Studies on Physiological and Biochemical Changes in Relation to Seed Viability in Aged Onion Seeds

Rapid loss in viability of onion seeds during seed storage is a major problem. Not much information concerning the physiological and biochemical changes is available. In the present investigations, seeds were aged artificially by exposure to 45°C+75% RH for a period of fifteen days. Samples were col...

Full description

Bibliographic Details
Main Authors: K Bhanuprakash, H S Yogeesha, L B Naik, M N Arun
Format: Article
Language:English
Published: Society for Promotion of Horticulture 2006-06-01
Series:Journal of Horticultural Sciences
Subjects:
Online Access:https://jhs.iihr.res.in/index.php/jhs/article/view/665
id doaj-ceffdd23aa3c41eda6e02a1a7622fb0d
record_format Article
spelling doaj-ceffdd23aa3c41eda6e02a1a7622fb0d2020-11-25T04:00:27ZengSociety for Promotion of HorticultureJournal of Horticultural Sciences0973-354X2582-48992006-06-01111518665Studies on Physiological and Biochemical Changes in Relation to Seed Viability in Aged Onion SeedsK BhanuprakashH S YogeeshaL B NaikM N ArunRapid loss in viability of onion seeds during seed storage is a major problem. Not much information concerning the physiological and biochemical changes is available. In the present investigations, seeds were aged artificially by exposure to 45°C+75% RH for a period of fifteen days. Samples were collected at three day intervals and physiological and biochemical changes in the aged seeds were compared to those in fresh seeds. Results revealed that ageing affected seed viability and vigour significantly and this effect was more pronounced with increase in duration of exposure to artificial ageing. Marked reduction in germination to an extent of 4,16 and 75% was noticed in three, six and nine day artificially aged (DAA) seeds, respectively, when compared to fresh seeds. Further increase in ageing duration to twelve and fifteen days resulted in total loss of germination. Increase in ageing duration decreased a amylase and dehydrogenase activities but increased peroxidase activity up to nine days of ageing. Lipid peroxidation increased consistently with increase in duration of ageing. At 15 DAA, 26.2% increase in malondialdehyde content over the control was observed. SDS PAGE protein profile and esterase zymograms of aged seeds showed alteration in banding pattern when compared to that of fresh seeds.https://jhs.iihr.res.in/index.php/jhs/article/view/665onionaccelerated ageingprotein profilesenzymes
collection DOAJ
language English
format Article
sources DOAJ
author K Bhanuprakash
H S Yogeesha
L B Naik
M N Arun
spellingShingle K Bhanuprakash
H S Yogeesha
L B Naik
M N Arun
Studies on Physiological and Biochemical Changes in Relation to Seed Viability in Aged Onion Seeds
Journal of Horticultural Sciences
onion
accelerated ageing
protein profiles
enzymes
author_facet K Bhanuprakash
H S Yogeesha
L B Naik
M N Arun
author_sort K Bhanuprakash
title Studies on Physiological and Biochemical Changes in Relation to Seed Viability in Aged Onion Seeds
title_short Studies on Physiological and Biochemical Changes in Relation to Seed Viability in Aged Onion Seeds
title_full Studies on Physiological and Biochemical Changes in Relation to Seed Viability in Aged Onion Seeds
title_fullStr Studies on Physiological and Biochemical Changes in Relation to Seed Viability in Aged Onion Seeds
title_full_unstemmed Studies on Physiological and Biochemical Changes in Relation to Seed Viability in Aged Onion Seeds
title_sort studies on physiological and biochemical changes in relation to seed viability in aged onion seeds
publisher Society for Promotion of Horticulture
series Journal of Horticultural Sciences
issn 0973-354X
2582-4899
publishDate 2006-06-01
description Rapid loss in viability of onion seeds during seed storage is a major problem. Not much information concerning the physiological and biochemical changes is available. In the present investigations, seeds were aged artificially by exposure to 45°C+75% RH for a period of fifteen days. Samples were collected at three day intervals and physiological and biochemical changes in the aged seeds were compared to those in fresh seeds. Results revealed that ageing affected seed viability and vigour significantly and this effect was more pronounced with increase in duration of exposure to artificial ageing. Marked reduction in germination to an extent of 4,16 and 75% was noticed in three, six and nine day artificially aged (DAA) seeds, respectively, when compared to fresh seeds. Further increase in ageing duration to twelve and fifteen days resulted in total loss of germination. Increase in ageing duration decreased a amylase and dehydrogenase activities but increased peroxidase activity up to nine days of ageing. Lipid peroxidation increased consistently with increase in duration of ageing. At 15 DAA, 26.2% increase in malondialdehyde content over the control was observed. SDS PAGE protein profile and esterase zymograms of aged seeds showed alteration in banding pattern when compared to that of fresh seeds.
topic onion
accelerated ageing
protein profiles
enzymes
url https://jhs.iihr.res.in/index.php/jhs/article/view/665
work_keys_str_mv AT kbhanuprakash studiesonphysiologicalandbiochemicalchangesinrelationtoseedviabilityinagedonionseeds
AT hsyogeesha studiesonphysiologicalandbiochemicalchangesinrelationtoseedviabilityinagedonionseeds
AT lbnaik studiesonphysiologicalandbiochemicalchangesinrelationtoseedviabilityinagedonionseeds
AT mnarun studiesonphysiologicalandbiochemicalchangesinrelationtoseedviabilityinagedonionseeds
_version_ 1724450556139798528