Plant Responses to Temperature and Water Limitation
Weather and climate impacts on dominant native perennials must be understood in order to efficiently manage our western landscapes. We use an ecophysiological approach, linking to population, community, and landscape ecology, to understand the impacts and responses of plants on or to their environment.
Below are other science projects associated with this project.
Below are data or web applications associated with this project.
Below are publications associated with this project.
Climate drives adaptive genetic responses associated with survival in big sagebrush (Artemisia tridentata)
Effects of experimentally reduced snowpack and passive warming on montane meadow plant phenology and floral resources
Response of aboveground carbon balance to long-term, experimental enhancements in precipitation seasonality is contingent on plant community type in cold-desert rangelands
Warming and provenance limit tree recruitment across and beyond the elevation range of subalpine forest
Climate adaption and post-fire restoration of a foundational perennial in cold desert: Insights from intraspecific variation in response to weather
Online induction heating for determination of isotope composition of woody stem water with laser spectrometry: A methods assessment
Moisture rivals temperature in limiting photosynthesis by trees establishing beyond their cold-edge range limit under ambient and warmed conditions
Linking carbon and water limitations to drought-induced mortality of Pinus flexilis seedlings
Plants in alpine environments
Adaptive responses reveal contemporary and future ecotypes in a desert shrub
Conifer seedling recruitment across a gradient from forest to alpine tundra: effects of species, provenance, and site
Nonstructural leaf carbohydrates dynamics of Pinus edulis during drought-induced tree mortality reveal role for carbon metabolism in mortality mechanism
Below are news stories associated with this project.
Weather and climate impacts on dominant native perennials must be understood in order to efficiently manage our western landscapes. We use an ecophysiological approach, linking to population, community, and landscape ecology, to understand the impacts and responses of plants on or to their environment.
Below are other science projects associated with this project.
Below are data or web applications associated with this project.
Below are publications associated with this project.
Climate drives adaptive genetic responses associated with survival in big sagebrush (Artemisia tridentata)
Effects of experimentally reduced snowpack and passive warming on montane meadow plant phenology and floral resources
Response of aboveground carbon balance to long-term, experimental enhancements in precipitation seasonality is contingent on plant community type in cold-desert rangelands
Warming and provenance limit tree recruitment across and beyond the elevation range of subalpine forest
Climate adaption and post-fire restoration of a foundational perennial in cold desert: Insights from intraspecific variation in response to weather
Online induction heating for determination of isotope composition of woody stem water with laser spectrometry: A methods assessment
Moisture rivals temperature in limiting photosynthesis by trees establishing beyond their cold-edge range limit under ambient and warmed conditions
Linking carbon and water limitations to drought-induced mortality of Pinus flexilis seedlings
Plants in alpine environments
Adaptive responses reveal contemporary and future ecotypes in a desert shrub
Conifer seedling recruitment across a gradient from forest to alpine tundra: effects of species, provenance, and site
Nonstructural leaf carbohydrates dynamics of Pinus edulis during drought-induced tree mortality reveal role for carbon metabolism in mortality mechanism
Below are news stories associated with this project.