Journal of Entomological Research
SCOPUSWeb of Science
  • Year: 2020
  • Volume: 44
  • Issue: 1

Morphophysiological basis of plant defense mechanisms against insect pests

  • Author:
  • Shimantini Borkataki, S.P. Nanda1, M. Devender Reddy1, Ritu Ranjan Taye2
  • Total Page Count: 8
  • Page Number: 171 to 178

1MSSSoA, Centurion University of Technology & Management, PKD-761211

2Regional Agricultural Research Station, Karimganj-788 712, Assam, India

Department of Entomology, Assam Agricultural University, Jorhat-785 013, Assam, India

*Corresponding author's E-mail: shimantini.bk@gmail.com

Online published on 28 May, 2020.

Abstract

Plants have been interacting with insects for several hundred million years, leading to the development of an intricate and dynamic defense system against insect herbivores. This defense system is further categorized as direct and indirect defense responses based on their expression. Specific or direct defensive responses are mediated by various morphological, biochemical and molecular mechanisms to counteract the effects of herbivore attack while indirect defense is mediated by releasing volatile mixtures to attract natural enemies of plant eating insect herbivores. The structural defense includes both morphological and anatomical traits viz., thorns, spines etc., whereas biochemical mechanisms of defense against the herbivores are wide-ranging, highly dynamic and includes production of different secondary metabolites-terpenes, phenolics and N-containing compounds. The molecular defense mechanisms include intracellular wound signalling viz., systemin signalling and jasmonate regulation of defense responsive genes. The defensive compounds are developed either constitutively or in response to plant damage, affecting insect herbivores’ feeding, development, and survival. In addition, plants also release volatile organic compounds which attract the herbivores’ natural enemies. These strategies either act independently or in conjunction with each other.

Keywords

Defense mechanism, direct, indirect, insect herbivore, plant, strategies