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Use of the tetrazolium test for estimating the physiological quality of seeds
The tetrazolium test has been developed and improved since the early years of the 20 th century. Hundreds of seed specialists have dedicated their efforts for perfecting the methodology of the test for several species. Among these seeds experts, two of them deserve special recognition, Dr. Georg Lak...
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| Published in: | Seed science and technology 2022-10, Vol.50 (2), p.31-44 |
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| Language: | English |
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| container_end_page | 44 |
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| container_start_page | 31 |
| container_title | Seed science and technology |
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| creator | França-Neto, José de Barros Krzyzanowski, Francisco Carlos |
| description | The tetrazolium test has been developed and improved since the early years of the 20 th century. Hundreds of seed specialists have dedicated their efforts for perfecting the methodology of the test for several species. Among these seeds experts, two of them deserve special recognition,
Dr. Georg Lakon and Dr. Robert P. Moore, whose achievements had fundamental importance for the further development of the test. The test relies on the activity of certain dehydrogenase enzymes and indirectly measures the respiration capability of the living tissues of the seeds. The initial
objective of the test was to quickly determine seed viability. Later on, it focussed on estimating seed vigour and more recently in diagnosing the possible causes that contribute to reduce the physiological quality of seed lots, such as mechanical damage, weathering damage and insect problems.
Nowadays, the methodology of the tetrazolium test has been perfected for seeds of several species, including agricultural, vegetable, horticultural, flower, tree and shrub species. Seed quality control is improved with the use of the tetrazolium test in all phases of seed production such as
harvesting, receiving, before and after seed processing and drying, during storage and before sowing. The test can be applied even before harvesting the crop. The methods for determining vigour will be briefly presented for seeds of the following species: cotton, common bean, maize, soybean,
wheat, sunflower, peanut, Solanaceae, and tropical forage grass seeds. The utilisation of tetrazolium results, as with any vigour test, can assist the categorisation of vigour levels for different seed lots and for estimating the performance of these lots in the field under optimum and stressful
conditions. |
| doi_str_mv | 10.15258/sst.2022.50.1.s.03 |
| format | article |
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Dr. Georg Lakon and Dr. Robert P. Moore, whose achievements had fundamental importance for the further development of the test. The test relies on the activity of certain dehydrogenase enzymes and indirectly measures the respiration capability of the living tissues of the seeds. The initial
objective of the test was to quickly determine seed viability. Later on, it focussed on estimating seed vigour and more recently in diagnosing the possible causes that contribute to reduce the physiological quality of seed lots, such as mechanical damage, weathering damage and insect problems.
Nowadays, the methodology of the tetrazolium test has been perfected for seeds of several species, including agricultural, vegetable, horticultural, flower, tree and shrub species. Seed quality control is improved with the use of the tetrazolium test in all phases of seed production such as
harvesting, receiving, before and after seed processing and drying, during storage and before sowing. The test can be applied even before harvesting the crop. The methods for determining vigour will be briefly presented for seeds of the following species: cotton, common bean, maize, soybean,
wheat, sunflower, peanut, Solanaceae, and tropical forage grass seeds. The utilisation of tetrazolium results, as with any vigour test, can assist the categorisation of vigour levels for different seed lots and for estimating the performance of these lots in the field under optimum and stressful
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Dr. Georg Lakon and Dr. Robert P. Moore, whose achievements had fundamental importance for the further development of the test. The test relies on the activity of certain dehydrogenase enzymes and indirectly measures the respiration capability of the living tissues of the seeds. The initial
objective of the test was to quickly determine seed viability. Later on, it focussed on estimating seed vigour and more recently in diagnosing the possible causes that contribute to reduce the physiological quality of seed lots, such as mechanical damage, weathering damage and insect problems.
Nowadays, the methodology of the tetrazolium test has been perfected for seeds of several species, including agricultural, vegetable, horticultural, flower, tree and shrub species. Seed quality control is improved with the use of the tetrazolium test in all phases of seed production such as
harvesting, receiving, before and after seed processing and drying, during storage and before sowing. The test can be applied even before harvesting the crop. The methods for determining vigour will be briefly presented for seeds of the following species: cotton, common bean, maize, soybean,
wheat, sunflower, peanut, Solanaceae, and tropical forage grass seeds. The utilisation of tetrazolium results, as with any vigour test, can assist the categorisation of vigour levels for different seed lots and for estimating the performance of these lots in the field under optimum and stressful
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Dr. Georg Lakon and Dr. Robert P. Moore, whose achievements had fundamental importance for the further development of the test. The test relies on the activity of certain dehydrogenase enzymes and indirectly measures the respiration capability of the living tissues of the seeds. The initial
objective of the test was to quickly determine seed viability. Later on, it focussed on estimating seed vigour and more recently in diagnosing the possible causes that contribute to reduce the physiological quality of seed lots, such as mechanical damage, weathering damage and insect problems.
Nowadays, the methodology of the tetrazolium test has been perfected for seeds of several species, including agricultural, vegetable, horticultural, flower, tree and shrub species. Seed quality control is improved with the use of the tetrazolium test in all phases of seed production such as
harvesting, receiving, before and after seed processing and drying, during storage and before sowing. The test can be applied even before harvesting the crop. The methods for determining vigour will be briefly presented for seeds of the following species: cotton, common bean, maize, soybean,
wheat, sunflower, peanut, Solanaceae, and tropical forage grass seeds. The utilisation of tetrazolium results, as with any vigour test, can assist the categorisation of vigour levels for different seed lots and for estimating the performance of these lots in the field under optimum and stressful
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| fulltext | fulltext |
| identifier | ISSN: 0251-0952 |
| ispartof | Seed science and technology, 2022-10, Vol.50 (2), p.31-44 |
| issn | 0251-0952 |
| language | eng |
| recordid | cdi_ingenta_journals_ista_sst_2022_00000050_a00102s1_art00003 |
| source | EZB Electronic Journals Library |
| subjects | Dehydrogenase Enzymes Quality Control Seed Viability Seed Vigour Triphenylformazan |
| title | Use of the tetrazolium test for estimating the physiological quality of seeds |
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