Search Results - "Charlet, T. N."

Greater ecosystem carbon in the Mojave Desert after ten years exposure to elevated CO2 by Evans, R. D., Koyama, A., Sonderegger, D. L., Charlet, T. N., Newingham, B. A., Fenstermaker, L. F., Harlow, B., Jin, V. L., Ogle, K., Smith, S. D., Nowak, R. S.

“…The response of terrestrial ecosystems to climate change remains a large source of uncertainty in the global carbon budget. Now results from a ten-year…”
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Enhanced Monsoon Precipitation and Nitrogen Deposition Affect Leaf Traits and Photosynthesis Differently in Spring and Summer in the Desert Shrub Larrea tridentata by Barker, D. H., Vanier, C., Naumburg, E., Charlet, T. N., Nielsen, K. M., Newingham, B. A., Smith, S. D.

“…$\bullet$ Leaf-level CO2 assimilation (Aarea) can largely be predicted from stomatal conductance (gs), leaf morphology (SLA) and nitrogen (N) content (Narea)…”
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Elevated CO2 increases productivity and invasive species success in an arid ecosystem by SMITH, Stanley D, HUXMAN, Travis E, ZITZER, Stephen F, CHARLET, Therese N, HOUSMAN, David C, COLEMAN, James S, FENSTERMAKER, Lynn K, SEEMANN, Jeffrey R, NOWAK, Robert S

“…Arid ecosystems, which occupy about 20% of the earth's terrestrial surface area, have been predicted to be one of the most responsive ecosystem types to…”
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Foliar nutrient resorption in two Mojave Desert shrubs exposed to Free-Air CO2 Enrichment (FACE) by Housman, D.C., Killingbeck, K.T., Dave Evans, R., Charlet, T.N., Smith, S.D.

“…Foliar nutrient resorption enables plants to sequester resources that might otherwise become unavailable. Future atmospheric CO2 concentrations may increase…”
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Effects of enhanced summer monsoons, nitrogen deposition and soil disturbance on Larrea tridentata productivity and subsequent herbivory in the Mojave Desert by Newingham, B.A., Vanier, C.H., Charlet, T.N., Smith, S.D.

“…Important global change factors in the Mojave Desert include altered precipitation, nitrogen deposition and soil disturbance. We examined the effects of…”
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Increases in Desert Shrub Productivity under Elevated Carbon Dioxide Vary with Water Availability by Housman, David C., Naumburg, Elke, Huxman, Travis E., Charlet, Therese N., Nowak, Robert S., Smith, Stanley D.

“…Productivity of aridland plants is predicted to increase substantially with rising atmospheric carbon dioxide (CO₂) concentrations due to enhancement in plant…”
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Elevated atmospheric CO2 does not conserve soil water in the Mojave Desert by Nowak, R.S, Zitzer, S.F, Babcock, D, Smith-Longozo, V, Charlet, T.N, Coleman, J.S, Seemann, J.R, Smith, S.D

“…Numerous studies, including those of desert plants, have shown reduced stomatal conductance under elevated atmospheric CO2. As a consequence, soil water has…”
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The Effects of Parental CO2 and Offspring Nutrient Environment on Initial Growth and Photosynthesis in an Annual Grass by Huxman, T. E., Charlet, T. N., Grant, C., Smith, S. D.

“…Seeds of Bromus madritensis ssp. rubens (red brome, an exotic annual grass in the Mojave Desert), from parents grown at three CO2 levels (360, 550, and 700…”
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Effects of enhanced summer monsoons, nitrogen deposition and soil disturbance on Larrea tridenrata productivity and subsequent herbivory in the Mojave Desert by NEWINGHAM, B. A, VANIER, C. H, CHARLET, T. N, SMITH, S. D

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Greater ecosystem carbon in the Mojave Desert after ten years exposure to elevated CO sub(2) by Evans, R D, Koyama, A, Sonderegger, D L, Charlet, T N, Newingham, BA, Fenstermaker, L F, Harlow, B, Jin, V L, Ogle, K, Smith, S D, Nowak, R S

“…Carbon dioxide is the main greenhouse gas inducing climate change. Increased global CO sub(2) emissions, estimated at 8.4 Pg C yr super(-1) at present, have…”
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Elevated Atmospheric CO sub(2) Does Not Conserve Soil Water in the Mojave Desert by Nowak, R S, Zitzer, S F, Babcock, D, Smith-Longozo, V, Charlet, T N, Coleman, J S, Seemann, J R, Smith, S D

“…Numerous studies, including those of desert plants, have shown reduced stomatal conductance under elevated atmospheric CO sub(2). As a consequence, soil water…”
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Photosynthetic responses of Mojave Desert shrubs to free air CO2 enrichment are greatest during wet years by Naumburg, Elke, Housman, David C., Huxman, Travis E., Charlet, Therese N., Loik, Michael E., Smith, Stanley D.

“…It has been suggested that desert vegetation will show the strongest response to rising atmospheric carbon dioxide due to strong water limitations in these…”
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Photosynthetic Responses of Mojave Desert Shrubs to Free Air CO sub(2) Enrichment Are Greatest During Wet Years by Naumburg, Elke, Housman, David C, Huxman, Travis E, Charlet, Therese N, Loik, Michael E, Smith, Stanley D

“…At the Nevada Desert Free Air Carbon Dioxide Enrichment facility, seasonal gas-exchange data of Mojave Desert shrubs were collected over 4 yr. Carbon dioxide…”
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The Effects of Parental CO 2 and Offspring Nutrient Environment on Initial Growth and Photosynthesis in an Annual Grass by Huxman, T. E., Charlet, T. N., Grant, C., Smith, S. D.

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The Effects of Parental CO2and Offspring Nutrient Environment on Initial Growth and Photosynthesis in an Annual Grass by Huxman, T. E., Charlet, T. N., Grant, C., Smith, S. D.

“…Seeds ofBromus madritensisssp.rubens(red brome, an exotic annual grass in the Mojave Desert), from parents grown at three CO2levels (360, 550, and 700 μmol…”
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Elevated CO sub(2) Increases Productivity and Invasive Species Success in an Arid Ecosystem by Smith, Stanley D, Huxman, Travis E, Zitzer, Stephen F, Charlet, Therese N, Housman, David C, Coleman, James S, Fenstermaker, Lynn K

“…Experts believe that arid ecosystems will be the most responsive to increased atmospheric levels of carbon dioxide and related climate change. Researchers…”
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Effects of elevated CO2 (FACE) on the functional ecology of the drought-deciduous Mojave Desert shrub, Lycium andersonii by HAMERLYNCK, Erik P, HUXMAN, Travis E, CHARLET, Therese N, SMITH, Stanley D

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