4.7 Review

Nanoparticles and their potential role in plant adaptation to abiotic stress in horticultural crops: A review

SCIENTIA HORTICULTURAE (2023)

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Physiological, Biochemical, and Molecular Mechanisms of Heat Stress Tolerance in Plants

Mirza Hasanuzzaman et al.

INTERNATIONAL JOURNAL OF MOLECULAR SCIENCES (2013)

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Article Agronomy

Response of Antioxidant Enzymes, Phytochelatins and Glutathione Production Towards Cd and Zn Stresses in Cajanus cajan (L.) Millsp Genotypes Colonized by Arbuscular Mycorrhizal Fungi

N. Garg et al.

JOURNAL OF AGRONOMY AND CROP SCIENCE (2013)

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Article Agriculture, Multidisciplinary

Influence of silver and titanium nanoparticles on arbuscular mycorrhiza colonization and accumulation of radiocaesium in Helianthus annuus

S. Dubchak et al.

SPANISH JOURNAL OF AGRICULTURAL RESEARCH (2013)

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Review Plant Sciences

Plant tolerance to high temperature in a changing environment: scientific fundamentals and production of heat stress-tolerant crops

Craita E. Bita et al.

FRONTIERS IN PLANT SCIENCE (2013)

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Article Environmental Sciences

Brassinosteroids protect photosynthetic machinery against the cadmium induced oxidative stress in two tomato cultivars

Syed Aiman Hasan et al.

CHEMOSPHERE (2011)

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Article Plant Sciences

Reactive oxygen species in abiotic stress signaling

Pinja Jaspers et al.

PHYSIOLOGIA PLANTARUM (2010)

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Editorial Material Plant Sciences

Evolution and mechanisms of plant tolerance to flooding stress

Michael B. Jackson et al.

ANNALS OF BOTANY (2009)

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Review Plant Sciences

Heat tolerance in plants: An overview

A. Wahid et al.

ENVIRONMENTAL AND EXPERIMENTAL BOTANY (2007)

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Article Biochemistry & Molecular Biology

Biotic and heavy metal stress response in plants:: evidence for common signals

A Mithöfer et al.

FEBS LETTERS (2004)

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