael C. Duniway, Seth M. Munson, John B. BradfordSoil depth and precipitation moderate soil textural effects on seedling survival of a foundation shrub species
In drylands, there is a need for controlled experiments over multiple planting years to examine how woody seedlings respond to soil texture and the potentially interactive effects of soil depth and precipitation. Understanding how multiple environmental factors interactively influence plant establishment is critical to restoration ecology and in this case to broad-scale restoration efforts in westAuthorsKari E. Veblen, Kyle C. Nehring, Michael C. Duniway, Anna C Knight, Thomas A. Monaco, Eugene W. Schupp, Janis L Boettinger, Juan J Villalba, Steven Fick, Colby C. Brungard, Eric ThackerDecline in biological soil crust N-fixing lichens linked to increasing summertime temperatures
Across many global drylands, biocrusts form a protective barrier on the soil surface and fill many critical roles in these harsh yet fragile environments. Previous short-term research suggests that climate change and invasive plant introduction can damage and alter biocrust communities, yet few long-term observations exist. Using a globally unique long-term record of continuous biocrust surveys frAuthorsRebecca A Finger-Higgens, Michael C. Duniway, Stephen E. Fick, Erika L. Geiger, David L. Hoover, Alix A. Pfennigwerth, Matthew W. Van Scoyoc, Jayne BelnapAssessing vegetation recovery from energy development using a dynamic reference approach
Ecologically relevant references are useful for evaluating ecosystem recovery, but references that are temporally static may be less useful when environmental conditions and disturbances are spatially and temporally heterogeneous. This challenge is particularly acute for ecosystems dominated by sagebrush (Artemisia spp.), where communities may require decades to recover from disturbance. We demonsAuthorsAdrian P. Monroe, Travis W. Nauman, Cameron L. Aldridge, Michael O'Donnell, Michael C. Duniway, Brian S. Cade, Daniel Manier, Patrick J. AndersonA quantitative soil-geomorphic framework for developing and mapping ecological site groups
Land management decisions need context about how landscapes will respond to different circumstances or actions. As ecologists’ understanding of nonlinear ecological dynamics has evolved into state-and-transition models (STMs), they have put more emphasis on defining and mapping the soil, geomorphological, and climate parameters that mediate these dynamics. The US Department of Agriculture NaturalAuthorsTravis W. Nauman, Samuel S Burch, Joel T. Humphries, Anna C Knight, Michael C. DuniwayNon-USGS Publications**
Browning, D.M., Duniway, M.C., Laliberte, A., and Rango, A., 2012, Hierarchical analysis of vegetation dynamics over 71 years: Soil-rainfall interactions in a Chihuahuan desert ecosystem: Ecological Applications, v. 22, p.909-926.Duniway, M., Karl, J., Schrader, S., Baquera, N., and Herrick, J., 2012, Rangeland and pasture monitoring: an approach to interpretation of high-resolution imagery focused on observer calibration for repeatability: Environmental Monitoring and Assessment, v. 184, p. 3789-3804.Karl, J., Duniway, M.C., Nusser, S.M., Opsomer, J.D., and Unnasch, R.S., 2012, Using Very-Large-Scale Aerial Imagery for Rangeland Monitoring and Assessment: Some Statistical Considerations: Rangeland Ecology & Management, v. 65, p. 330-339.Karl, J.W., Duniway, M.C., and Schrader, T.S., 2012, A Technique for Estimating Rangeland Canopy-Gap Size Distributions From High-Resolution Digital Imagery: Rangeland Ecology & Management, v. 65, p. 196-207.Browning, D.M., and Duniway, M.C., 2011, Digital soil mapping in the absence of field training data: a case study using terrain attributes and semiautomated soil signature derivation to distinguish ecological potential: Applied and Environmental Soil Science.Duniway, M.C., and Herrick, J.E., 2011, Disentangling road network impacts: the need for a holistic approach: Journal of Soil and Water Conservation, v. 66, p. 31A-36A.Peters, D.P.C., Lugo, A.E., Chapin, F.S., Pickett, S.T.A., Duniway, M.C., Rocha, A.V., Swanson, F.J., Laney, C., and Jones, J., 2011, Cross-system comparisons elucidate disturbance complexities and generalities: Ecosphere, v. 2, art. 81.Schrader, T.S., and Duniway, M.C., 2011, Image Interpreter Tool: An ArcGIS tool for estimating vegetation cover from high-resolution imagery: Rangelands, v. 33, p. 35-40.Duniway, M., Herrick, J., and Monger, H., 2010, Spatial and temporal variability of plant-available water in calcium carbonate-cemented soils and consequences for arid ecosystem resilience: Oecologia, v. 163, p. 215-226.Duniway, M.C., Bestelmeyer, B.T., and Tugel, A., 2010, Soil processes and properties that distinguish ecological sites and states: Rangelands, v. 32, p. 9-15.Duniway, M.C., Snyder, K.A., and Herrick, J.E., 2010, Spatial and temporal patterns of water availability in a grass–shrub ecotone and implications for grassland recovery in arid environments: Ecohydrology, v. 3, p. 55-67.Duniway, M.C., Herrick, J.E., and Monger, H.C., 2007, The high water-holding capacity of petrocalcic horizons: Soil Science Society of America Journal, v. 71, p. 812-819.Duniway, M.C., 2006, The functional role of petrocalcic horizons in desert ecosystems: spatial and temporal dynamics of plant water availability [Ph.D. Dissertation]: New Mexico State Univeristy, Las Cruces, New Mexico, USA.**Disclaimer: The views expressed in Non-USGS publications are those of the author and do not represent the views of the USGS, Department of the Interior, or the U.S. Government.
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