Erosion and Invasive Saltcedar Active
Formation of arroyos in the late 1800s greatly increased erosion across the southwestern United States. Since the 1930s, however, this erosion has decreased, partly because of bank stabilization by introduced saltcedar. With Isleta Pueblo Indian Nation, the Aquatic Systems Branch developed a new sediment dating method using saltcedar tree rings. We applied the method in a landmark study of arroyo filling along the Rio Puerco, New Mexico. We then showed how aerial application of herbicide to control saltcedar accidentally renewed erosion. This erosion may now be amplified by a beetle introduced for saltcedar control.
Below are other science projects associated with this project.
Riparian Ecology
Below are publications associated with this project.
Processes of arroyo filling in northern New Mexico, USA
Effects of woody vegetation on overbank sand transport during a large flood, Rio Puerco, New Mexico
Effects of riparian vegetation on topographic change during a large flood event, Rio Puerco, New Mexico, USA
Erosional consequence of saltcedar control
Dating floodplain sediments using tree-ring response to burial
Modeling effects of bank friction and woody bank vegetation on channel flow and boundary shear stress in the Rio Puerco, New Mexico
Below are partners associated with this project.
- Overview
Formation of arroyos in the late 1800s greatly increased erosion across the southwestern United States. Since the 1930s, however, this erosion has decreased, partly because of bank stabilization by introduced saltcedar. With Isleta Pueblo Indian Nation, the Aquatic Systems Branch developed a new sediment dating method using saltcedar tree rings. We applied the method in a landmark study of arroyo filling along the Rio Puerco, New Mexico. We then showed how aerial application of herbicide to control saltcedar accidentally renewed erosion. This erosion may now be amplified by a beetle introduced for saltcedar control.
- Science
Below are other science projects associated with this project.
Riparian Ecology
Riparian ecologists at the Fort Collins Science Center study interactions among flow, channel change, and vegetation along rivers across the western United States and worldwide. Our work focuses on issues relevant to the management of water and public lands, including dam operation, climate change, invasive species, and ecological restoration. Investigations take place on a range of scales. For... - Publications
Below are publications associated with this project.
Processes of arroyo filling in northern New Mexico, USA
We documented arroyo evolution at the tree, trench, and arroyo scales along the lower Rio Puerco and Chaco Wash in northern New Mexico, USA. We excavated 29 buried living woody plants and used burial signatures in their annual rings to date stratigraphy in four trenches across the arroyos. Then, we reconstructed the history of arroyo evolution by combining trench data with arroyo-scale informationAuthorsJonathan M. Friedman, Kirk R. Vincent, Eleanor R. Griffin, Michael L. Scott, Patrick B. Shafroth, Gregor T. AubleEffects of woody vegetation on overbank sand transport during a large flood, Rio Puerco, New Mexico
Distributions of woody vegetation on floodplain surfaces affect flood-flow erosion and deposition processes. A large flood along the lower Rio Puerco, New Mexico, in August 2006 caused extensive erosion in a reach that had been sprayed with herbicide in September 2003 for the purpose of saltcedar (Tamarix spp.) control. Large volumes of sediment, including a substantial fraction of sand, were deliAuthorsEleanor R. Griffin, Mariela C. Perignon, Jonathan M. Friedman, Gregory E. TuckerEffects of riparian vegetation on topographic change during a large flood event, Rio Puerco, New Mexico, USA
The spatial distribution of riparian vegetation can strongly influence the geomorphic evolution of dryland rivers during large floods. We present the results of an airborne lidar differencing study that quantifies the topographic change that occurred along a 12 km reach of the Lower Rio Puerco, New Mexico, during an extreme event in 2006. Extensive erosion of the channel banks took place immediateAuthorsM. C. Perignon, G.E. Tucker, Eleanor R. Griffin, Jonathan M. FriedmanErosional consequence of saltcedar control
Removal of nonnative riparian trees is accelerating to conserve water and improve habitat for native species. Widespread control of dominant species, however, can lead to unintended erosion. Helicopter herbicide application in 2003 along a 12-km reach of the Rio Puerco, New Mexico, eliminated the target invasive species saltcedar (Tamarix spp.), which dominated the floodplain, as well as the nativAuthorsK.R. Vincent, J. M. Friedman, E.R. GriffinDating floodplain sediments using tree-ring response to burial
Floodplain sediments can be dated precisely based on the change in anatomy of tree rings upon burial. When a stem of tamarisk (Tamarix ramosissima) or sandbar willow (Salix exigua) is buried, subsequent annual rings in the buried section resemble the rings of roots: rings become narrower, vessels within the rings become larger, and transitions between rings become less distinct. We combined observAuthorsJ. M. Friedman, K.R. Vincent, P.B. ShafrothModeling effects of bank friction and woody bank vegetation on channel flow and boundary shear stress in the Rio Puerco, New Mexico
[1] We have applied a physically based model for steady, horizontally uniform flow to calculate reach-averaged velocity and boundary shear-stress distributions in a natural stream with woody vegetation on the channel banks. The model calculates explicitly the form drag on woody plant stems and includes the effects of vegetation on the boundary shear stress, velocity, and turbulence fields. AverageAuthorsE.R. Griffin, J. W. Kean, K.R. Vincent, J.D. Smith, J. M. Friedman - Partners
Below are partners associated with this project.