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Publications by David F. Karnosky

Respiratory Oxygen Uptake Is Not Decreased by an Instantaneous Elevation of [CO2], but Is Increased With Long-Term Growth in the Field at Elevated [CO2]

Plant Physiology

English

Impacts of Elevated Atmospheric CO2and O3on Paper Birch (Betula Papyrifera): Reproductive Fitness

The Scientific World Journal

Environmental Science

2007

English

Related publications

Acclimation of Respiratory O2 Uptake in Green Tissues of Field-Grown Native Species After Long-Term Exposure to Elevated Atmospheric CO2

English

When Oxygen Is Not Enough: Why Is Fetal Growth Decreased at High Altitude?

2009

English

Growth and Nitrogen Uptake in an Experimental Community of Annuals Exposed to Elevated Atmospheric CO2

Global Change Biology

Planetary Change

Environmental Chemistry

Global

Ecology

Environmental Science

1998

English

Decreased Leaf-Miner Abundance in Elevated Co2: Reduced Leaf Quality and Increased Parasitoid Attack

Ecological Applications

Ecology

1999

English

Direct Inhibition of Leaf Dark Respiration by Elevated CO2 Is Minor in 12 Grassland Species

English

NPR1-dependent Salicylic Acid Signaling Is Not Involved in Elevated CO2-induced Heat Stress Tolerance inArabidopsis Thaliana

Plant Signaling & Behavior

2015

English

Impacts of Long-Term Elevated Atmospheric CO2 Concentrations on Communities of Arbuscular Mycorrhizal Fungi

English

Elevated Atmospheric CO2 Triggers Compensatory Feeding by Root Herbivores on a C3 but Not a C4 Grass

PLoS ONE

Multidisciplinary

2014

English

The Phagocytosis-Associated Respiratory Burst in Human Monocytes Is Associated With Increased Uptake of Glutathione

Journal of Immunology

Allergy

Immunology

2000

English

Amanote Research

Discover open access scientific publications

Search, annotate, share and cite publications

Publications by David F. Karnosky

Respiratory Oxygen Uptake Is Not Decreased by an Instantaneous Elevation of [CO2], but Is Increased With Long-Term Growth in the Field at Elevated [CO2]

Impacts of Elevated Atmospheric CO2and O3on Paper Birch (Betula Papyrifera): Reproductive Fitness

Related publications

Acclimation of Respiratory O2 Uptake in Green Tissues of Field-Grown Native Species After Long-Term Exposure to Elevated Atmospheric CO2

When Oxygen Is Not Enough: Why Is Fetal Growth Decreased at High Altitude?

Growth and Nitrogen Uptake in an Experimental Community of Annuals Exposed to Elevated Atmospheric CO2

Decreased Leaf-Miner Abundance in Elevated Co2: Reduced Leaf Quality and Increased Parasitoid Attack

Direct Inhibition of Leaf Dark Respiration by Elevated CO2 Is Minor in 12 Grassland Species

NPR1-dependent Salicylic Acid Signaling Is Not Involved in Elevated CO2-induced Heat Stress Tolerance inArabidopsis Thaliana

Impacts of Long-Term Elevated Atmospheric CO2 Concentrations on Communities of Arbuscular Mycorrhizal Fungi

Elevated Atmospheric CO2 Triggers Compensatory Feeding by Root Herbivores on a C3 but Not a C4 Grass

The Phagocytosis-Associated Respiratory Burst in Human Monocytes Is Associated With Increased Uptake of Glutathione