Add to ORKGArid ecosystems, which occupy about 20% of the earth\u27s terrestrial surface area, have been predicted to be one of the most responsive ecosystem types to elevated atmospheric CO2 and associated global climate change. Here we show, using free-air CO2 enrichment (FACE) technology in an intact Mojave Desert ecosystem4, that new shoot production of a dominant perennial shrub is doubled by a 50% increase in atmospheric CO2 concentration in a high rainfall year. However, elevated CO 2 does not enhance production in a drought year. We also found that above-ground production and seed rain of an invasive annual grass increases more at elevated CO2 than in several species of native annuals. Consequently, elevated CO2 might enhance the long-term suc...
Plant responses to elevated atmospheric CO2 have been characterized generally by stomatal closure an...
Plant responses to elevated atmospheric CO2 have been characterized generally by stomatal closure an...
It has been suggested that desert vegetation will show the strongest response to rising atmospheric ...
Arid ecosystems, which occupy about 20% of the earth\u27s terrestrial surface area, have been predic...
Productivity of aridland plants is predicted to increase substantially with rising atmospheric carbo...
Arid ecosystems, which occupy about 35% of the Earth\u27s terrestrial surface area, are believed to ...
To examine how global change could influence species invasions, we compared the responses of energet...
Productivity of aridland plants is predicted to in-crease substantially with rising atmospheric carb...
Increases in atmospheric CO{sub 2} concentration during the last 250 years are unequivocal, and CO{s...
Seedling recruitment is an important determinant of community structure in desert ecosystems. Positi...
Seasonal and interannual droughts characteristic of deserts have the potential to modify plant inter...
Arid and semiarid climates comprise roughly 40% of the earth\u27s terrestrial surface. Deserts are p...
Of all terrestrial ecosystems, the productivity of deserts has been suggested to be the most respons...
Elevated CO2 may improve the productivity of cool-season active (‘drought-deciduous’) shrubs in the ...
Annual and short-lived perennial plant performance during wet years is important for long-term persi...
Plant responses to elevated atmospheric CO2 have been characterized generally by stomatal closure an...
Plant responses to elevated atmospheric CO2 have been characterized generally by stomatal closure an...
It has been suggested that desert vegetation will show the strongest response to rising atmospheric ...
Arid ecosystems, which occupy about 20% of the earth\u27s terrestrial surface area, have been predic...
Productivity of aridland plants is predicted to increase substantially with rising atmospheric carbo...
Arid ecosystems, which occupy about 35% of the Earth\u27s terrestrial surface area, are believed to ...
To examine how global change could influence species invasions, we compared the responses of energet...
Productivity of aridland plants is predicted to in-crease substantially with rising atmospheric carb...
Increases in atmospheric CO{sub 2} concentration during the last 250 years are unequivocal, and CO{s...
Seedling recruitment is an important determinant of community structure in desert ecosystems. Positi...
Seasonal and interannual droughts characteristic of deserts have the potential to modify plant inter...
Arid and semiarid climates comprise roughly 40% of the earth\u27s terrestrial surface. Deserts are p...
Of all terrestrial ecosystems, the productivity of deserts has been suggested to be the most respons...
Elevated CO2 may improve the productivity of cool-season active (‘drought-deciduous’) shrubs in the ...
Annual and short-lived perennial plant performance during wet years is important for long-term persi...
Plant responses to elevated atmospheric CO2 have been characterized generally by stomatal closure an...
Plant responses to elevated atmospheric CO2 have been characterized generally by stomatal closure an...
It has been suggested that desert vegetation will show the strongest response to rising atmospheric ...