BECKY BRICE
UNIVERSITY OF ARIZONA
SCHOOL OF GEOGRAPHY AND DEVELOPMENT
THE LABORATORY OF TREE-RING RESEARCH
Past Water and Climate on the Colorado Plateau
Hydroclimatic records, drought indicators, and the impacts of climate extremes
About
Becky Brice, PhD Candidate
I'm a graduate student at the University of Arizona in the School of Geography and Development working on questions concerning hydroclimate on the Colorado Plateau. I use environmental proxies to reconstruct moisture-related climate components used to supplement instrumental records which are more constrained in space and time.
Research Projects
Chuska Mountains, Navajo Nation
April 2018
Long-term records of hydroclimate for the Navajo Nation are acutely limited. Short records can fail to capture the full range of hydroclimatic variability while longer records illuminate more climate information. Without long-term records to document the natural variability of water resources in the Chuska Mountains, anticipating water availability for the Navajo Nation’s most populated and economically productive areas is difficult. Depressions at the crest of the Chuskas collect snowmelt, providing water for Navajo stock animals, wildlife, agriculture and fish. Recent decades are characterized by declining snow water equivalent (SWE) in snowpack of northeastern Arizona. At the same time, tribal members report that surface waters supporting agricultural practices and community resources on the Navajo Nation have begun to go dry from extended drought. This use-based study is a collaborative effort with Navajo Nation Department of Water Resources (NNDWR) to enhance understanding of surface water resources in the Chuska Mountains.
Upper Colorado River Basin
2018
The Colorado River basin is one of the most over-allocated river basins in the world. Year-to-year variability in Colorado River streamflow has far reaching impacts throughout the six states dependent upon its water supply. Streamflow variability related to runoff is influenced by varying seasonal contributions of factors that include spring temperature, antecedent soil moisture, and winter snowpack. Recent research has demonstrated that tree rings can be used as proxies for annual soil moisture. This study, as part of a broader effort to better understand how the different seasonal hydroclimatic factors contribute to streamflow variability, investigates the potential to use tree rings to reconstruct fall soil moisture conditions as part of a broader effort to better understand how the different seasonal hydroclimatic factors contribute to streamflow variability. Most long-term soil moisture data is indirectly modeled and based upon instrumental measurements of temperature and precipitation, and estimated soil moisture capacity. Here, we evaluate the relationship between modeled antecedent soil moisture data based upon the McCabe and Wollock monthly time step model for the upper Colorado River basin and a network of existing tree-ring chronologies. We use multiple linear regression to calibrate the tree- ring chronologies with the soil moisture, then we test the model using standard validation techniques. Using the reconstruction of antecedent soil moisture for the Colorado River basin, we evaluate the relative contribution of seasonal soil moisture conditions to streamflow over time. We found a significant relationship over the 513 year reconstruction period between low streamflow and dry soil moisture conditions four years prior. Superposed Epoch Analysis(SEA) suggests a more significant relationship during the 20th century between high Colorado River streamflow and wet soil moisture conditions one year prior. The influence of soil moisture on streamflow magnitude in the Colorado River may enhance our understanding of hydroclimatic variability and inform future water resources decision-making.
Four Corners
2018
Annual totals for precipitation and temperature can obscure sub-annual spatial and temporal moisture variability, masking the severity of drought impacts in dry regions. In the arid Four Corners of the American Southwest seasonal variations in duration, intensity and timing of precipitation are important to tribal agricultural activities. Because instrumental climate data in the Four Corners are limited, we explore relationships between earlywood and latewood tree-ring measurements in Psuedotsuga menziesii and Pinus ponderosa with indices of climate extremes in precipitation and temperature from the World Meteorological Organization for the potential of sub-annual tree-ring measurements to serve as long-term drought impact recorders. Results show significant correlations between earlywood- and latewood-widths and season-specific climate variables, indicating that such measurements can be used as a proxy for season-specific drought impacts and reconstructions may document these impacts in the Four Corners over past centuries.
Contact me to learn more about my research.
My Presentations
APCG Meeting
2014
Session Speaker
University of Arizona Grad Blitz
2014
Poster
AAG Annual Meeting
2014
Poster
AAG Annual Meeting
2015
Session Speaker
ISA-RMC Annual Meeting
2015
Invited Speaker
SWCSC Stakeholder Workshop
2015
Research Assistant
Tohono Chul, Tucson AZ
2016
Invited Speaker
UA Arid Land Conference
2016
Poster
UA Earth Week, Tree-Ring Day
2016
Session Speak
AMQUA Annual Meeting
2016
Poster
CIRMOUNT MtnClim Meeting
2016
Poster
UA Earth Week, Tree-Ring Day
2017
Session Speaker
Navajo Nation DNR Summit
2017
Poster
Navajo Nation DNR Summit
2017
Session Speaker
AAG Meeting
2018
Poster
Published Work
Brice, B., Fullerton, C., Hawkes, K. L., Mills-Novoa, M., O'Neill, B. F., & Pawlowski, W. M. (2017). The Impacts of Climate Change on Natural Areas Recreation: A Multi-Region Snapshot and Agency Comparison. Natural Areas Journal, 37(1), 86-97.
Abstract
Recreation is a fundamental component of human culture and the economy. In this paper, we elucidate ways in which recreation should be reconsidered in discussions of climate change. Ecosystems that support outdoor recreation can be significantly altered, extreme climatic conditions can affect plant and animal health, and extreme weather events can limit human outdoor activity. Projections indicate global temperatures will rise and precipitation will shift from historical conditions to less predictable regimes. These projected changes affect recreation and the economies recreation supports. To encourage the inclusion of recreation as a topic in future assessment synthesis reports, a snapshot of climate change impacts on regional recreation in the US is developed, using the National Park Service and Forest Service as case studies. After examining peer-reviewed and agency literature, we suggest that the impact of projected climate change on US recreation needs further scrutiny. Federal land management approaches to identifying, measuring, and managing climate change-induced recreation impacts are developing, but remain fragmented at the local and regional scale. We identify opportunities to address and improve research efforts at the intersection of climate change and outdoor recreation.
Brice, B., Lorion, K. K., Griffin, D., Macalady, A. K., Guiterman, C. H., Speer, J. H., ... Wang, H. (2013). Signal strength in sub-annual tree-ring chronologies from Pinus ponderosa in Northern New Mexico. Tree-Ring Research, 69(2), 81-86. DOI: 10.3959/1536-1098-69.2.81
Abstract
The creation of chronologies from intra-annual features in tree rings is increasingly utilized in dendrochronology to create season-specific climate histories, among other applications. A conifer latewood-width network has recently been developed for the southwestern United States, but considerable uncertainty remains in understanding site and species differences in signal strength and sample depth requirements. As part of the 22nd annual North American Dendroecological Fieldweek, the first Pinus ponderosa earlywood-width (EW) and latewood-width (LW) chronologies were developed for the Jemez Mountains in northern New Mexico. The aim was to extend an existing total ring-width (TW) chronology and to assess the potential for creating long LW chronologies. Analysis of chronology signal strength suggests that large sample size requirements remain a considerable hurdle for creating P. ponderosa LW chronologies longer than 400 years. At the Cat Mesa site, twenty-three sample trees were required to capture a statistically acceptable common signal in adjusted latewood (LWa), whereas only four samples were required for EW. This is significantly higher than sample depth requirements for LWa from the few other chronologies in the region where this statistic has been reported. A future priority should be to develop a conceptual guide for site and tree selection in order to maximize the potential for enhancing LW signal and for creating a robust network of multi-century LW chronologies.
Price, J. R., Peresolak, K., Brice, R. L., & Tefend, K. S. (2013). Temporal variability in the chemical weathering of Ca2+-bearing phases in the Loch Vale watershed, Colorado, USA: A mass-balance approach. Chemical Geology, 342, 151-166.
DOI
10.1016/j.chemgeo.2013.02.001
Abstract
The contributions of Ca2 +-bearing minerals to the solute budgets of the subalpine to alpine Loch Vale watershed located in Rocky Mountain National Park, Colorado, USA, are investigated. Previously published mass-balance models of chemical weathering in Loch Vale used the Ca2 +-phases oligoclase and calcite. However, hexagonal dissolution voids in detrital stream-sediment grains provide evidence that apatite is also dissolving, which is further supported by an absence of any apatite in stream sediments.