Add to ORKGWater use and carbon acquisition were examined in a northern Utah population of Juniperus osteosperma (Torr.) Little. Leaf-level carbon assimilation, which was greatest in the spring and autumn, was limited by soil water availability. Gas exchange, plant water potential and tissue hydrogen stable isotopic ratio ({delta}D) data suggested that plants responded rapidly to summer rain events. Based on a leaf area index of 1.4, leaf-level water use and carbon acquisition scaled to canopy-level means of 0.59 mm day–1 and 0.13 mol m–2 ground surface day–1, respectively. Patterns of soil water potential indicated that J. osteosperma dries the soil from the surface downward to a depth of about 1 m. Hydraulic redistribution is a significant proces...
Plant respiration (R) is generally well-coupled with temperature and in the absence of thermal accli...
Juniper trees (Juniperus osteosperma, J. monosperma, J. deppeana and J. scopulorum) grow under widel...
Abstract. Increased atmospheric CO2 may affect the physiological response of natural trees to drough...
Water use and carbon acquisition were examined in a northern Utah population of Juniperus osteosperm...
Juniper species are noted for long-lived foliage, low and persistent gas exchange activity and drou...
The recent expansion of Juniperus ashei (Ashe juniper) on the Edwards Plateau of Central Texas has p...
Abstract In water-limited environments of the inter-mountain region of North America, summer precipi...
Juniper expansion across the western United States has the potential to alter watershed hydrology, e...
During the last century, the density of Ashe juniper (Juniperus ashei Buchholz) has greatly increase...
Relationships between seasonal and diurnal leaf conductance, xylem sap potential, transpiration rate...
Graduation date: 1990Patterns and costs of root/shoot allocations, response to reductions of above a...
Water use by single-leaf piñon (Pinus monophylla) and Utah juniper (Juniperus osteosperma) was measu...
Journal ArticleAnthropogenic climate change is likely to alter the patterns of moisture availability...
Utah juniper was a foundational species for the discipline of dendrochronology, having been used in ...
A general paradigm in semi-arid and arid systems is that woody plants with dimorphic root systems wi...
Plant respiration (R) is generally well-coupled with temperature and in the absence of thermal accli...
Juniper trees (Juniperus osteosperma, J. monosperma, J. deppeana and J. scopulorum) grow under widel...
Abstract. Increased atmospheric CO2 may affect the physiological response of natural trees to drough...
Water use and carbon acquisition were examined in a northern Utah population of Juniperus osteosperm...
Juniper species are noted for long-lived foliage, low and persistent gas exchange activity and drou...
The recent expansion of Juniperus ashei (Ashe juniper) on the Edwards Plateau of Central Texas has p...
Abstract In water-limited environments of the inter-mountain region of North America, summer precipi...
Juniper expansion across the western United States has the potential to alter watershed hydrology, e...
During the last century, the density of Ashe juniper (Juniperus ashei Buchholz) has greatly increase...
Relationships between seasonal and diurnal leaf conductance, xylem sap potential, transpiration rate...
Graduation date: 1990Patterns and costs of root/shoot allocations, response to reductions of above a...
Water use by single-leaf piñon (Pinus monophylla) and Utah juniper (Juniperus osteosperma) was measu...
Journal ArticleAnthropogenic climate change is likely to alter the patterns of moisture availability...
Utah juniper was a foundational species for the discipline of dendrochronology, having been used in ...
A general paradigm in semi-arid and arid systems is that woody plants with dimorphic root systems wi...
Plant respiration (R) is generally well-coupled with temperature and in the absence of thermal accli...
Juniper trees (Juniperus osteosperma, J. monosperma, J. deppeana and J. scopulorum) grow under widel...
Abstract. Increased atmospheric CO2 may affect the physiological response of natural trees to drough...