Linking plants functioning to adaptive responses under heat stress conditions: a mechanistic review
M Ul Hassan, T Rasool, C Iqbal, A Arshad… - Journal of Plant Growth …, 2021 - Springer
The general circulation models estimated an average increase in global surface
temperature about 4° C (2.9 to 5.5° C). Escalating temperature and extreme weather events …
temperature about 4° C (2.9 to 5.5° C). Escalating temperature and extreme weather events …
Seed priming for abiotic stress tolerance: an overview
Plants are exposed to any number of potentially adverse environmental conditions such as
water deficit, high salinity, extreme temperature, submergence, etc. These abiotic stresses …
water deficit, high salinity, extreme temperature, submergence, etc. These abiotic stresses …
Recent advances in abiotic stress tolerance of plants through chemical priming: an overview
Plants under natural conditions often face multiple environmental constraints in terms of
submergence, temperature extremes, salinity, and drought stress. Plant growth and …
submergence, temperature extremes, salinity, and drought stress. Plant growth and …
Thiourea application improves heat tolerance in camelina (Camelina sativa L. Crantz) by modulating gas exchange, antioxidant defense and osmoprotection
Heat stress can have devastating effects on agricultural production and crop productivity.
This study was conducted to evaluate the effect of exogenously applied thiourea on heat …
This study was conducted to evaluate the effect of exogenously applied thiourea on heat …
[PDF][PDF] Thiourea: A Molecule with Immense Biological Significance for Plants.
Thiourea, also chemically named as Thiocarbamide, is a nitrogen and sulfur containing
compound. It has three functional groups, amino, imino and thiol, each with important …
compound. It has three functional groups, amino, imino and thiol, each with important …
Thiourea, a ROS Scavenger, Regulates Source-to-Sink Relationship to Enhance Crop Yield and Oil Content in Brassica juncea (L.)
In the present agricultural scenario, the major thrust is to increase crop productivity so as to
ensure sustainability. In an earlier study, foliar application of thiourea (TU; a non …
ensure sustainability. In an earlier study, foliar application of thiourea (TU; a non …
[PDF][PDF] Can plant bio-regulators minimize crop productivity losses caused by drought, salinity and heat stress? An integrated review
Summary Plant bio-regulators (PBRs), are biochemical compounds stimulates plant growth
and productivity when applied, even in small quantities at appropriate plant growth stages …
and productivity when applied, even in small quantities at appropriate plant growth stages …
Physiological effects of salicylic acid and thiourea on growth and productivity of maize plants in sandy soil
AA Amin, AAA El-Kader, MAF Shalaby… - … in soil science and …, 2013 - Taylor & Francis
This study aimed to investigate the response of vegetative growth, yield, and some
metabolic constituents of maize grains cv. Single Cross 124 to foliar applications of salicylic …
metabolic constituents of maize grains cv. Single Cross 124 to foliar applications of salicylic …
[PDF][PDF] Exogenous Application of Thiourea Improves the Performance of Late Sown Wheat by Inducing Terminal Heat Resistance.
This study was conducted to evaluate the potential of thiourea in improving the terminal heat
resistance in bread wheat. Four wheat genotypes PBW 550 and PBW 343 (heat sensitive) …
resistance in bread wheat. Four wheat genotypes PBW 550 and PBW 343 (heat sensitive) …
Thiourea orchestrates regulation of redox state and antioxidant responses to reduce the NaCl-induced oxidative damage in Indian mustard (Brassica juncea (L.) …
Thiourea (TU) has been found to enhance the stress tolerance of plants in our earlier field
trials. In the present study, the TU mediated effect on the redox and antioxidant responses …
trials. In the present study, the TU mediated effect on the redox and antioxidant responses …