Variability in biophysical parameters and pollen viability in response to stress in tomato genotypes

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Published

2010-11-25

Keywords:

Solanum lycopersicon L, photosynthetic rate, pollen viability, stomatal conductance, transpiration
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Issue

Vol. 67 No. Special Issue (2010): Indian Journal of Horticulture

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Articles

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Copyright (c) 2010 Indian Journal of Horticulture

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This work is licensed under a Creative Commons Attribution-ShareAlike 4.0 International License.

Authors

  • Mukesh L. Chavan Department of Crop Physiology, KRC College of Horticulture, Arabhavi 591 310, Gokak (Tq), Belgaum (Dist), Karnataka
  • B. S. Janagoudar Department of Crop Physiology, KRC College of Horticulture, Arabhavi 591 310, Gokak (Tq), Belgaum (Dist), Karnataka
  • Anand B. Mastiholi Department of Crop Physiology, KRC College of Horticulture, Arabhavi 591 310, Gokak (Tq), Belgaum (Dist), Karnataka

Abstract

Tomato (Solanum lycopersicon L.), is one of the most popular vegetable crop widely grown which ranks next to potato. In tropical Asia, it is an important cash-earning crop for small farmers. It is a challenge to technology, processes and resources of horticultural production to produce vegetables several times more to meet the needs, but irrigation has become a constraint semi-arid regions. Therefore, an attempt was made to investigate variability of biophysical parameters and pollen viability in response to stress in tomato genotypes at KRC College of Horticulture, Arabhavi, Karnataka. Drought was imposed 15 days after transplanting to all the genotypes in both the IW/CPE ratio of 0.40 and 1.20 treatments. Irrigation was given when the pan evaporation reaches 41.66 mm (1.20 IW/CPE ratio) and 125 mm (0.40 IW/CPE ratio) and pollen were given heat stress at 25, 30 and 350C. Significantly maximum pollen viability was found in 1.2 IW/CPE ratio when compared to 0.4 IW/CPE ratio. The genotypes, L-30, IIHR 2274 and L-40-3 were recorded significantly maximum pollen viability and it was least in L- 17 and L-28. Photosynthetic rate was found comparably higher in the genotypes L-30, IIHR 2274 and L-40-3 compared to genotypes L-17 and L-28. Due to higher photosynthetic rate and heat tolerance the genotypes L-30, IIHR 2274 and L-40-3 able to tolerate drought and produce more yield per plant compared to the genotype L-17 and L-28.

How to Cite

Chavan, M. L., Janagoudar, B. S., & Mastiholi, A. B. (2010). Variability in biophysical parameters and pollen viability in response to stress in tomato genotypes. Indian Journal of Horticulture, 67(Special Issue), 232–237. Retrieved from https://journal.iahs.org.in/index.php/ijh/article/view/2165

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