Plant Gas Exchange and Photosynthesis in a Changing Environment
A special issue of International Journal of Molecular Sciences (ISSN 1422-0067). This special issue belongs to the section "Molecular Plant Sciences".
Deadline for manuscript submissions: closed (31 December 2020) | Viewed by 24888
Special Issue Editors
Interests: environmental physiology; photosynthesis; biogenic volatile organic compounds; plant growth; carbon allocation
Special Issues, Collections and Topics in MDPI journals
Interests: phenotypic plasticity; nitrogen use efficiency; water use efficiency; acclimation; plant cell biology, plant physiology, abiotic stress, biotic stress, stress response, chlorophyll fluorescence, phylogeny, adaptation, ultrastructure, chloroplast, respiration, gas-exchange, plant- environment interactions
Interests: stomatal control; stomatal evolution; photosynthesis; elevated [CO2]; drought
Special Issues, Collections and Topics in MDPI journals
Special Issue Information
Dear Colleagues,
Environmental change poses serious challenges to the sustainability of natural ecosystems and agricultural crop production. Rising average global temperatures, more frequent heat waves, longer drought events, increasing atmospheric [CO2], rising levels of tropospheric ozone, temporal/spatial shifts in precipitation, and salinity will directly affect plant photosynthesis. Population growth accompanied by reductions in the availability of fresh water and land for agricultural production (due to land degradation, increased urbanisation, and/or the expansion of non-food crops) necessitate enhanced crop and water productivity. The increases in the yield of staple crops achieved through traditional breeding programs have been underpinned by enhanced leaf level photosynthesis and stomatal conductance. However, scarcity of water poses a particular constraint to crop production as droughts become more severe and the availability of fresh water for irrigation declines. This interaction of water deficit, rising [CO2], higher temperatures, and other abiotic stresses on photosynthetic carbon gain (biochemical and diffusive limitations), plant water relations, stomatal control, protective physiological mechanisms (antioxidants, energy dissipation), and the emission of volatile organic compounds will determine the sustainability of future agricultural productivity and the viability of natural ecosystems. The development of precision irrigation and agriculture monitoring systems to utilise water availability more effectively, maximise productivity, and conduct field-based phenotyping require in-depth knowledge of the physiological processes regulating photosynthetic CO2 uptake and water loss. Gas exchange analysis provides valuable information concerning plant–environment interactions and plant physiological status. This information is central to phenotyping programs and understanding the responses of natural vegetation to climate change.
This Special Issue will focus on the impact of changing environments on C3 and C4 photosynthetic physiologies, plant–water relations, leaf gas exchange, chlorophyll fluorescence, secondary metabolism, and genetics towards developing more resilient and productive agriculture and elucidating the responses of natural vegetation to shifts in their environment.
Dr. Mauro Centritto
Dr. Tiina Tosens
Dr. Matthew Haworth
Guest Editors
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Keywords
- photosynthesis regulation
- stomatal conductance
- mesophyll conductance
- chlorophyll fluorescence
- secondary metabolism
- plant–water relations
- biotic and abiotic stress
- anatomical and morphological characterization
- climate change
- WUE
- physiological, molecular, biochemical, and genetic advances in photosynthesis
- phenotypic/genotypic response
- phenotyping
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