ثير عوامل بيئية مختارة على النمو والاستجابات الكيموحيوية لشتلات الفول الجيزية (Vicia faba L.)
The climate is changing, warming and drying, and how plants will fare under such deteriorating climate is presently a prime
question in plant ecology research. Giza faba bean (Viacia faba L.) is one essential crop of the world, and reductions in its
biomass and yield are expected in response to global climate change, particularly in stressful habitats. A greenhouse study
was conducted from March to April 2022 to examine the impacts of the main components of climate change. temperature,
elevated CO2, and water stress on the growth and biochemical responses of Giza faba bean seedlings. Seedlings were grown
under two temperature regimes (22/18?C and 28/24?C), 12/12h light/dark photoperiod, two CO2 concentrations (400 and 800
?mol mol-1
), and two watering regimes (well-watered and water stressed). Twelve-day-old seedlings were assigned in
random to experimental conditions where they were grown for 14 days. Upon harvest, growth and biochemical parameters
were measured. Overall, higher temperatures and water stress, individually, decreased growth parameters, leaf moisture
content, dry and fresh matter of all plant parts, leaf mass area, nitrogen balance index and anthocyanin, but increased
electrolyte leakage, chlorophyll measured by Dualex, flavonoid content, and Chl a, carotenoids, total chlorophyll, and
Chla/b ratio. Moreover, higher temperatures increased proline content and water stress increased malondialdehyde (MDA)
content. Elevated CO2 increased growth parameters, leaf moisture content, fresh matter of stems and leaves and dry matter of
all plant parts, leaf area ratio, flavonoid content, but decreased MDA and electrolyte leakage. Interactions among the three
components of climate change primarily affected leaf number, moisture content, root dry mass, MDA and flavonoid
contents. Elevated CO2 alleviated the negative impacts of temperature and water stress on Giza faba bean seedlings through
decreasing oxidative stress and increasing plant water status. Our study showed that Giza faba bean has the potential to
decrease negative impacts of the main components of climate change in the future.