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Publications by David M. Barnard

Earlier Snowmelt Reduces Atmospheric Carbon Uptake in Midlatitude Subalpine Forests

Geophysical Research Letters

Planetary Sciences

English

Related publications

Early Snowmelt Projected to Cause Population Decline in a Subalpine Plant

Proceedings of the National Academy of Sciences of the United States of America

Multidisciplinary

English

Atmospheric N Deposition Causes Carbon Balance Gains in a Seven Year Field Experiment in Subalpine Grassland

English

Atmospheric CO<sub>2</sub> Observations and Models Suggest Strong Carbon Uptake by Forests in New Zealand

Atmospheric Chemistry and Physics

Atmospheric Science

English

Hydrologic Flowpath Development Varies by Aspect During Spring Snowmelt in Complex Subalpine Terrain

English

Hydrologic Flowpath Development Varies by Aspect During Spring Snowmelt in Complex Subalpine Terrain

English

Sinuosity of Midlatitude Atmospheric Flow in a Warming World

Geophysical Research Letters

Planetary Sciences

English

Beyond Burial: Lateral Exchange Is a Significant Atmospheric Carbon Sink in Mangrove Forests

Biology Letters

Biological Sciences

English

Nutrient Limitation Reduces Land Carbon Uptake in Simulations With a Model of Combined Carbon, Nitrogen and Phosphorus Cycling

Biogeosciences Discussions

Earth-Surface Processes

English

Highly Consistent Atmospheric Pressure Synthesis of Carbon Nanotube Forests by Mitigation of Moisture Transients

Journal of Physical Chemistry C

Theoretical Chemistry

Magnetic Materials

English