Ariel Villalobos Olivera, M. Arguedas, D. Escalante, Julia Martínez, B. Zevallos, I. Cejas, L. Yabor, Marcos Edel Martínez-Montero, S. Sershen, J. Feijoo
{"title":"高粱种子的低温保存改变了种子的萌发和幼苗生长,但对成株的田间性能没有影响","authors":"Ariel Villalobos Olivera, M. Arguedas, D. Escalante, Julia Martínez, B. Zevallos, I. Cejas, L. Yabor, Marcos Edel Martínez-Montero, S. Sershen, J. Feijoo","doi":"10.5073/JABFQ.2019.092.013","DOIUrl":null,"url":null,"abstract":"Climate change poses risks to both wild and crop plant biodiversity, which can be mitigated by cryopreservation (usually at -196 °C in liquid nitrogen [LN]) of crop germplasm. Cryopreservation is widely regarded as a reliable method for the ex situ conservation of plant genetic resources but its effects on subsequent field performance of popular crop species such as sorghum are largely unknown. This hampers the large-scale implementation (i.e. germplasm banks) of cryostorage for such species. This short communication describes the early stages of germination and field performance of plants derived from cryopreserved sorghum seed. Compared with the control, cryopreservation significantly increased seed electrolyte leakage and from 24 to 120 hours, percentage of germination of the control was ~2.6 folds higher than cryopreserved seeds. At 0 days, chlorophyll a/b rate was ~1.7 folds higher in the control and at 7 and 14 days, chlorophyll a level (~1.5 folds) and chlorophyll a/b rate (~1.8-1.9 folds) were higher in the control. Contrastingly, at 7 days, seedlings derived from cryopreserved seeds (treatment seedlings) showed ~1.5 folds more superoxide dismutase activity and ~1.9 folds more peroxidase activity. In contrast, treatment and control adult plants were statistically comparable in terms of chlorophylls, proteins, superoxide and peroxidase activities, plant architecture, and yield components. The fact that differences in biochemical indicators observed between control and treatment seedlings did not persist in adult plants validates the use of seed cryopreservation for the conservation of sorghum genetic resources.","PeriodicalId":56276,"journal":{"name":"Journal of Applied Botany and Food Quality-Angewandte Botanik","volume":"92 1","pages":"94-99"},"PeriodicalIF":1.2000,"publicationDate":"2019-04-11","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"11","resultStr":"{\"title\":\"Cryopreservation of sorghum seeds modifies germination and seedling growth but not field performance of adult plants\",\"authors\":\"Ariel Villalobos Olivera, M. Arguedas, D. Escalante, Julia Martínez, B. Zevallos, I. Cejas, L. Yabor, Marcos Edel Martínez-Montero, S. Sershen, J. Feijoo\",\"doi\":\"10.5073/JABFQ.2019.092.013\",\"DOIUrl\":null,\"url\":null,\"abstract\":\"Climate change poses risks to both wild and crop plant biodiversity, which can be mitigated by cryopreservation (usually at -196 °C in liquid nitrogen [LN]) of crop germplasm. Cryopreservation is widely regarded as a reliable method for the ex situ conservation of plant genetic resources but its effects on subsequent field performance of popular crop species such as sorghum are largely unknown. This hampers the large-scale implementation (i.e. germplasm banks) of cryostorage for such species. This short communication describes the early stages of germination and field performance of plants derived from cryopreserved sorghum seed. Compared with the control, cryopreservation significantly increased seed electrolyte leakage and from 24 to 120 hours, percentage of germination of the control was ~2.6 folds higher than cryopreserved seeds. At 0 days, chlorophyll a/b rate was ~1.7 folds higher in the control and at 7 and 14 days, chlorophyll a level (~1.5 folds) and chlorophyll a/b rate (~1.8-1.9 folds) were higher in the control. Contrastingly, at 7 days, seedlings derived from cryopreserved seeds (treatment seedlings) showed ~1.5 folds more superoxide dismutase activity and ~1.9 folds more peroxidase activity. In contrast, treatment and control adult plants were statistically comparable in terms of chlorophylls, proteins, superoxide and peroxidase activities, plant architecture, and yield components. 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Cryopreservation of sorghum seeds modifies germination and seedling growth but not field performance of adult plants
Climate change poses risks to both wild and crop plant biodiversity, which can be mitigated by cryopreservation (usually at -196 °C in liquid nitrogen [LN]) of crop germplasm. Cryopreservation is widely regarded as a reliable method for the ex situ conservation of plant genetic resources but its effects on subsequent field performance of popular crop species such as sorghum are largely unknown. This hampers the large-scale implementation (i.e. germplasm banks) of cryostorage for such species. This short communication describes the early stages of germination and field performance of plants derived from cryopreserved sorghum seed. Compared with the control, cryopreservation significantly increased seed electrolyte leakage and from 24 to 120 hours, percentage of germination of the control was ~2.6 folds higher than cryopreserved seeds. At 0 days, chlorophyll a/b rate was ~1.7 folds higher in the control and at 7 and 14 days, chlorophyll a level (~1.5 folds) and chlorophyll a/b rate (~1.8-1.9 folds) were higher in the control. Contrastingly, at 7 days, seedlings derived from cryopreserved seeds (treatment seedlings) showed ~1.5 folds more superoxide dismutase activity and ~1.9 folds more peroxidase activity. In contrast, treatment and control adult plants were statistically comparable in terms of chlorophylls, proteins, superoxide and peroxidase activities, plant architecture, and yield components. The fact that differences in biochemical indicators observed between control and treatment seedlings did not persist in adult plants validates the use of seed cryopreservation for the conservation of sorghum genetic resources.
期刊介绍:
The Journal of Applied Botany and Food Quality is the Open Access journal of the German Society for Quality Research on Plant Foods and the Section Applied Botany of the German Botanical Society. It provides a platform for scientists to disseminate recent results of applied plant research in plant physiology and plant ecology, plant biotechnology, plant breeding and cultivation, phytomedicine, plant nutrition, plant stress and resistance, plant microbiology, plant analysis (including -omics techniques), and plant food chemistry. The articles have a clear focus on botanical and plant quality aspects and contain new and innovative information based on state-of-the-art methodologies.