Grand Canyon Monitoring and Research Projects Active
River Geomorphology and Geomorphic Change
Sandbar and sediment storage monitoring and research
The Grand Canyon Monitoring and Research Center currently functions under a Triennial Work Plan (TWP) which is thoroughly reviewed and vetted both internally within the Center and through the GCDAMP Technical Work Group (TWG) and the Adaptive Management Work Group (AMWG). These advisory panels have been a part of the Glen Canyon Dam adaptive management process since the inception of the GCDAMP. For more information on the adaptive management process, please see the GCDAMP Page.
Physical Resources
GCMRC has on-going monitoring and research focused on river sediment dynamics, long-term monitoring of sediment resources in the Colorado River corridor, and understanding the connectivity of sand resources throughout the system.
Biological Resources
Several GCMRC projects focus on understanding the biological processes of the Colorado River, the effect of dam operations on both native and nonnative species, population dynamics of important species, and the terrestrial-biological interactions.
Socio-Economic and Cultural
GCMRC is also concerned with understanding the socio-economic values of the Colorado River in Grand Canyon, the unique recreational opportunites this environment offers and the cultural significance observed by the Tribal people of this the region.
Administrative History and Guidance That Informs GCMRC Projects
GCMRC'S work plan and science projects align with the needs of the GCDAMP stakeholders. Each project described is organized around monitoring and research themes that are associated with the eleven resource goals identified in the LTEMP ROD: archaeological and cultural resources, natural processes, humpback chub, hydropower and energy, other native fish, recreational experience, sediment, tribal resources, rainbow trout fishery, nonnative invasive species, and riparian vegetation (U.S. Department of the Interior, 2016a; Attachment A).
The monitoring and research projects are responsive to guidance provided in the LTEMP ROD, which, in addition to identifying the priority resources, also identifies flow and non-flow experimental actions and compliance obligations for Glen Canyon Dam operations for the 20 years of the LTEMP. Additional guidance comes from the Science Plan developed by GCMRC (VanderKooi and others, 2017) in support of the LTEMP ROD which describes a general strategy for monitoring and research needed in support of implementation of operations and experimental actions.
Projects in the current TWP have been informed by and build upon previous research and monitoring projects that were responsive to guidance vetted through the GCDAMP and the Secretary of Interior’s office. While the LTEMP ROD defines broad resource goals and identifies new experimental actions and compliance requirements, some of the older guidance continues to have relevance for certain aspects of the current science program and continues to influence current research and monitoring directions in a general sense. Among this older guidance, the following documents describe the history of GCDAMP decisions and direction and help maintain continuity with GCDAMP goals as LTEMP is implemented:
- 2001 Glen Canyon Dam Adaptive Management Program draft strategic plan (Glen Canyon Dam Adaptive Management Program, 2001),
- 2007 Strategic Science Plan and Strategic Science Questions (SSQs) (U. S. Geological Survey, 2007),
- 2011 draft Core Monitoring Plan (U. S. Geological Survey, 2011), and
- 2012 AMWG Desired Future Conditions.
Monitoring and research themes described in these and other GCDAMP administrative documents have persisted throughout the life of the GCDAMP and are carried forward into the LTEMP. They include:
(1) recovery of the endangered humpback chub (Gila cypha) and maintenance of populations of other native fish;
(2) maintenance or improvement of the physical template, especially regarding fine sediment;
(3) maintenance of culturally important sites, especially those that are of archaeological and historical significance under the National Historic Preservation Act
(4) maintenance of the food base on which the native fish community depends;
(5) maintenance of a high-quality sport fishery in the Lees Ferry reach; and
(6) maintenance of the native riparian vegetation community.
The various goals, questions, information needs, and desired future conditions developed by GCDAMP committees also recognize the importance of maintaining high quality opportunities and conditions for recreational boaters and campers, and the role played by nonnative riparian vegetation in providing habitat for some desired fauna such as the endangered Southwestern willow flycatcher.
Below are science projects associated with GCMRC work plans.
High-Flow Experiments on the Colorado River
Terrestrial Riparian Vegetation Monitoring: How One Square Meter Can Tell the Story of 245 River Miles
Overview of Riparian Vegetation in Grand Canyon
Rainbow Trout Abundance and Movement in the Colorado River in Grand Canyon
Invertebrate Drift Downstream of Colorado River Basin Dams
Uncovering the Base of the Food Web: Primary Production Dynamics in the Colorado River
Understanding Factors Influencing Rainbow Trout Growth in the Colorado River
Connectivity of Sand Resources Along the Colorado River in Grand Canyon
Riparian Remote Sensing in the Colorado River and Grand Canyon Region
Economics of Outdoor Recreation
Grand Canyon Sandbar Monitoring
Aquatic Insects
Below are data associated with GCMRC-specific projects.
These data will be updated soon - in progress.
Below are publications associated with research and projects by the Grand Canyon Monitoring and Research Center (GCMRC). Note that not all of the publications listed here are funded under the Glen Canyon Dam Adaptive Management Program (GCDAMP).
To access all of SBSC's publications, click the link below.
Vital rates of a burgeoning population of Humpback Chub in western Grand Canyon
Assessment of riparian vegetation patterns and change downstream from Glen Canyon Dam from 2014 to 2019
A river basin spatial model to quantitively advance understanding of riverine tree response dynamics to water availability and hydrological management
Declines in prey production during the collapse of a tailwater Rainbow Trout population are associated with changing reservoir conditions
Proceedings of the Fiscal Year 2022 Annual Reporting Meeting to the Glen Canyon Dam Adaptive Management Program
Taxonomic identity, biodiversity, and antecedent disturbances shape the dimensional stability of stream invertebrates
Terrestrial lidar monitoring of the effects of Glen Canyon Dam operations on the geomorphic condition of archaeological sites in Grand Canyon National Park, 2010–2020
Provenance, genotype, and flooding influence growth and resource acquisition characteristics in a clonal, riparian shrub
The influence of drying on the aeolian transport of river-sourced sand
Drought related changes in water quality surpass effects of experimental flows on trout growth downstream of Lake Powell reservoir
Mapping 2-D bedload rates throughout a sand-bed river reach from high-resolution acoustical surveys of migrating bedforms
The hydroclimate niche: A tool for predicting and managing riparian plant community responses to streamflow seasonality
Below are news items about GCMRC's science.
- Overview
The Grand Canyon Monitoring and Research Center currently functions under a Triennial Work Plan (TWP) which is thoroughly reviewed and vetted both internally within the Center and through the GCDAMP Technical Work Group (TWG) and the Adaptive Management Work Group (AMWG). These advisory panels have been a part of the Glen Canyon Dam adaptive management process since the inception of the GCDAMP. For more information on the adaptive management process, please see the GCDAMP Page.
Physical ResourcesGCMRC has on-going monitoring and research focused on river sediment dynamics, long-term monitoring of sediment resources in the Colorado River corridor, and understanding the connectivity of sand resources throughout the system.
Biological ResourcesSeveral GCMRC projects focus on understanding the biological processes of the Colorado River, the effect of dam operations on both native and nonnative species, population dynamics of important species, and the terrestrial-biological interactions.
Socio-Economic and CulturalGCMRC is also concerned with understanding the socio-economic values of the Colorado River in Grand Canyon, the unique recreational opportunites this environment offers and the cultural significance observed by the Tribal people of this the region.
Administrative History and Guidance That Informs GCMRC Projects
GCMRC'S work plan and science projects align with the needs of the GCDAMP stakeholders. Each project described is organized around monitoring and research themes that are associated with the eleven resource goals identified in the LTEMP ROD: archaeological and cultural resources, natural processes, humpback chub, hydropower and energy, other native fish, recreational experience, sediment, tribal resources, rainbow trout fishery, nonnative invasive species, and riparian vegetation (U.S. Department of the Interior, 2016a; Attachment A).
The monitoring and research projects are responsive to guidance provided in the LTEMP ROD, which, in addition to identifying the priority resources, also identifies flow and non-flow experimental actions and compliance obligations for Glen Canyon Dam operations for the 20 years of the LTEMP. Additional guidance comes from the Science Plan developed by GCMRC (VanderKooi and others, 2017) in support of the LTEMP ROD which describes a general strategy for monitoring and research needed in support of implementation of operations and experimental actions.
Projects in the current TWP have been informed by and build upon previous research and monitoring projects that were responsive to guidance vetted through the GCDAMP and the Secretary of Interior’s office. While the LTEMP ROD defines broad resource goals and identifies new experimental actions and compliance requirements, some of the older guidance continues to have relevance for certain aspects of the current science program and continues to influence current research and monitoring directions in a general sense. Among this older guidance, the following documents describe the history of GCDAMP decisions and direction and help maintain continuity with GCDAMP goals as LTEMP is implemented:
- 2001 Glen Canyon Dam Adaptive Management Program draft strategic plan (Glen Canyon Dam Adaptive Management Program, 2001),
- 2007 Strategic Science Plan and Strategic Science Questions (SSQs) (U. S. Geological Survey, 2007),
- 2011 draft Core Monitoring Plan (U. S. Geological Survey, 2011), and
- 2012 AMWG Desired Future Conditions.
Monitoring and research themes described in these and other GCDAMP administrative documents have persisted throughout the life of the GCDAMP and are carried forward into the LTEMP. They include:
(1) recovery of the endangered humpback chub (Gila cypha) and maintenance of populations of other native fish;
(2) maintenance or improvement of the physical template, especially regarding fine sediment;
(3) maintenance of culturally important sites, especially those that are of archaeological and historical significance under the National Historic Preservation Act
(4) maintenance of the food base on which the native fish community depends;
(5) maintenance of a high-quality sport fishery in the Lees Ferry reach; and
(6) maintenance of the native riparian vegetation community.
The various goals, questions, information needs, and desired future conditions developed by GCDAMP committees also recognize the importance of maintaining high quality opportunities and conditions for recreational boaters and campers, and the role played by nonnative riparian vegetation in providing habitat for some desired fauna such as the endangered Southwestern willow flycatcher.
- Science
Below are science projects associated with GCMRC work plans.
Filter Total Items: 24High-Flow Experiments on the Colorado River
Glen Canyon Dam has altered flow and fine sediment (sand, silt, and clay) dynamics of the Colorado River in Grand Canyon. Before the dam, the Colorado River experienced highly variable flows and carried a large amount of sediment through Grand Canyon, which maintained sandbars (highly valued camping areas in Grand Canyon) and provided sand that protected archeological and cultural sites from...Terrestrial Riparian Vegetation Monitoring: How One Square Meter Can Tell the Story of 245 River Miles
The goal of Grand Canyon Monitoring and Research Center’s (part of the Southwest Biological Science Center) riparian vegetation monitoring program is to assess changes and trends in plant species composition and cover and relate those changes to Glen Canyon Dam operations, river hydrology, climate, and geomorphology. Monitoring is done by annual field-data collection on plant cover and diversity...Overview of Riparian Vegetation in Grand Canyon
Riparian areas are conspicuous belts of dense, green vegetation along streams and rivers, and can be considered “ribbons of life”. Despite covering less than 2 percent of the land area in the southwestern U.S., riparian areas tend to have high species diversity and population density, making them valuable to managers, scientists, and the public. These unique ecosystems act as a link between dry...Rainbow Trout Abundance and Movement in the Colorado River in Grand Canyon
Just below Glen Canyon Dam on the Colorado River is a very popular Blue Ribbon trout fishery known for its rainbow trout. However, approximately 78 miles downstream, near were the Little Colorado River flows into the Colorado River, is a population of endangered humpback chub. The introduced rainbow trout can negatively affect native humpback chub by competing with them for food (immature black...Invertebrate Drift Downstream of Colorado River Basin Dams
Aquatic invertebrates are critical food for fish and other species that inhabit large rivers. In the Colorado River Basin, invertebrates that get transported down the river (“in the drift”) are particularly important to rainbow trout and other species of interest to recreational users. This research seeks to compare rivers downstream of large dams throughout the Colorado River Basin in order to...Uncovering the Base of the Food Web: Primary Production Dynamics in the Colorado River
Algae, phytoplankton, and rooted macrophytes represent the base of many aquatic food webs and are known as primary producers. Through photosynthesis, these organisms convert sunlight energy into chemical energy (i.e., carbon) that in turn fuels the growth of animals such as macroinvertebrates and fish. This project uses high frequency measurements of dissolved oxygen, which is a by-product of...Understanding Factors Influencing Rainbow Trout Growth in the Colorado River
Rainbow trout is a desirable sport fish that has been introduced in many locations around the world. Although introductions of rainbow trout and other nonnative fishes provide recreational fishing opportunities, they also pose threats to native fish populations. The Glen Canyon Dam Adaptive Management Program has tasked scientists and managers with identifying management options that allow rainbow...Connectivity of Sand Resources Along the Colorado River in Grand Canyon
We study the links among different geomorphic processes that affect river valley landscapes in the Colorado River downstream from Glen Canyon Dam, Arizona. Dam-released flows affect the deposition and retention of sandbars that serve as sources for other sand resources, such as windblown sand dunes, throughout the Colorado River ecosystem. The degree to which the landscapes are differentially...Riparian Remote Sensing in the Colorado River and Grand Canyon Region
Riparian vegetation has increased dramatically along the Colorado River downstream of Glen Canyon Dam since the closure of the dam in 1963. The spatial patterns and temporal rates of vegetation increase occur due to changes in river hydrology, dam operations, and climate. The increase in vegetation, particularly onto otherwise bare sandbars, has impacted recreational, geomorphological, biological...Economics of Outdoor Recreation
Economic research at Grand Canyon Monitoring and Research Center is used to determine economic benefits of outdoor recreation in Glen Canyon National Recreation Area below Glen Canyon Dam and in Grand Canyon National Park, as affected by operation of Glen Canyon Dam. This research identifies recreationists’ preferences for attributes associated with their trips, spending that occurs regionally...Grand Canyon Sandbar Monitoring
Since the completion of Glen Canyon Dam in 1963, the amount of sand supplied to Grand Canyon National Park has been reduced by more than 90 percent. The Paria River, a tributary to the Colorado River 15 miles downstream from the dam, is now the single most important supplier of sand to the Colorado River within the Park. This large reduction in sand supply has resulted in substantial decrease in...Aquatic Insects
Aquatic insects live in the water as larvae most of their lives, then emerge onto land for a brief period as winged adults. Sampling these emerged adults on land is therefore a useful tool for understanding the condition of the aquatic insect population that is in the water, particularly in large rivers where sampling the larvae on the river bed is impractical. Our group uses a variety of methods... - Data
Below are data associated with GCMRC-specific projects.
These data will be updated soon - in progress.
- Multimedia
- Publications
Below are publications associated with research and projects by the Grand Canyon Monitoring and Research Center (GCMRC). Note that not all of the publications listed here are funded under the Glen Canyon Dam Adaptive Management Program (GCDAMP).
To access all of SBSC's publications, click the link below.
Filter Total Items: 313Vital rates of a burgeoning population of Humpback Chub in western Grand Canyon
The Colorado River ecosystem has experienced habitat alterations and non-native species invasions, and as a result, many of its native species have experienced extirpations, abundance declines, and range constrictions. Despite these pitfalls, Humpback Chub, Gila cypha, have persisted and, in the last 10-15 years, expanded their range to become abundant in western Grand Canyon, a river segment in wAuthorsMaria C. Dzul, Charles Yackulic, Mariah Aurelia Giardina, David R. Van Haverbeke, Michael D. YardAssessment of riparian vegetation patterns and change downstream from Glen Canyon Dam from 2014 to 2019
Changes in riparian vegetation cover and composition occur in relation to flow regime, geomorphic template, and climate, and can have cascading effects on aquatic and terrestrial ecosystems. Tracking such changes over time is therefore an important part of monitoring the condition and trajectory of riparian ecosystems. Maintaining diverse, self-sustaining riparian vegetation comprised of mostly naAuthorsEmily C. Palmquist, Bradley J. Butterfield, Barbara E. RalstonA river basin spatial model to quantitively advance understanding of riverine tree response dynamics to water availability and hydrological management
Ecological condition continues to decline in arid and semi-arid river basins globally due to hydrological over-abstraction combined with changing climatic conditions. Whilst provision of water for the environment has been a primary approach to alleviate ecological decline, how to accurately monitor changes in riverine trees at fine spatial and temporal scales, remains a substantial challenge. ThisAuthorsTanya M. Doody, Sicong Gao, Willem Vervoot, Jodie Pritchard, Michah Davies, Martin Nolan, Pamela L. NaglerDeclines in prey production during the collapse of a tailwater Rainbow Trout population are associated with changing reservoir conditions
ObjectiveUnderstanding how energy moves through food webs and limits productivity at various trophic levels is a central question in aquatic ecology and can provide insight into drivers of fish population dynamics since many fish populations are food limited. In this study, we seek to better understand what factors drove a decline of >85% in the number of Rainbow TroutOncorhynchus mykiss found inAuthorsMichael D. Yard, Charles Yackulic, Josh Korman, Michael Dodrill, Bridget DeemerProceedings of the Fiscal Year 2022 Annual Reporting Meeting to the Glen Canyon Dam Adaptive Management Program
(Hartwell) This report is prepared primarily to account for work conducted and products delivered in FY 2022 by GCMRC and to inform the Technical Work Group of science conducted by GCMRC and its cooperators in support of the Glen Canyon Dam Adaptive Management Program (GCDAMP). It includes a summary of accomplishments, modifications to work plans, results, and recommendations related to projects iAuthorsDavid Topping, Paul Grams, Emily C. Palmquist, Joel B. Sankey, Helen C. Fairley, Bridget Deemer, Charles Yackulic, Theodore Kennedy, Anya Metcalfe, Maria C. Dzul, David Ward, Mariah Aurelia Giardina, Lucas Bair, Thomas Gushue, Caitlin M. Andrews, Ronald E. Griffiths, David Dean, Keith Kohl, Michael J Moran, Nicholas Voichick, Thomas A. Sabol, Laura A. Tennant, Kimberly Dibble, Michael C. RungeTaxonomic identity, biodiversity, and antecedent disturbances shape the dimensional stability of stream invertebrates
The “dimensional stability” approach measures different components of ecological stability to investigate how they are related. Yet, most empirical work has used small-scale and short-term experimental manipulations. Here, we apply this framework to a long-term observational dataset of stream macroinvertebrates sampled between the winter flooding and summer monsoon seasons. We test hypotheses thatAuthorsDaniel C Allen, Brian A Gill, Anya Metcalfe, Sophia M Bonjour, Scott Starr, Junna Wang, Diana Valentin, Nancy B. GrimmTerrestrial lidar monitoring of the effects of Glen Canyon Dam operations on the geomorphic condition of archaeological sites in Grand Canyon National Park, 2010–2020
The U.S. Geological Survey’s Grand Canyon Monitoring and Research Center, in coordination with the Glen Canyon Dam Adaptive Management Program, has monitored the geomorphic condition of select archaeological sites along the Colorado River in Grand Canyon using high-resolution terrestrial light detection and ranging (lidar) topographic surveys. Many of these sites are vulnerable to degradation by nAuthorsJoshua Caster, Joel B. Sankey, Helen Fairley, Alan KasprakProvenance, genotype, and flooding influence growth and resource acquisition characteristics in a clonal, riparian shrub
PremiseRiparian plants can exhibit intraspecific phenotypic variability across the landscape related to temperature and flooding gradients. Phenotypes that vary across a climate gradient are often partly genetically determined and may differ in their response to inundation. Changes to inundation patterns across a climate gradient could thus result in site-specific inundation responses. PhenotypicAuthorsEmily C. Palmquist, Kiona Ogle, Thomas G. Whitham, Gerard J. Allan, Patrick B. Shafroth, Bradley J. ButterfieldThe influence of drying on the aeolian transport of river-sourced sand
Transgression and regression of water levels (stages) have impacted the evolution of aeolian landforms and sedimentary deposits throughout geologic history. We studied this phenomenon over a five-day period of reduced flow on the Colorado River in Grand Canyon National Park, AZ, USA, in March 2021. These transient low flows exposed river-channel sand deposits to the air, causing progressive desiccAuthorsJoel B. Sankey, Joshua Caster, Alan Kasprak, Helen C. FairleyDrought related changes in water quality surpass effects of experimental flows on trout growth downstream of Lake Powell reservoir
Flows released from reservoirs are often modified to mitigate the negative ecosystem effects of dams. We estimated the effects of two experimental flows, fall-timed floods and elimination of sub-daily variation in flows on weekends, on growth rates of rainbow trout (Oncorhynchus mykiss) in the Colorado River downstream from Glen Canyon Dam. Experimental flow effects were compared to effects of watAuthorsJosh Korman, Bridget Deemer, Charles Yackulic, Theodore Kennedy, Mariah Aurelia GiardinaMapping 2-D bedload rates throughout a sand-bed river reach from high-resolution acoustical surveys of migrating bedforms
This paper introduces a method for determining spatially-distributed, 2-D bedload rates using repeat, high-resolution surveys of the bed topography. As opposed to existing methods, bedform parameters and bedload rates are computed from bed elevation profiles interpolated along the local bedform velocities. The bedform velocity fields are computed applying Large-Scale Particle Image Velocimetry, inAuthorsJérôme Le Coz, Emeline Perret, Benoît Camenen, David Topping, Daniel D. Buscombe, Kate C.P. Leary, Guillaume Dramais, Paul GramsThe hydroclimate niche: A tool for predicting and managing riparian plant community responses to streamflow seasonality
Habitat suitability is a consequence of interacting environmental factors. In riparian ecosystems, suitable plant habitat is influenced by interactions between stream hydrology and climate, hereafter referred to as “hydroclimate”. We tested the hypothesis that hydroclimate variables would improve the fit of ecological niche models for a suite of riparian species using occurrence data from the westAuthorsBradley J. Butterfield, Emily C. Palmquist, Charles Yackulic - Web Tools
- News
Below are news items about GCMRC's science.
Filter Total Items: 14