Improving Tomato Productivity for Changing Climatic and Environmental Stress Conditions

Narayanan, Jithesh Mundaya; Viswanathan, V.; Ramanujam, T.; Rao, K. Narayana

doi:10.5772/intechopen.112251

Tomato Cultivation and Consumption - Innovation and Sustainability 2024

DOI: 10.5772/intechopen.112251

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Improving Tomato Productivity for Changing Climatic and Environmental Stress Conditions

Jithesh Mundaya Narayanan¹,

V. Viswanathan²,

T. Ramanujam³

et al.

Abstract: Tomato (Lycopersicon esculentum Mill.) growth, cultivation and its productivity are adversely influenced by severe environmental pressures. Several environmental abiotic factors that are limited not only to drought, salinity, temperature and heat but also to mechanical stress affect tomato yield and productivity. Salinity is a persistent problem throughout the world that affects soil properties. Further, tomato productivity due to salinity stress is affected at all stages of plant development. Seed priming, a … Show more

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Cited by 1 publication

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Mechanical stress induces anatomical changes, tomato early flowering, and increased yield involving ethylene and auxins

Castro-Estrada,

Salazar,

Cabello

et al. 2024

Preprint

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Plants have evolved mechanisms to perceive and face mechanical stress (MS) caused by physical forces, including compacted soils, winds, rain, pathogens, and interactions with animals and plants. Previous research indicated that applying mechanical treatment (MT) to Arabidopsis increases both xylem area and seed yield. To explore sustainable tomato production, we applied MT - combining stem bending, weighting, and particular touching - to 10-day-old seedlings, using a specific weight on the upper stem for 48 h. Two days after the treatment, we observed stem enlargement and increased the number of xylem vessels and area in MT plants. Additionally, we noticed earlier flowering, leading to increased tomato production. The transcriptome of MT-treated plants revealed significant changes in the expression of several essential genes involved in central metabolism, growth responses, and crucial phytohormone signalling. By studying different tomato mutants in the ethylene and auxin signalling pathways, we demonstrated that both hormones play essential roles in the plant responses to combined MT. Our findings suggest that combined MT generates a beneficial MS in tomato plants that induces plant morphoanatomical changes that promote early flowering and increased yield, providing a promising strategy for sustainable agriculture.HighlightA combined mechanical treatment applied to tomato seedlings enhances stem width, increases the number of vascular bundles, promotes early flowering, and improves fruit yield, involving auxin and ethylene pathways.

show abstract

Mechanical stress induces anatomical changes, tomato early flowering, and increased yield involving ethylene and auxins

Castro-Estrada,

Salazar,

Cabello

et al. 2024

Preprint

View full text Add to dashboard Cite

show abstract

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Improving Tomato Productivity for Changing Climatic and Environmental Stress Conditions

Cited by 1 publication

References 97 publications

Mechanical stress induces anatomical changes, tomato early flowering, and increased yield involving ethylene and auxins

Mechanical stress induces anatomical changes, tomato early flowering, and increased yield involving ethylene and auxins

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