Dryland ecosystems provide a unique opportunity to study the effects of water limitation on ecosystem activity. The sensitivity of these systems to small inputs of moisture is well-documented, but the expression of water limitation in terms of carbon dioxide flux between the ecosystem and atmosphere remains unclear. Applying a simple conceptual approach to soil moisture dynamics, patterns in carbon flux become clear. Release of carbon dioxide via respiration is primarily driven by moisture in the shallow soil, and differences in respiration rates among plant functional types are only evident after controlling for soil moisture. Alternatively, carbon uptake by a semiarid shrubs ecosystem is largely driven by the availability of deep soil moi...
Dryland ecosystems play a fundamental role in controlling the balance of carbon on a global scale. T...
Water availability profoundly and simultaneously affects the water cycle and disturbs terrestrial ca...
Dryland ecosystems play a fundamental role in controlling the balance of carbon on a global scale. T...
Warming and rainfall intensification linked to climate change will alter water availability in dryla...
International audienceYear-to-year changes in carbon uptake by terrestrial ecosystems have an essent...
Rain pulses followed by interstorm drying periods are the fundamental units of water input into ecos...
Soil CO2 efflux (F-soil) is a major component of the ecosystem carbon balance. Globally expansive se...
Carbon dioxide, a greenhouse gas, traps heat in the atmosphere, causing the planet to warm. The rate...
The reservoir of soil water is exchanged with the atmosphere through evaporative processes, which ar...
Thesis: S.B., Massachusetts Institute of Technology, Department of Civil and Environmental Engineeri...
Carbon fluxes between natural ecosystems and the atmosphere have received increased attention in rec...
We develop a simple, generic global model of carbon cycling by terrestrial vegetation driven by clim...
Variability in the magnitude and timing of precipitation is predicted to change under future climate...
Local soil water-vegetation feedbacks play an essential role in vegetation pattern formation in dryl...
As changes in precipitation dynamics continue to alter the water availability in dryland ecosystems,...
Dryland ecosystems play a fundamental role in controlling the balance of carbon on a global scale. T...
Water availability profoundly and simultaneously affects the water cycle and disturbs terrestrial ca...
Dryland ecosystems play a fundamental role in controlling the balance of carbon on a global scale. T...
Warming and rainfall intensification linked to climate change will alter water availability in dryla...
International audienceYear-to-year changes in carbon uptake by terrestrial ecosystems have an essent...
Rain pulses followed by interstorm drying periods are the fundamental units of water input into ecos...
Soil CO2 efflux (F-soil) is a major component of the ecosystem carbon balance. Globally expansive se...
Carbon dioxide, a greenhouse gas, traps heat in the atmosphere, causing the planet to warm. The rate...
The reservoir of soil water is exchanged with the atmosphere through evaporative processes, which ar...
Thesis: S.B., Massachusetts Institute of Technology, Department of Civil and Environmental Engineeri...
Carbon fluxes between natural ecosystems and the atmosphere have received increased attention in rec...
We develop a simple, generic global model of carbon cycling by terrestrial vegetation driven by clim...
Variability in the magnitude and timing of precipitation is predicted to change under future climate...
Local soil water-vegetation feedbacks play an essential role in vegetation pattern formation in dryl...
As changes in precipitation dynamics continue to alter the water availability in dryland ecosystems,...
Dryland ecosystems play a fundamental role in controlling the balance of carbon on a global scale. T...
Water availability profoundly and simultaneously affects the water cycle and disturbs terrestrial ca...
Dryland ecosystems play a fundamental role in controlling the balance of carbon on a global scale. T...