Calcium carbide and gibberellic acid co-application enhances drought resilience in papaya (Carica papaya L.) by modulating photosynthetic efficiency and stress markers
Ili Nasleffa Rozman, Tinessha Paramasivam, Mohd Norsazwan Ghazali, Nur Indah Abdul Shukor, Khairul Azree Rosli, Md Aiman Takrim Zakaria

TL;DR
Combining calcium carbide and gibberellic acid improves papaya's drought resistance by boosting photosynthesis and reducing stress.
Contribution
The novel synergistic use of calcium carbide and gibberellic acid for drought resilience in papaya is explored.
Findings
Co-application preserved photosynthesis under drought, achieving 27.48 µmol CO2 m−2 s−1 compared to 7.78 µmol CO2 m−2 s−1 in controls.
Combined treatment maintained 78% optimal biomass and reduced nonstomatal limitations to below 1000.
Chlorophyll a and photosynthesis increased by 75% and 54%, respectively, even under well-watered conditions.
Abstract
Papaya (Carica papaya L.), a critical tropical export crop generating 14 million tons yearly, shows extreme drought vulnerability due to shallow roots, high transpiration rate, and 85% tissue water content, exceeding other tropical fruits’ sensitivity. While individual calcium carbide (CaC2) and gibberellic acid (GA3) application show promise, their synergistic potential remains unexplored. We hypothesized that the dual Ca2+/acetylene release by CaC2 interact with the growth pathways of GA3 to create novel drought tolerance mechanisms. Papaya seedlings were subjected to three water levels (100%, 75%, 50% field capacity) with four biweekly treatments over 12 weeks: control (water only), CaC2 (0.31 g plant− 1 surface-broadcast), GA3 (100 mg L− 1, 50 mL plant− 1 soil-drench), and CaC2 + GA3 combination. Co-application preserved photosynthesis under severe drought (27.48 vs. 7.78 µmol CO2…
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Taxonomy
TopicsPlant Stress Responses and Tolerance · Plant responses to water stress · Plant Molecular Biology Research
