Correlation among physiological and histological changes in soybean seeds during storage

Aim: The aim of the study was to correlate the histological changes in cotyledon and embryonic axis in aged seeds of soybean genotypes with the physiological changes and storability. Methodology: Ten genotypes with differing, storability as predicted by accelerated ageing test, were selected and var...

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Veröffentlicht in:Journal of environmental biology 2019-03, Vol.40 (2), p.217-225
Hauptverfasser: Vijayakumar, H.P., Vijayakumar, A., Srimathi, P., Somasundaram, G., Prasad, S.R., Natarajan, S., Raja, K., Dhandapani, R., Vishwanath, K.
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container_end_page 225
container_issue 2
container_start_page 217
container_title Journal of environmental biology
container_volume 40
creator Vijayakumar, H.P.
Vijayakumar, A.
Srimathi, P.
Somasundaram, G.
Prasad, S.R.
Natarajan, S.
Raja, K.
Dhandapani, R.
Vishwanath, K.
description Aim: The aim of the study was to correlate the histological changes in cotyledon and embryonic axis in aged seeds of soybean genotypes with the physiological changes and storability. Methodology: Ten genotypes with differing, storability as predicted by accelerated ageing test, were selected and various physiological parameters viz., germination per cent, seedling length and dry weight, seedling vigour, mobilization efficiency were studied over a period of ten months at bi-monthly interval. These were correlated with histological changes like cell arrangement and cell membrane integrity in cotyledon and embryonic axis of seed. The findings were furthersupported by electrical conductivity test. Results: Good storer/performer (DSB 21) maintained comparatively better cell membrane integrity in both cotyledon and embryonic axis at the end of ten months of storage when compared to poor storer/performer (MAUS 61). Interpretation: Maintenance of cell membrane integrity in good storer genotype, as revealed by scanning electron microscopy, as result of better tolerance mechanism for biochemical degradation, is the main reason for higher physiological performance of all the good storer/performers genotypes during storage.
doi_str_mv 10.22438/jeb/40/2/MRN-753
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Methodology: Ten genotypes with differing, storability as predicted by accelerated ageing test, were selected and various physiological parameters viz., germination per cent, seedling length and dry weight, seedling vigour, mobilization efficiency were studied over a period of ten months at bi-monthly interval. These were correlated with histological changes like cell arrangement and cell membrane integrity in cotyledon and embryonic axis of seed. The findings were furthersupported by electrical conductivity test. Results: Good storer/performer (DSB 21) maintained comparatively better cell membrane integrity in both cotyledon and embryonic axis at the end of ten months of storage when compared to poor storer/performer (MAUS 61). 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Methodology: Ten genotypes with differing, storability as predicted by accelerated ageing test, were selected and various physiological parameters viz., germination per cent, seedling length and dry weight, seedling vigour, mobilization efficiency were studied over a period of ten months at bi-monthly interval. These were correlated with histological changes like cell arrangement and cell membrane integrity in cotyledon and embryonic axis of seed. The findings were furthersupported by electrical conductivity test. Results: Good storer/performer (DSB 21) maintained comparatively better cell membrane integrity in both cotyledon and embryonic axis at the end of ten months of storage when compared to poor storer/performer (MAUS 61). 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subjects Accelerated aging tests
Accelerated tests
Aging
Cell membranes
Correlation analysis
Efficiency
Electrical conductivity
Electrical resistivity
Embryos
Environmental science
Genotype & phenotype
Genotypes
Germination
Humidity
Integrity
Lipid peroxidation
Lipids
Moisture content
Physiology
Quality
Scanning electron microscopy
Seedlings
Seeds
Soybeans
Weight
title Correlation among physiological and histological changes in soybean seeds during storage
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