Wild Plants in the Qatari Peninsula are Hidden Gene Bank for Future Research: Perspectives of Desirable Traits| Chapter 6 | Cutting Edge Research in Biology Vol. 8

 Wild plants and the joined microorganisms at the Qatari deserts and Sabkhas have many seductive traits for improvement of plant fighting and cope at miscellaneous environmental stresses containing salinity, drought, extreme temperatures, and pollution. Most of native plants are acknowledged and grouped under three main facets: (1) water, (2) solutes, and (3) structures. Plants power have different skills to absorb and store water, and to build and accumulate natural and inorganic solutes, in addition to developing makeups to regulate these parts. Understanding the mechanisms of plant resistance to differing harsh material conditions are of excellent importance in deciding the traits these plants have, which maybe considered as exploratory materials for further new and contemporary studies to develop crop plants accompanying desirable characteristics and well adapted to those environments. Native plants and their associated microorganisms at the Sabkhas and returns are well equipped with miscellaneous traits to handle these harsh atmospheres; these are the hidden deoxyribonucleic acid banks for modern and contemporary future research. Native plants at the marshy line or in the desert of the Qatari peninsula can prevent drought and salinity either by hoarding water or efficiently riveting it, succulent plants, for example, keep have water cells in miscellaneous plant organs to award such means. Water spender plants, on the other hand, can prevent drought by bearing extensive ancestries or intensive stringy root system to increase the active root surface district. Salt regulation and basic solute accumulation in these plants is another important area of research to exploit and improve few traits in crop plants. Organic solutes ability play significant act to protect the sheet and machinery systems from harsh stresses. However, developing transgenic plants by seasoning regulation ability not feasible for crop plants, while the potential of growth of proline and/or glycine betaine in many native plants in Qatar could be a possible characteristic to be used to develop plants that are well suitable under dry and/or saline atmospheres. The microorganisms associated with the native plants might play meaningful roles to present traits and award these plants with many physiognomy against those harsh environmental stresses. Morphological and fundamental features of stormy plants might be a good beginning of traits to be secondhand in the modern deoxyribonucleic acid technology. Some traits of cell divider, cuticle thickness and possibly the synthetic composition of red body fluid membranes should be deliberate.

Author(s) Details:

B. T. Yasseen,
Environmental Studies Centre, Qatar University, Doha, Qatar and 8 James Court, Dunstable Road, Luton, LU4 0HN, UK.

R. F. Al-Thani,
Department of Biological and Environmental Sciences, College of Arts & Sciences, Qatar University, Doha, Qatar.

Please see the link here: https://stm.bookpi.org/CERB-V8/article/view/10928