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105. Elevated CO2 does not offset greater water stress predicted under climate change for native and exotic riparian plants.

Author

Perry, Laura G., Shafroth, Patrick B., Blumenthal, Dana M., Morgan, Jack A., and LeCain, Daniel R.

Subjects
*RIPARIAN plants, *CARBON dioxide, *PLANT-water relationships, *CLIMATE change
Abstract

In semiarid western North American riparian ecosystems, increased drought and lower streamflows under climate change may reduce plant growth and recruitment, and favor drought-tolerant exotic species over mesic native species. We tested whether elevated atmospheric CO2 might ameliorate these effects by improving plant water-use efficiency., We examined the effects of CO2 and water availability on seedlings of two native ( Populus deltoides spp. monilifera, Salix exigua) and three exotic ( Elaeagnus angustifolia, Tamarix spp., Ulmus pumila) western North American riparian species in a CO2-controlled glasshouse, using 1-m-deep pots with different water-table decline rates., Low water availability reduced seedling biomass by 70-97%, and hindered the native species more than the exotics. Elevated CO2 increased biomass by 15%, with similar effects on natives and exotics. Elevated CO2 increased intrinsic water-use efficiency (Δ13Cleaf), but did not increase biomass more in drier treatments than wetter treatments., The moderate positive effects of elevated CO2 on riparian seedlings are unlikely to counteract the large negative effects of increased aridity projected under climate change. Our results suggest that increased aridity will reduce riparian seedling growth despite elevated CO2, and will reduce growth more for native Salix and Populus than for drought-tolerant exotic species. [ABSTRACT FROM AUTHOR]

Published
2013
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106. Vulnerability of riparian ecosystems to elevated CO2 and climate change in arid and semiarid western North America.

Author

Perry, Laura G., Andersen, Douglas C., Reynolds, Lindsay V., Nelson, S. Mark, and Shafroth, Patrick B.

Subjects
RIPARIAN ecology, CLIMATE change, BIOTIC communities, ACCLIMATIZATION
Abstract

Riparian ecosystems, already greatly altered by water management, land development, and biological invasion, are being further altered by increasing atmospheric CO2 concentrations ([ CO2]) and climate change, particularly in arid and semiarid (dryland) regions. In this literature review, we (1) summarize expected changes in [ CO2], climate, hydrology, and water management in dryland western North America, (2) consider likely effects of those changes on riparian ecosystems, and (3) identify critical knowledge gaps. Temperatures in the region are rising and droughts are becoming more frequent and intense. Warmer temperatures in turn are altering river hydrology: advancing the timing of spring snow melt floods, altering flood magnitudes, and reducing summer and base flows. Direct effects of increased [ CO2] and climate change on riparian ecosystems may be similar to effects in uplands, including increased heat and water stress, altered phenology and species geographic distributions, and disrupted trophic and symbiotic interactions. Indirect effects due to climate-driven changes in streamflow, however, may exacerbate the direct effects of warming and increase the relative importance of moisture and fluvial disturbance as drivers of riparian ecosystem response to global change. Together, climate change and climate-driven changes in streamflow are likely to reduce abundance of dominant, native, early-successional tree species, favor herbaceous species and both drought-tolerant and late-successional woody species (including many introduced species), reduce habitat quality for many riparian animals, and slow litter decomposition and nutrient cycling. Climate-driven changes in human water demand and associated water management may intensify these effects. On some regulated rivers, however, reservoir releases could be managed to protect riparian ecosystem. Immediate research priorities include determining riparian species' environmental requirements and monitoring riparian ecosystems to allow rapid detection and response to undesirable ecological change. [ABSTRACT FROM AUTHOR]

Published
2012
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107. Floristic composition, beta diversity, and nestedness of reference sites for restoration of xeroriparian areas.

Author

Bwauchamp, Vanessa B. and Shafroth, Patrick B.

Subjects
PLANT communities, BIODIVERSITY, RESTORATION ecology, SOIL salinity, SOIL texture
Abstract

The article presents a study which investigates the floristic composition, nestedness, and beta diversity for plant communities of riparian terraces along five rivers in New Mexico. The study made uses of the environmental variables as an approach to determine the soil groups with the 57 study sites. The result of the study shows that sites were nested with dominant and salt tolerant species and sites clustered into groups based on texture and soil salinity variation.

Published
2011
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108. BIOLOGY, ECOLOGY AND MANAGEMENT OF ELAEAGNUS ANGUSTIFOLIA L. (RUSSIAN OLIVE) IN WESTERN NORTH AMERICA.

Author

Katz, Gabrielle L. and Shafroth, Patrick B.

Abstract

Elaeagnus angustifolia (Russian olive) is an alien tree that is increasingly common in riparian habitats of western North America. This paper reviews the pertinent scientific literature in order to determine the status of E. angustifolia as a riparian invader and to suggest ecological reasons for its success. Elaeagnus angustifolia meets the biogeographic, spread, and impact criteria for invasive species. Ecological characteristics likely enabling its invasiveness include adaptation to the physical environmental conditions that characterize semi-arid riparian habitats, lack of intense pressure from herbivores, and tolerance of the competitive effects of established vegetation. We believe that the success of this species is at least partly due to its ability to take advantage of the reduced levels of physical disturbance that characterize riparian habitats downstream from dams. Control of E. angustifolia is likely to be most promising where natural river flow regimes remain relatively intact. [ABSTRACT FROM AUTHOR]

Published
2003
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110. Bird community response to one decade of riparian restoration along the Colorado River delta in Mexico.

Author

González-Sargas, Eduardo, Meehan, Timothy D., Hinojosa-Huerta, Osvel, Villagomez-Palma, Stefanny, Calvo-Fonseca, Alejandra, Dodge, Christopher, Gómez-Sapiens, Martha, and Shafroth, Patrick B.

Subjects
*RIPARIAN restoration, *BIRD communities, *VEGETATION management, *BIRD breeding, *STREAM restoration, *BIRD populations
Abstract

We assessed the response of breeding birds to one decade of riparian restoration in the Colorado River delta including active vegetation management since 2010 and various environmental water deliveries since 2014. Bird surveys were conducted from 2002 to 2021 at 230 bird count stations distributed along five river reaches with different hydrogeomorphic characteristics, across 7 routes in actively revegetated ("restored") sites, and 20 routes in non-actively revegetated ("control") sites. Both restored and control sites could be affected by environmental flows/water deliveries. We examined the temporal trajectories of four community-aggregated metrics for 53 breeding species, and the number of detections (counts) for the 30 most frequently detected among the 53 species at the restored and control sites, using generalized linear mixed-effects models. Diversity and richness of the 53 breeding species were highest in the wettest river reach, but higher than in control sites in only one restored site within one of the driest river reaches. The avian community was recovering in control sites, ameliorating a long-term declining trend, perhaps indicating indirect positive effects of active restoration. The response to restoration of the 30 most common species was species-specific. Ten of the 16 riparian forest specialist species had more detections in restored sites of the wettest reach (vs. only two in the driest reach). Species with preference for agricultural fields and generalists had the highest counts along the entire delta. Generalists generally decreased following revegetation, which was another positive restoration effect. Our results will be used to help guide future restoration efforts. • Benefits of restoring degraded floodplains varied among species of breeding birds. • Response of riparian bird specialists to revegetation was positive but not universal. • Revegetation of floodplains reduced abundance of some generalist birds. • Effects of revegetation on breeding birds could go beyond its physical boundaries. • Response varied with different baseline conditions and characteristics of reaches. [ABSTRACT FROM AUTHOR]

Published
2024
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111. Avian communities respond to plant and landscape composition in actively revegetated floodplains of the Colorado River delta in Mexico.

Author

González-Sargas, Eduardo, Gómez-Sapiens, Martha, Hinojosa-Huerta, Osvel, Villagomez-Palma, Stefanny, Calvo-Fonseca, Alejandra, Grand, Joanna, Meehan, Timothy D., Dodge, Chris, Nagler, Pamela L., Restrepo-Giraldo, Carlos, Nieblas, Carlos, Meléndez, Angela, Real Rangel, Roberto, and Shafroth, Patrick B.

Subjects
*BIRD communities, *FLOODPLAINS, *CHEMICAL composition of plants, *PLANT communities, *LAND cover, *FORESTS & forestry, *WETLANDS, *STREAM restoration
Abstract

We examined the influence of local habitat factors such as plant community composition and species cover, and landscape habitat factors (e.g., land cover types) on the composition of the avian community in an arid-region large river delta (Colorado River). This 106 river km-long study area has experienced restoration through environmental water deliveries and active management of vegetation for ca. 10 years after decades of degradation. Variation partitioning and spatial models (Moran Eigenvector Maps) showed that plant communities and land cover combined explained 29.3% of the variability of 115 bird species, with a high overlap of 13.1% as vegetation and landscape factors were partially confounded and spatially correlated. Redundancy analyses showed that a higher cover of native riparian trees and shrubs and a larger amount of land covered by forests, typical characteristics of revegetated sites, favored bird species with affinity for riparian forests. Marshland and open water landscape features and high cover of macrophytes (which were common in the wettest river reach among the five included in the study), irrespective of active revegetation, were associated with a higher prevalence of wetland birds. Dominance by the non-native shrub Tamarix spp. and, especially, barren areas were detrimental to most bird species. The proportion of agricultural lands around the study sites was related to high abundance of generalists and some non-native species. Overall, our study showed that both local (vegetation) and landscape (land use) factors are important considerations for restoration of riparian bird communities. • Plant composition and land cover combined explain bird composition in floodplains. • Restored riparian forest was associated with higher abundance of most bird species. • Open water and marshes were key for wetland birds despite their small area. • Synanthropic birds were the most abundant and thrived near agricultural lands. • Barren areas were associated with particularly low bird abundance. [ABSTRACT FROM AUTHOR]

Published
2024
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112. Strategic restoration planning for land birds in the Colorado River Delta, Mexico.

Author

Grand, Joanna, Meehan, Timothy D., DeLuca, William V., Morton, Julia, Pitt, Jennifer, Calvo-Fonseca, Alejandra, Dodge, Chris, Gómez-Sapiens, Martha, González-Sargas, Eduardo, Hinojosa-Huerta, Osvel, Nagler, Pamela, Restrepo-Giraldo, Carlos, Shafroth, Patrick B., Villagomez-Palma, Stefanny, and Wilsey, Chad B.

Subjects
*FOREST restoration, *LAND use planning, *RIPARIAN forests, *RIPARIAN restoration, *STREAM restoration, *RESTORATION ecology
Abstract

Ecological restoration is an essential strategy for mitigating the current biodiversity crisis, yet restoration actions are costly. We used systematic conservation planning principles to design an approach that prioritizes restoration sites for birds and tested it in a riparian forest restoration program in the Colorado River Delta. Restoration goals were to maximize the abundance and diversity of 15 priority birds with a variety of habitat preferences. We built abundance models for priority birds based on the current landscape, and predicted bird distributions and relative abundances under a scenario of complete riparian forest restoration throughout our study area. Then, we used Zonation conservation planning software to rank this restored landscape based on core areas for all priority birds. The locations with the highest ranks represented the highest priorities for restoration and were located throughout the river reach. We optimized how much of the available landscape to restore by simulating restoration of the top 10–90% of ranked sites in 10% intervals. We found that total diversity was maximized when 40% of the landscape was restored, and mean relative abundance was maximized when 80% of the landscape was restored. The results suggest that complete restoration is not optimal for this community of priority birds and restoration of approximately 60% of the landscape would provide a balance between maximum relative abundance and diversity. Subsequent planning efforts will combine our results with an assessment of restoration costs to provide further decision support for the restoration-siting process. Our approach can be applied to any landscape-scale restoration program to improve the return on investment of limited economic resources for restoration. • Systematic conservation planning tools can be useful in landscape-scale restoration planning. • Bird-community abundance was maximized when 80% of the landscape was restored and diversity was maximized when 40% of the landscape was restored. • Six species were positively associated with increasing restoration area. • Five species were positively associated with intermediate levels of restoration. • Three species were negatively associated with increasing restoration area. [ABSTRACT FROM AUTHOR]

Published
2024
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113. Processes of arroyo filling in northern New Mexico, USA.

Author

Friedman, Jonathan M., Vincent, Kirk R., Griffin, Eleanor R., Scott, Michael L., Shafroth, Patrick B., and Auble, Gregor T.

Subjects
*ARROYOS, *STRATIGRAPHIC geology, *SEDIMENT analysis, *TAMARISKS, *WILLOWS, *LIDAR
Abstract

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 information from aerial imagery, light detection and ranging (LiDAR), longitudinal profiles, and repeat surveys of cross sections. Burial signatures in annual rings of salt cedar and willow dated sedimentary beds greater than 30 cm thick with annual precision. Along both arroyos, incision occurred until the 1930s in association with extreme high flows, and subsequent filling involved vegetation development, channel narrowing, increased sinuosity, and finally vertical aggradation. A strongly depositional sediment transport regime interacted with floodplain shrubs to produce a characteristic narrow, trapezoidal channel. The 55 km study reach along the Rio Puerco demonstrated upstream progression of arroyo widening and filling, but not of arroyo incision, channel narrowing, or floodplain vegetation development. We conclude that the occurrence of upstream progression within large basins like the Rio Puerco makes precise synchrony across basins impossible. Arroyo wall retreat is now mostly limited to locations where meanders impinge on the arroyo wall, forming hairpin bends, for which entry to and exit from the wall are stationary. Average annual sediment storage within the Rio Puerco study reach between 1955 and 2005 was 4.8 x 105 t/yr, 16% of the average annual suspended sediment yield, and 24% of the long-term bedrock denudation rate. At this rate, the arroyo would fill in 310 yr. [ABSTRACT FROM AUTHOR]

Published
2015
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114. Projected warming disrupts the synchrony of riparian seed release and snowmelt streamflow.

Author

Perry LG, Shafroth PB, Hay LE, Markstrom SL, and Bock AR

Subjects
Climate, Geography, Linear Models, Models, Biological, Populus physiology, Salix physiology, Seasons, Temperature, Time Factors, Climate Change, Rivers, Seeds physiology, Snow
Abstract

Globally, spring phenology and abiotic processes are shifting earlier with warming. Differences in the magnitudes of these shifts may decouple the timing of plant resource requirements from resource availability. In riparian forests across the northern hemisphere, warming could decouple seed release from snowmelt peak streamflow, thus reducing moisture and safe sites for dominant tree recruitment. We combined field observations with climate, hydrology, and phenology models to simulate future change in synchrony of seed release and snowmelt peaks in the South Platte River Basin, Colorado, for three Salicaceae species that dominate western USA riparian forests. Chilling requirements for overcoming winter endodormancy were strongest in Salix exigua, moderately supported for Populus deltoides, and indiscernible in Salix amygdaloides. Ensemble mean projected warming of 3.5°C shifted snowmelt peaks 10-19 d earlier relative to S. exigua and P. deltoides seed release, because decreased winter chilling combined with increased spring forcing limited change in their phenology. By contrast, warming shifted both snowmelt peaks and S. amygdaloides seed release 21 d earlier, maintaining their synchrony. Decoupling of snowmelt from seed release for Salicaceae with strong chilling requirements is likely to reduce resources critical for recruitment of these foundational riparian forests, although the magnitude of future decoupling remains uncertain., (No claim to US Government works New Phytologist © 2019 New Phytologist Trust.)

Published
2020
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115. Elevated CO₂ does not offset greater water stress predicted under climate change for native and exotic riparian plants.

Author

Perry LG, Shafroth PB, Blumenthal DM, Morgan JA, and LeCain DR

Subjects
Analysis of Variance, Biomass, Carbon metabolism, Carbon Isotopes, Dehydration, Humidity, Nitrogen metabolism, Plant Roots drug effects, Plant Roots growth & development, Plant Shoots drug effects, Plant Shoots growth & development, Seedlings drug effects, Seedlings growth & development, Soil chemistry, Trees anatomy & histology, Trees growth & development, Trees physiology, Water chemistry, Carbon Dioxide pharmacology, Climate Change, Ecosystem
Abstract

In semiarid western North American riparian ecosystems, increased drought and lower streamflows under climate change may reduce plant growth and recruitment, and favor drought-tolerant exotic species over mesic native species. We tested whether elevated atmospheric CO₂ might ameliorate these effects by improving plant water-use efficiency. We examined the effects of CO₂ and water availability on seedlings of two native (Populus deltoides spp. monilifera, Salix exigua) and three exotic (Elaeagnus angustifolia, Tamarix spp., Ulmus pumila) western North American riparian species in a CO₂-controlled glasshouse, using 1-m-deep pots with different water-table decline rates. Low water availability reduced seedling biomass by 70-97%, and hindered the native species more than the exotics. Elevated CO₂ increased biomass by 15%, with similar effects on natives and exotics. Elevated CO₂ increased intrinsic water-use efficiency (Δ¹³C(leaf) ), but did not increase biomass more in drier treatments than wetter treatments. The moderate positive effects of elevated CO₂ on riparian seedlings are unlikely to counteract the large negative effects of increased aridity projected under climate change. Our results suggest that increased aridity will reduce riparian seedling growth despite elevated CO₂, and will reduce growth more for native Salix and Populus than for drought-tolerant exotic species., (No claim to original US government works. New Phytologist © 2012 New Phytologist Trust.)

Published
2013
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