Applying the dual-isotope conceptual model to interpret physiological trends under uncontrolled conditions
Journal Article
Overview
publication date
- October 1, 2012
has subject area
- Alkalies - Water
- Anions - Water
- Biochemical Phenomena - Photosynthesis
- Biochemical Phenomena - Photosynthesis
- Biomedical and Dental Materials - Cellulose
- Carbon Isotopes
- Ecological and Environmental Phenomena - Environment
- Ecological and Environmental Phenomena - Temperature
- Ecological and Environmental Phenomena - Temperature
- Elements - Nitrogen
- Environment and Public Health - Environment
- Environment and Public Health - Temperature
- Environment, Controlled - Temperature
- Gases - Nitrogen
- Macromolecular Substances - Cellulose
- Manufactured Materials - Cellulose
- Metabolic Networks and Pathways - Photosynthesis
- Metabolism - Photosynthesis
- Metabolism - Photosynthesis
- Models, Theoretical
- Northwestern United States - Oregon
- Oxygen Compounds - Water
- Oxygen Isotopes
- Pacific States - Oregon
- Photochemical Processes - Photosynthesis
- Plant Epidermis - Plant Stomata
- Plant Leaves
- Plant Leaves - Plant Stomata
- Plant Physiological Phenomena - Photosynthesis
- Plant Stems
- Plant Transpiration
- Polysaccharides - Cellulose
- Pseudotsuga
- Thermodynamics - Temperature
- Trees
- Xylem
Full Author List
- Barnard HR; Brooks JR; Bond BJ
published in
Other Profiles
Digital Object Identifier (DOI)
Additional Document Info
start page
- 1183
end page
- 1198
volume
- 32
issue
- 10