Effect of elevated CO₂ concentration on groundnut (Arachis hypogaea) (C₃) and pearl millet (Pennisetum glaucum) (C₄) crop plants and some implications on growth and photosynthetic activity.

摘要

Groundnut (Arachis hypogaea L.) (C₃) and pearl millet (Pennisetum glaucum L.R. Br. emend Stuntz) (C₄) crop plant species were grown in open top chambers (OTC) to find out performance at ambient CO₂ (380 ppm) and elevated CO₂ (550+or-700 ppm) atmospheric CO₂ conditions. Compared with an elevated CO₂ atmosphere at ambient leaf water content increased in C₄ plants. But was the same or less for the C₃ plants. Groundnut (C₃) leaf mass per unit area was less for C₄ plants and greater for a C₃ species. At elevated study photosynthesis gas exchange (pn) values were the same for C₄ plants and were greater for C₃ plants. While stomatal conductances were reduced in all comparison compared to plants at ambient and elevated CO₂ levels. Short term photosynthetic value taken immediately after swiching treatments were not significantly different from long term values for the same treatments. In all tested species gas conduct values were lowered when measured directly after being transferred to the other treatments. Continual gas exchange measurements for up to 90 minutes after a transfer from long term elevated CO₂ enrichment to ambient and back indicated that the short term Pn value for C₄ species. The chlorophyll a and b accumulation were also higher in the leaves of both C₃ and C₄ crop plants to increased elevated CO₂. As pointed out above in the switching experiments had not equilibrated to change in the treatment. Whereas C₄ plants had photosynthetic activity at elevated CO₂ continued at a rapid pace throughout the day for the C₃ plants. That for the same as at ambient levels. The decrease in Pn at elevated CO₂ suggested non-stomatal control in the C₃ plants.