Grand Canyon Monitoring and Research Projects
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.
Connectivity of Sand Resources Along the Colorado River in Grand Canyon
Sediment Storage in Grand Canyon
River Campsites in Grand Canyon National Park
Geospatial Science and Technology
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
Invertebrate Drift Downstream of Colorado River Basin Dams
Uncovering the Base of the Food Web: Primary Production Dynamics in the Colorado River
Riparian Remote Sensing in the Colorado River and Grand Canyon Region
Economics of Outdoor Recreation
Insect Drift
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.
Modeling the impacts of Glen Canyon Dam operations on Colorado River resources
Do topographic changes tell us about variability in aeolian sediment transport and dune mobility? Analysis of monthly to decadal surface changes in a partially vegetated and biocrust covered dunefield
The effects of vegetative feedbacks on flood shape, sediment transport, and geomorphic change in a dryland river: Moenkopi Wash, AZ
Inundation tolerance, rather than drought tolerance, predicts riparian plant distributions along a local hydrologic gradient
Migration timing and tributary use of spawning flannelmouth sucker (Catostomus latipinnis)
Genetic erosion in an endangered desert fish during a multidecadal megadrought despite long-term supportive breeding
Storms and pH of dam releases affect downstream phosphorus cycling in an arid regulated river
Models of underlying autotrophic biomass dynamics fit to daily river ecosystem productivity estimates improve understanding of ecosystem disturbance and resilience
The Colorado River water crisis: Its origin and the future
Linking ecosystem processes to consumer growth rates: Gross primary productivity as a driver of freshwater fish somatic growth in a resource-limited river
State of the science and decision support for measuring suspended sediment with acoustic instrumentation
Archaeological sites in Grand Canyon National Park along the Colorado River are eroding owing to six decades of Glen Canyon Dam operations
Colorado River Basin
Below are news items about GCMRC's science.
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.
Connectivity of Sand Resources Along the Colorado River in Grand Canyon
Sediment Storage in Grand Canyon
River Campsites in Grand Canyon National Park
Geospatial Science and Technology
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
Invertebrate Drift Downstream of Colorado River Basin Dams
Uncovering the Base of the Food Web: Primary Production Dynamics in the Colorado River
Riparian Remote Sensing in the Colorado River and Grand Canyon Region
Economics of Outdoor Recreation
Insect Drift
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.
Modeling the impacts of Glen Canyon Dam operations on Colorado River resources
Do topographic changes tell us about variability in aeolian sediment transport and dune mobility? Analysis of monthly to decadal surface changes in a partially vegetated and biocrust covered dunefield
The effects of vegetative feedbacks on flood shape, sediment transport, and geomorphic change in a dryland river: Moenkopi Wash, AZ
Inundation tolerance, rather than drought tolerance, predicts riparian plant distributions along a local hydrologic gradient
Migration timing and tributary use of spawning flannelmouth sucker (Catostomus latipinnis)
Genetic erosion in an endangered desert fish during a multidecadal megadrought despite long-term supportive breeding
Storms and pH of dam releases affect downstream phosphorus cycling in an arid regulated river
Models of underlying autotrophic biomass dynamics fit to daily river ecosystem productivity estimates improve understanding of ecosystem disturbance and resilience
The Colorado River water crisis: Its origin and the future
Linking ecosystem processes to consumer growth rates: Gross primary productivity as a driver of freshwater fish somatic growth in a resource-limited river
State of the science and decision support for measuring suspended sediment with acoustic instrumentation
Archaeological sites in Grand Canyon National Park along the Colorado River are eroding owing to six decades of Glen Canyon Dam operations
Colorado River Basin
Below are news items about GCMRC's science.