MITIGATION OF ADVERSE EFFECT OF DROUGHT ON TOMATO THROUGH EXOGENOUS APPLICATION OF POTASSIUM AND CHITOSAN
Date
2024-06
Authors
Journal Title
Journal ISSN
Volume Title
Publisher
HAJEE MOHAMMAD DANESH SCIENCE AND TECHNOLOGY UNIVERSITY, DINAJPUR-5200, BANGLADESH
Abstract
The present investigation was conducted to evaluate the effect of exogenous application
of potassium and chitosan on the improvement of drought tolerance in tomato at Hajee
Mohammad Danesh Science and Technology University, Dinajpur, Bangladesh during
the period from November, 2023 to March, 2024. The experiment was performed in
Completely Randomized Design (CRD) with three replications and two factors. The
factors included three growing conditions (well water, water deficit stress, foliar
application of 1% K (2.23% K2SO4) and foliar application of chitosan @ 50 ppm under
water deficit stress) and three tomato genotypes (Rajkumar, Bipul plus and BGL-757).
Interaction effect of growing conditions and tomato genotypes significantly influenced
the different phenological, morphological, physiological and biochemical traits as well as
yield components and yield of tomato. Drought tolerant genotype showed less membrane
injury and more proline content under water stress condition as compared to well water
condition. Maximum relative water content, water retention capacity, chlorophyll content
and SPAD value of leaf and canopy temperature depression were observed under well
water condition. Better values in morphological traits, yield components and fruit yield
and biochemical traits of tomato were also measured under well water condition. Non
irrigated water stress significantly reduced the studied traits except proline content of
leaf of tomato where drought tolerant genotype performed better than the susceptible
one. Foliar application of chitosan and potassium ameliorated that reduction in different
degrees and improved these traits under water stress condition. Based on drought
tolerance index Rajkumar showed the highest and BGL-757 showed the lowest tolerance
for the selected traits. The results concluded that foliar application of chitosan and
potassium under water deficit stress can mitigate the harmful effects of drought and
significantly improve the majority of the studied traits of tomato. Based on overall
responses of tomato genotypes to water deficit stress Rajkumar may be considered as
comparatively drought tolerant and BGL-757 as drought susceptible.
Description
MITIGATION OF ADVERSE EFFECT OF DROUGHT ON
TOMATO THROUGH EXOGENOUS APPLICATION OF
POTASSIUM AND CHITOSAN;
A THESIS
BY
TOPY RANI DEB,
Student No. 1701016,
MASTER OF SCIENCE
IN
CROP PHYSIOLOGY AND ECOLOGY,
DEPARTMENT OF CROP PHYSIOLOGY AND ECOLOGY,
HAJEE MOHAMMAD DANESH SCIENCE AND TECHNOLOGY UNIVERSITY
DINAJPUR-5200, BANGLADESH;
JUNE 2024.
Keywords
MITIGATION, ADVERSE EFFECT, DROUGHT, TOMATO, EXOGENOUS APPLICATION, POTASSIUM, CHITOSAN
