Abstract
Climate change and global warming are leading to a change in weather patterns toward hot and cold waves. Citrus fruits are a tropical or subtropical crop whose growth is altered by changes in weather patterns. Thus, in the present work, two experiments are evaluated to obtain a screening method to select citrus rootstocks that help us to select new low-temperature-tolerant plant materials. One cold experiment was carried out with the Poncirus trifoliata and Citrus macrophylla rootstocks at 4 °C for 4, 8, 24 and 56 h. A second experiment was performed at 4 °C for 5 days with subsequent acclimatization lasting 0, 5, 10 and 24 h. The expression of the cold response genes CAMTA1, CAMTA3, CAMTA5, CBF1, ICE1 and COR413 IM1 was quantified. The results showed that the best rootstock selection strategy was the second experiment, as a higher expression of the genes CAMTA3, CAMTA5, CBF1 and COR413 IM1 was seen in the tolerant genotype P. trifoliata. We quantified the gene expression of proline biosynthesis P5CS1, dOAT and the proline transporters PROT1 and PROT2; the concentration of the amino acid proline in leaves was also quantified. These results once again showed that the best experiment to differentiate between tolerant and sensitive rootstocks was the second experiment with acclimation time.
Highlights
José Rubio-CabetasCitrus is a tropical or subtropical crop that needs a certain climate to survive
CAMTA3 expression was higher after 56 h of exposure to low temperature in the Poncirus trifoliata (PON) seedlings; it was significantly (3 times) higher than in the MAC
We were interested in knowing the rapid response of citrus rootstocks to low temperature
Summary
José Rubio-CabetasCitrus is a tropical or subtropical crop that needs a certain climate to survive. Due to climate change and global warming, many cold and heat waves are taking place, which strongly impact citrus fruit given their subtropical cultivation condition. Low temperature is one of the main stresses that limits crop growth, productivity and distribution [1]. For this reason, it is very important to obtain new plant material that is able to face unfavorable situations, such as cold stress. To start the selection of a good rootstock against low temperatures, we must first find the best way to induce stress without causing fatal plant damage. To perform the best screening for plant material selection purposes, this article presents two possible ways of inducing cold tolerance
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