Journal Of Applied Biology And Biotechnology
Open Access
SCOPUSWeb of Science
  • Year: 2025
  • Volume: 13
  • Issue: 1

Azolla pinnata redefines its importance in rice fields as it alleviates aluminum toxicity and low pH stress

  • Author:
  • Karishma Agarwal, Ganesan Markkandan*
  • Total Page Count: 11
  • Published Online: Jan 3, 2026
  • Page Number: 93 to 103

Department of Life Sciences, Presidency University, Kolkata, West Bengal, India

*Corresponding Author: Ganesan Markkandan, Department of Life Sciences, Presidency University, Kolkata, West Bengal, India, E-mail: markganesh@gmail.com

Online published on 3 January, 2026.

Abstract

Monoculture of rice seedlings or Azolla pinnata was challenged with different aluminum stress conditions, and both species showed significantly reduced total biomass, chlorophyll, root, and leaf length. Mixed cultures showed no stress phenotypes and notably enhanced growth parameters under low and moderate aluminum stress (10 and 30 μM). Discretely, Azolla plants failed to survive when grown at >30 μM aluminum treatment (pH 4.75) but sustained well when grown with rice plants. Importantly, both species accumulated less aluminum and more root exudates in mixed cultures of Azolla and rice plants. Furthermore, expression of Sensitive To Proton rhizotoxicity1 (ApSTOP1 and OsART1) in both species declined significantly in mixed cultures than in monocultures. Ammonium transporter 1 (ApAMT1 and OsAMT1.1) expressed significantly more in heterogeneous cultures, indicating that ammonium transport is unaffected. Our observations conclude that aluminum accumulation and stress effects significantly decreased in heterogeneous cultures when compared with homogenous cultures.

Keywords

Aluminum, Ammonium Transporter, Azolla, Organic Acid, Rhizotoxicity, Rice