Search Results - "JORDAN, Dean N"

Effect of Atmospheric CO2 Enrichment on Root Growth and Carbohydrate Allocation of Phaseolus spp by Salsman, Katrina J., Jordan, Dean N., Smith, Stanley D., Neuman, Dawn S.

“…A glasshouse experiment was conducted with plants of Phaseolus grown in liquid culture. Root growth parameters (biomass, diameter, length, growth rate, zone of…”
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Biotic, abiotic and performance aspects of the Nevada Desert Free-Air CO2 Enrichment (FACE) Facility by Jordan, DeaN. N., Zitzer, Stephen F., Hendrey, George R., Lewin, Keith F., Nagy, JohN, Nowak, Robert S., Smith, Stanley D., Coleman, James S., Seemann, Jeffrey R.

“…Summary Arid and semiarid climates comprise roughly 40% of the earth’s terrestrial surface. Deserts are predicted to be extremely responsive to global change…”
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The effects of parental CO 2 environment on seed quality and subsequent seedling performance in Bromusrubens by Huxman, Travis E, Hamerlynck, Erik P, Jordan, Dean N, Salsman, Katrina J, Smith, Stanley D

“…Seeds were collected and compared from parent plants of Bromusrubens L. (Poaceae), an exotic Mojave Desert annual grass, grown in ambient (360 μmol mol ) and…”
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Microclimate factors influencing the frequency and duration of growth season frost for subalpine plants by Jordan, Dean N., Smith, William K.

“…The subalpine environment of the Medicine Bow Mountains, Wyoming (USA) is characterized by frost events throughout the summer. As a result, growing season…”
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Radiation frost susceptibility and the association between sky exposure and leaf size by Jordan, D.N, Smith, W.K. (Wyoming Univ., Laramie (USA). Dept. of Botany)

“…Plants growing in exposed and sheltered habitats have characteristic leaf structure and physiology that are traditionally associated with the total amount of…”
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effects of parental CO2 environment on seed quality and subsequent seedling performance in Bromus rubens by Huxman, T.E, Hamerlynck, E.P, Jordan, D.N, Salsman, K.J, Smith, S.D

“…Seeds were collected and compared from parent plants of Bromus rubens L. (Poaceae), an exotic Mojave Desert annual grass, grown in ambient (360 μmol mol-1) and…”
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Leaf Conductance Decreased under Free-Air CO2 Enrichment (FACE) for Three Perennials in the Nevada Desert by Nowak, Robert S., DeFalco, Lesley A., Wilcox, Carolyn S., Jordan, Dean N., Coleman, James S., Seemann, Jeffrey R., Smith, Stanley D.

“…• A common response of plants to elevated atmospheric CO2 concentration ( CO2) is decreased leaf conductance. Consequently, leaf temperature is predicted to…”
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Leaf conductance decreased under free‐air CO 2 enrichment (FACE) for three perennials in the Nevada desert by Nowak, Robert S., DeFalco, Lesley A., Wilcox, Carolyn S., Jordan, Dean N., Coleman, James S., Seemann, Jeffrey R., Smith, Stanley D.

“…•  A common response of plants to elevated atmospheric CO 2 concentration (CO 2 ) is decreased leaf conductance. Consequently, leaf temperature is predicted to…”
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Leaf conductance decreased under free-air CO2 enrichment (FACE) for three perennials in the Nevada desert: Rising CO2 - future ecosystems by NOWAK, Robert S, DEFALCO, Lesley A, WILCOX, Carolyn S, JORDAN, Dean N, COLEMAN, James S, SEEMANN, Jeffrey R, SMITH, Stanley D

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Effect of Atmospheric CO 2 Enrichment on Root Growth and Carbohydrate Allocation of Phaseolus spp by Salsman, Katrina J., Jordan, Dean N., Smith, Stanley D., Neuman, Dawn S.

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Effect of Atmospheric CO2Enrichment on Root Growth and Carbohydrate Allocation ofPhaseolusspp by Salsman, Katrina J., Jordan, Dean N., Smith, Stanley D., Neuman, Dawn S.

“…A glasshouse experiment was conducted with plants ofPhaseolusgrown in liquid culture. Root growth parameters (biomass, diameter, length, growth rate, zone of…”
Get full text

Biotic, abiotic and performance aspects of the Nevada Desert Free‐Air CO 2 Enrichment (FACE) Facility by Jordan, DeaN. N., Zitzer, Stephen F., Hendrey, George R., Lewin, Keith F., Nagy, JohN, Nowak, Robert S., Smith, Stanley D., Coleman, James S., Seemann, Jeffrey R.

“…Arid and semiarid climates comprise roughly 40% of the earth’s terrestrial surface. Deserts are predicted to be extremely responsive to global change because…”
Get full text

Biotic, abiotic and performance aspects of the Nevada Desert Free-Air CO sub(2) Enrichment (FACE) Facility by Jordan, D N, Zitzer, S F, Hendrey, G R, Lewin, K F, Nagy, J, Nowak, R S, Smith, S D, Coleman, J S, Seemann, J R

“…Arid and semiarid climates comprise roughly 40% of the earth's terrestrial surface. Deserts are predicted to be extremely responsive to global change because…”
Get full text

The effects of parental CO2 environment on seed quality and subsequent seedling performance in Bromusrubens by Huxman, Travis E, Hamerlynck, Erik P, Jordan, Dean N, Salsman, Katrina J, Smith, Stanley D

“…Seeds were collected and compared from parent plants of Bromusrubens L. (Poaceae), an exotic Mojave Desert annual grass, grown in ambient (360 μmol mol-1) and…”
Get full text