An ecosystem-wide molecular-level understanding of source-sink interactions is vital for trapping atmospheric carbon and increasing plant productivity. Now, plant scientists, climatologists, and atmospheric chemists are joining forces to create just that. Read more at Pacific Northwest National Laboratory…
Outlets
- APS Physics (227)
- Berkeley Lab (33)
- Cleantech Concepts (5)
- Encyclopedia of Puget Sound (1)
- Eos (1)
- Europa Science (14)
- IEEE Spectrum (12)
- MRS Bulletin (19)
- Nature (1)
- New Scientist (1)
- Old News (7)
- Pacific Northwest National Lab (8)
- Physics Today (154)
- Physics World (2)
- Science Magazine (14)
- Science News (4)
- Scientific American (30)
- SPIE News (4)
- SPIE Professional (3)
- Tech & Content Writing (5)
- The Scientist (4)
- Travel Writing (4)
- Uncategorized (7)
Topics
- Acoustics
- APS Physics
- Astronomy
- Astrophysics
- Atmospheric Sciences
- Atomic and Molecular Physics
- Batteries
- Berkeley Lab
- Biochemistry
- biology
- Biophysics
- Chemistry
- Climate Change
- Condensed Matter Physics
- Conferences
- Down to Earth
- Earth Sciences
- Ecology
- Electronics
- Energy
- Environment
- Europa Science
- Fluid Dynamics
- Geology
- Geophysics
- IEEE Spectrum
- Lasers
- Magnetism
- Materials Sciences
- Medical
- Metamaterials
- Meteorology
- MRS Bulletin
- Nanoscience
- Nuclear Physics
- Oceanography
- Optics
- Photonics
- Physics
- Physics Today
- Plasma physics
- Policy
- Quantum Mechanics
- Quantum Physics
- Scientific American
- Seismology
- Semiconductors
- Soft matter
- Spectroscopy
- Volcanology
Rachel Berkowitz 