Photosynthetic Capacity and Crop Productivity: Exploring Their Mechanistic and Empirical Links for Crop Improvement
A special issue of Agronomy (ISSN 2073-4395). This special issue belongs to the section "Farming Sustainability".
Deadline for manuscript submissions: closed (5 October 2021) | Viewed by 443
Special Issue Editors
Interests: photosynthesis; stress tolerance; metabolism; water use efficiency; productivity
Special Issues, Collections and Topics in MDPI journals
Interests: plant physiology; ecophysiology; photosynthesis; mesophyll conductance; water relations; pressure-volume; desiccation tolerance; leaf anatomy
Special Issue Information
Dear Colleagues,
In recent years, there has been an increasing amount of literature focusing on the bioengineering and/or selection for higher photosynthetic capacity to increase both yield and water-use efficiency in crops. This approach is envisaged as a means to cope with future conditions in the context of global change, as well as with the necessity to feed a growing world population without jeopardizing natural ecosystems.
However, clear empirical and, even more important, mechanistic evidence that establishes a link between CO2 assimilation, transpiration and overall crop productivity is still lacking. This problem partially arises from the emphasis that has been put on maximizing photosynthetic capacity under optimum conditions rather than searching for an improvement in the integrated carbon gain over a given period (daily, growing season, etc.). Hence, enhancing photosynthesis performance under dynamic environmental conditions might lead to increase in yield, and thus, become essential to designing new crop breeding strategies.
This Special Issue aims to cover the gap between photosynthetic capacity and crop yield, including both modeling and experimental approaches, with a special focus on studies exploring photosynthesis, carbon gain and water-use efficiency improvement at different levels (from leaf and canopy to whole plant), with the ultimate goal to better integrate carbon and water dynamics into crop breeding programs.
Dr. Xurxo Gago
Dr. Miquel Nadal
Guest Editors
Manuscript Submission Information
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Keywords
- Photosynthesis
- Carbon partition
- Stomatal conductance
- Mesophyll conductance
- Photobiochemistry
- Gas exchange measurements
- Water-use efficiency
- Yield
- Crop breeding
