Vol. 4 No. 2 (2017): Vol 4, Iss 2, Year 2017 (Dr.S.Paulsamy Commemoration Issue)
Articles

RESILIENCE OF FERNS: WITH REFERENCE TO DESICCATION AND REHYDRATION STRESS OFFER NEW INSIGHTS

Kavitha C.H
Plant Biochemistry and Molecular Biology Laboratory,University College, Trivandrum, 695 034, Kerala, India
Meenu Krishnan
Department of Botany, University College, Trivandrum, 695 034, Kerala, India.
Murugan K
Department of Botany, University College, Trivandrum, 695 034, Kerala, India.
Published December 30, 2017
Keywords
  • Ferns, desiccation, rehydration stress, osmolytes, vasculature, polyphenols.
How to Cite
C.H, K., Krishnan, M., & K, M. (2017). RESILIENCE OF FERNS: WITH REFERENCE TO DESICCATION AND REHYDRATION STRESS OFFER NEW INSIGHTS. Kongunadu Research Journal, 4(2), 89-94. https://doi.org/10.26524/krj209

Abstract

Ferns are one of the oldest vascular plants in existence and they are the second most diverse group of vascular plants followed to angiosperms. To unravel fern success has focused on the eco-physiological power and stress tolerance of their sporophyte and the gametophyte generations. In this context, those insights
encompass plant water relations, as well as the tolerance to and recovery from drought or desiccation stresses in the fern life cycle are reviewed. Lack of secondary xylem in ferns is compensated by selection for efficient primary xylem composed of large, closely arranged tracheids with permeable pit membranes.
Protection from drought-induced hydraulic failure appears to arise from a combination of pit membrane traits and the arrangement of vascular bundles. Features such as tracheid-based xylem and variously sized megaphylls are shared between ferns and more derived lineages, and offer an opportunity to compare convergent and divergent hydraulic strategies critical to the success of xylem-bearing plants. Similarly the synthesis and accumulation of sugar, proline and stress proteins along with the production of pool of polyphenols add strength to desiccation stress. Thus, it can possible to suggest that selection acted on the physiology in a synchronous manner that is consistent with selection for drought tolerance in the epiphytic niche, and the increasingly diverse habitats of the mid to late Cenozoic.

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