Identification of differential drought response mechanisms in medicago sativa subsp. Sativa and falcata through comparative assessments at the physiological, biochemical, and transcriptional levels

Stacy D. Singer, Udaya Subedi, Madeline Lehmann, Kimberley Burton Hughes, Biruk A. Feyissa, Abdelali Hannoufa, Bin Shan, Guanqun Chen, Kazi Kader, Rodrigo Ortega Polo, Timothy Schwinghamer, Gaganpreet Kaur Dhariwal, Surya Acharya

Research output: Contribution to journalArticlepeer-review

8 Scopus citations

Abstract

Alfalfa (Medicago sativa L.) is an extensively grown perennial forage legume, and although it is relatively drought tolerant, it consumes high amounts of water and depends upon irrigation in many regions. Given the progressive decline in water available for irrigation, as well as an escalation in climate change-related droughts, there is a critical need to develop alfalfa cultivars with improved drought resilience. M. sativa subsp. falcata is a close relative of the predominantly cultivated M. sativa subsp. sativa, and certain accessions have been demonstrated to exhibit superior performance under drought. As such, we endeavoured to carry out comparative physiological, biochemical, and transcriptomic evaluations of an as of yet unstudied drought-tolerant M. sativa subsp. falcata accession (PI 641381) and a relatively drought-susceptible M. sativa subsp. sativa cultivar (Beaver) to increase our understanding of the molecular mechanisms behind the enhanced ability of falcata to withstand water deficiency. Our findings indicate that unlike the small number of falcata genotypes assessed previously, falcata PI 641381 may exploit smaller, thicker leaves, as well as an increase in the baseline transcriptional levels of genes encoding particular transcription factors, protective proteins, and enzymes involved in the biosynthesis of stress-related compounds. These findings imply that different falcata accessions/genotypes may employ distinct drought response mechanisms, and the study provides a suite of candidate genes to facilitate the breeding of alfalfa with enhanced drought resilience in the future.

Original languageEnglish
Article number2107
JournalPlants
Volume10
Issue number10
DOIs
StatePublished - Oct 2021
Externally publishedYes

Funding

Funding: This research was funded by the Agriculture and Agri-Food Canada (AAFC) A-base program, project number J-001755. Funding was also provided through the Canadian Agricultural Partnership AgriScience Beef Cluster (AAFC and Beef Cattle Research Council).

Keywords

  • Alfalfa
  • Differential gene expression
  • Drought tolerance
  • Forage
  • Stress response

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