Results 121 to 130 of about 129,647 (164)

Abiotic stress‐induced anthocyanins in plants: Their role in tolerance to abiotic stresses

Physiologia Plantarum, 2021
AbstractAbiotic stresses, such as heat, drought, salinity, low temperature, and heavy metals, inhibit plant growth and reduce crop productivity. Abiotic stresses are becoming increasingly extreme worldwide due to the ongoing deterioration of the global climate and the increase in agrochemical utilization and industrialization.
Aung Htay Naing, Chang Kil Kim
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Abiotic stresses.

2020
Abstract Numerous abiotic stresses impact yield, quality and adaptation of cucurbit crops under the diverse cultivation systems across the globe. Irrigation systems, elevation, soil type, solar radiation, wind, pathogens, fertility and genotype all interact to determine the degree to which abiotic stress may impact the crop.
Todd C. Wehner, Rachel P. Naegele, James R. Myers, Narinder P. S. Dhillon, Kevin Crosby   +4 more
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Abiotic Stress Resistance

2020
Citrus, one of the most important fruit crops in the world, is sensitive to many environmental stresses often leading to poor tree growth and reductions in fruit yield and quality. Citrus is most often grown in warm climates with well-drained soils, therefore acceptable growth conditions depend upon the quality and quantity of irrigation water and the ...
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Abiotic stresses and induced BVOCs

Trends in Plant Science, 2010
Plants produce a wide spectrum of biogenic volatile organic compounds (BVOCs) in various tissues above and below ground to communicate with other plants and organisms. However, BVOCs also have various functions in biotic and abiotic stresses. For example abiotic stresses enhance BVOCs emission rates and patterns, altering the communication with other ...
Loreto F, Schnitzler JP
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Abiotic Stress

This chapter explores how plants adapt and respond to abiotic stresses in the environment. Like all living organisms, plants are complex biological systems comprising thousands of different genes, proteins, regulatory molecules, signaling agents, and chemical compounds that form hundreds of interlinked pathways and networks.
Lincoln Taiz, Ian Max Møller, Angus Murphy, Wendy A. Peer   +3 more
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Responses to Abiotic Stresses

2023
Sebastiani L., Gucci R.
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Abiotic stress tolerance

Plant Science, 2012
Fernandez Tiburcio, A., Wollenweber, B., Zilberstein, A., Koncz, C.   +3 more
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Volatile isoprenoids and abiotic stresses

2012
Plant secondary metabolites (PSMs) such as terpenes and phenolic compounds are known to have numerous ecological roles, notably in defence against herbivores, pathogens and abiotic stresses and in interactions with competitors and mutualists. This book reviews recent developments in the field to provide a synthesis of the function, ecology and ...
Bagnoli Francesca, Fineschi Silvia, Loreto Francesco   +2 more
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Breeding for Abiotic Stress Tolerance

1994
The combined effect of all abiotic stress factors is worldwide seen enormous and the deterioration of many soils due to poor farm management is aggravating this. Especially stress factors that reduce and retard growth and development (drought, salinity, acidity, frost, heat, water logging, iron shortage etc.) are very important.
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Abiotic stress, the field environment and stress combination

Trends in Plant Science, 2006
Farmers and breeders have long known that often it is the simultaneous occurrence of several abiotic stresses, rather than a particular stress condition, that is most lethal to crops. Surprisingly, the co-occurrence of different stresses is rarely addressed by molecular biologists that study plant acclimation.
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