Seed germination response of Indian wild pear (Pyrus pashia) to gibberellic acid treatment and cold storage

Knowledge of seed germination behaviour of different seed sources of tree species is useful in selecting the most responsive and adaptive ones for propagation and germplasm conservation. The wild Himalayan pear (Pyrus pashia Buch-Ham ex D. Don) produces highly nutritious edible fruits that are consumed by local communities. The populations of the species are threatened due to exploitation and lack of adequate conservation programmes. The study was conducted to examine the germination response of P. pashia seeds from two sources (S1-Champawat and S2-Pithoragarh) in Uttarakhand state of India, to different GA3 treatment and also to assess the viability and longevity of the seeds in cold storage (5 °C) for three years. In both sources germination percent (GP) increased significantly under GA3 treatment and speed of germination was also enhanced (reduction in mean germination time). In Source, 1 GP increased under all GA3 application, highest being 94% under GA3 500 ppm treatment. In Source 2, GP of seeds doubled under 100 ppm GA3 treatment while its higher concentrations did not improve the germination. However, the differences observed in germination between the seed sources could be due to differences in the dormancy levels and/or sensitivity to dormancy breaking elements across their geographical range. Thus, exogenous application of GA3 is suggested for enhancing the germination in seeds of P. pashia. Seeds responded to cold storage by increased germination with duration, i.e. highest after three years in storage, indicating that the seeds got the required chilling treatment for overcoming dormancy.

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SEED GERMINATION OF GUNDELIA TOURNEFORTII L. UNDER DIFFERENT DORMANCY BREAKING TREATMENTS

PLANT ARCHIVES ◽

10.51470/plantarchives.2021.v21.no1.141 ◽

2021 ◽

Vol 21 (No 1) ◽

Author(s):

Vian Dler Ali ◽

Farhad Hassan Aziz

Keyword(s):

Seed Germination ◽

Tap Water ◽

Petri Dish ◽

Dry Weight ◽

Germination Percentage ◽

Dormancy Breaking ◽

Mean Germination Time ◽

Breaking Seed Dormancy ◽

Germination Value ◽

Peak Value

Gundelia tournefortii L. is adapted to mountains area climate, and the germination of this plant is not easily. This research conducted to study the effect of different seed treatments in various treatment durations in two experiments in petri dish in the laboratory and in seedling tray in the lath house to breaking seed dormancy and germination stimulus. Results indicated that there is significant enhancement of germination by all treatments and the maximum germination percentage was obtained by seed freezing 99.17% in the laboratory and 93.33% in the lath house for all treatment durations 12, 14, 48 and 72 hours. The other parameters of seed germination like germination speed, peak value, mean daily germination, mean germination time, germination value, radicle length, radicle elongation velocity, plumule length, plumule elongation velocity, seedling fresh and dry weight escalated by seed freezing and seed soaking in tap water at all soaking durations 12, 24, 48 and 72 hours. Gundelia tournefortii L. germinated seed was an anatomically examined by paraffin method and calculated diploid number of chromosomes 2n=2x=18 by aceto-carmine squash methods

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Effects of partial drying on seed germination in the aquatic grasses Zizania palustris L. and Porteresia coarctata (Roxb.) Tateoka

Seed Science Research ◽

10.1017/s0960258500001380 ◽

1992 ◽

Vol 2 (4) ◽

pp. 199-205 ◽

Cited By ~ 8

Author(s):

C. D. Aldridge ◽

R. J. Probert

Keyword(s):

Abscisic Acid ◽

Seed Germination ◽

Growth Regulators ◽

Germination Percentage ◽

Hormonal Status ◽

Cold Stratification ◽

Porteresia Coarctata ◽

Germination Response ◽

Fold Reduction ◽

Germination Behaviour

AbstractPartial drying of non-dormant seeds had little effect on germination behaviour compared with undried controls. In contrast, partial drying resulted in a marked increase in the germination response of freshly harvested (dormant) seeds of Z. palustris. Partial drying also resulted in a 100-fold reduction in the concentration of gibberellins (GA4+7) required for maximum germination. Although the concentration range of applied abscisic acid (ABA) that permitted germination was unaltered, partial drying increased the final germination percentage at all concentrations tested. The concentration of ABA above which germination was reduced in freshly harvested (dormant) seeds of Z. palustris was 3.16 × 10−7m compared with 10−4m in fresh (non-dormant) seeds of P. coarctata. Changes in the germination response of Z. palustris seeds to applied growth regulators, following partial drying or cold stratification might be explained by similar changes in hormonal status.

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Bromus tectorum seed germination: between-population and between-year variation

Canadian Journal of Botany ◽

10.1139/b96-109 ◽

1996 ◽

Vol 74 (6) ◽

pp. 875-882 ◽

Cited By ~ 52

Author(s):

Julie Beckstead ◽

Susan E. Meyer ◽

Phil S. Allen

Keyword(s):

Seed Germination ◽

Bromus Tectorum ◽

Incubation Temperature ◽

Weather Conditions ◽

Germination Percentage ◽

Maximum Temperature ◽

Germination Time ◽

Germination Response ◽

Mean Germination Time ◽

Contrasting Habitats

Cheatgrass (Bromus tectorum L., Poaceae), an introduced winter annual, has invaded a variety of habitats in western North America. This study examines variation in cheatgrass germination response and after-ripening patterns that are related to differences in habitat and to yearly differences in weather conditions during seed maturation. Seeds collected from five contrasting populations in 1992 and 1993 were subjected to controlled dry storage and then incubated across a range of temperatures. Recently harvested seeds were dormant and germinated slowly, while fully after-ripened seeds were nondormant and germinated rapidly. The optimal incubation temperature for mean germination time shifted from 5:15 to 20:30 °C as a result of after-ripening. Between-population differences in germination response appear to be related to the potential risk of precocious summer germination. The results from this 2-year study suggest that the more extreme yet predictable environments select for seed germination and after-ripening patterns that are genetically fixed, while populations from more favorable environments tended to show more between-year variations, suggesting more phenotypic plasticity. Germination percentage showed greater between-year variation than mean germination time. Between-year differences could not be explained simply by differences in maximum temperature or total precipitation during maturation. Adaptive germination responses in cheatgrass populations from contrasting habitats may have both genetic and environmental components, thus explaining why this species can become established in such a variety of habitats. Keywords: after-ripening, invading species, dormancy, mean germination time, cheatgrass, downy brome.

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Seed germination of Allochrusa gypsophiloides(Caryophyllaceae), an endemic species from Central Asia and Kazakhstan

Seed Science and Technology ◽

10.15258/sst.2020.48.2.15 ◽

2020 ◽

Vol 48 (2) ◽

pp. 289-295

Author(s):

Valentina Mursaliyeva ◽

Akjunus Imanbayeva ◽

Rano Parkhatova

Keyword(s):

Seed Germination ◽

Gibberellic Acid ◽

Acid Treatment ◽

Storage Conditions ◽

Cold Stratification ◽

Dry Storage ◽

Maximum Value ◽

Germination Behaviour ◽

Cryo Preservation ◽

Gibberellic Acid Treatment

The results of evaluating the laboratory seed germination of endemic Allochrusa gypsophiloides (Turkestan soap root), depending on storage conditions in combination with gibberellic acid treatment (GA3), are presented. In dry storage, control seeds were characterised by a long after-ripening period and a fluctuating germination behaviour upon removal from storage, with a maximum value of 23%. The sensitivity of seeds to GA3 during dry storage varied significantly, with two germination peaks at 5-7 months, and 12 months (37.5 and 50% germination, respectively). Cold stratification and cryo-preservation accelerated seed after-ripening, promoted germination synchronisation and increased seed sensitivity to GA3. The cold stratification of seeds increased germination four months earlier than during dry storage. GA3 increased germination from 16.7 and 18.3% for the control to 37.5 and 45% for seeds cryopreserved for 5 and 12 months, respectively. We recommend cryopreserving Turkestan soap root seeds to avoid viability loss and to then germinate the seeds after pretreatment with GA3.

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Dormancy-breaking Studies on Echinacea angustifolia

HortScience ◽

10.21273/hortsci.33.3.456f ◽

1998 ◽

Vol 33 (3) ◽

pp. 456f-457 ◽

Cited By ~ 1

Author(s):

Ali O. Sari ◽

Mario R. Morales ◽

James E. Simon

Keyword(s):

Native Americans ◽

Seed Germination ◽

Tap Water ◽

The United States ◽

Market Demand ◽

Dormancy Breaking ◽

Echinacea Angustifolia ◽

Native Populations ◽

Percent Germination ◽

Dry Heating

Echinacea is a medicinal plant native to North America. It was used extensively by native Americans in the treatment of their ailments. It is presently one of the most popular medicinal plants in the United States. Its popularity has created a large market demand for the roots and foliage of the plant. The gathering of echinacea from the wild is leading to the reduction of native populations and the destruction of its genetic diversity. Cultivation of medicinal echinaceas is hindered by a low seed germination. Dormancy breaking studies were done on freshly harvested seeds of Echinacea angustifolia. Seed lots were placed under light at a constant temperature of 25 °C and at alternate temperatures of 25/15 °C for 14/10 h, respectively. Germination was more rapid and uniform and percent germination higher at 25 °C than at 25/15 °C. Seed tap-water soaking, dry heating, and sharp heating alteration did not increase germination. The application of 1.0 mM ethephon (2-chloroethylphosphoric acid) increased seed germination to 94% at 25 °C and 86% at 25/15 °C. Untreated seeds gave 65% germination at 25 °C and 11% at 25/15 °C. The application of 2500 mg·L–1 and 3500 mg·L–1 of GA to dry seeds and 2500 mg·L–1 to seeds that have been soaked under tap water and then dried increased germination to 82%, 83%, and 83% at 25 °C and 64%, 78%, and 64% at 25/15 °C, respectively.

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Variation of seed germination response to temperature in tomato landraces: An adaptation strategy to environmental conditions

Scientia Horticulturae ◽

10.1016/j.scienta.2021.109987 ◽

2021 ◽

Vol 281 ◽

pp. 109987

Author(s):

Naeimeh Sousaraei ◽

Benjamin Torabi ◽

Kambiz Mashaiekhi ◽

Elias Soltani ◽

Seyyed Javad Mousavizadeh

Keyword(s):

Seed Germination ◽

Environmental Conditions ◽

Adaptation Strategy ◽

Germination Response ◽

Response To Temperature

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In vitro seed germination response of corn hybrids to osmotic stress conditions

age ◽

10.1002/agg2.20087 ◽

2020 ◽

Vol 3 (1) ◽

Author(s):

Charles Hunt Walne ◽

Annabeth Gaudin ◽

W. Brien Henry ◽

Kambham Raja Reddy

Keyword(s):

Seed Germination ◽

Osmotic Stress ◽

Stress Conditions ◽

Corn Hybrids ◽

Germination Response

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Does discontinuous hydration of Senna spectabilis (DC.) H.S. Irwin & Barneby var. excelsa (Schrad.) H.S. Irwin & Barneby (Fabaceae) seeds confer tolerance to water stress during seed germination?

Journal of Seed Science ◽

10.1590/2317-1545v40n1182838 ◽

2018 ◽

Vol 40 (1) ◽

pp. 36-43 ◽

Cited By ~ 3

Author(s):

Ayslan Trindade Lima ◽

Paulo Henrique de Jesus da Cunha ◽

Bárbara França Dantas ◽

Marcos Vinicius Meiado

Keyword(s):

Water Stress ◽

Seed Germination ◽

Stress Conditions ◽

Hydration Time ◽

Senna Spectabilis ◽

Mean Germination Time ◽

Polyethylene Glycol 6000 ◽

Osmotic Potentials ◽

Germination Parameters ◽

Hydration And Dehydration

Abstract: Seed hydration memory is the ability of seeds to retain biochemical and physiological changes caused by discontinuous hydration. This study aimed to determine if Senna spectabilis (DC.) H.S. Irwin & Barneby var. excelsa (Schrad.) H.S.Irwin & Barneby (Fabaceae) present seed memory and evaluate the effects of hydration and dehydration cycles (HD) on the seed germination of this species when submitted to conditions of water stress. Seeds underwent HD cycles (0, 1, 2 and 3 cycles) corresponding to the hydration times X (6 hours), Y (16 hours) and Z (24 hours), determined from the imbibition curve, with 5 hours of dehydration and submitted to water stress conditions. Germination was evaluated at 0.0, -0.1, -0.3, -0.6 and -0.9 MPa, obtained with polyethylene glycol 6000 solution. Germinability (%), mean germination time (days) and hydrotime (MPa d-1) were calculated. The seeds of S. spectabilis var. excelsa are sensitive to the low osmotic potentials tested in this study, however, when submitted to the HD cycles of 16 hours hydration (time Y), the tolerance to water stress conditions is increased. In addition, the observed benefits on the evaluated germination parameters show that S. spectabilis var. excelsa present seed hydation memory.

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Effect of dry heat treatment along with some dormancy breaking chemicals on oil palm seed germination

South African Journal of Botany ◽

10.1016/j.sajb.2017.06.023 ◽

2017 ◽

Vol 112 ◽

pp. 489-493

Author(s):

K.M. Tabi ◽

G.F. Ngando Ebongue ◽

G.N. Ntsomboh ◽

E. Youmbi

Keyword(s):

Heat Treatment ◽

Seed Germination ◽

Oil Palm ◽

Dormancy Breaking ◽

Dry Heat ◽

Dry Heat Treatment

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Can Bulk and Nanosized Titanium Dioxide Particles Improve Seed Germination Features of Wheatgrass (Agropyron desertorum)

Notulae Scientia Biologicae ◽

10.15835/nsb539072 ◽

2013 ◽

Vol 5 (3) ◽

pp. 325-331 ◽

Cited By ~ 13

Author(s):

Reyhaneh AZIMI ◽

Hassan FEIZI ◽

Mohammad KHAJEH HOSSEINI

Keyword(s):

Seed Germination ◽

Germination Percentage ◽

Germination Time ◽

Positive Effects ◽

Tio2 Particles ◽

Nanosized Titanium Dioxide ◽

Mean Germination Time ◽

Germination Value ◽

Improve Seed Germination ◽

Nanosized Tio2

The goal of this study was to evaluate concentrations of nanosized TiO2 at 0, 5, 20, 40, 60 and 80 mg L-1 with bulk TiO2 for possible stimulatory effects on wheatgrass seed germination and early growth stage. After 14 days of seed incubation, germination percentage improved by 9% following exposure to 5 ppm nanosized TiO2 treatment comparing to control. Similar positive effects occurred in terms of germination value and mean daily germination. Application of bulk TiO2 particles in 80 ppm concentration greatly decreased the majority of studied traits. Therefore phytotoxicity effect observed on wheatgrass seedling by application of bulk TiO2 particles in 80 ppm concentration. Exposure of wheatgrass seeds to 5 ppm nanosized TiO2 and bulk and nanosized TiO2 at 60 ppm obtained the lowest mean germination time but higher concentrations did not improve mean germination time. In general, there was a positive response by wheatgrass seed to some concentrations of nanosized TiO2. Usage of nanoparicles in order to improve germination and establishment of range plant in adverse environments similar to rangeland could be possible.

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