Seed dormancy and longevity variability of <i>Hirschfeldia incana</i> L. during storage

Mira, Sara; Veiga-Barbosa, Luciana; Pérez-García, Francisco J.

doi:10.1017/s0960258519000072

Cited by 10 publications

(12 citation statements)

References 56 publications

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“…This result coincides with those obtained in Jatropha curcas L. seeds, which showed a faster deterioration in AA tests over water in contrast with using a saturated salt solution [44]. Similar results were obtained with Hirschfeldia incana when comparing humid (75%) and dry (33% RH) storage at 35 °C, where humid storage decreased almost 100 times seed longevity [45]. In fact, resultant products of non-enzymatic modifications of protein structures through glycation found in accelerated aged soybean seeds were formed most rapidly in seeds at high humidity [46].…”

Section: Seed Resistance To Temperature and Relative Humiditysupporting

confidence: 88%

A rapid and sensitive method to assess seed longevity through accelerated aging in an invasive plant species

2020

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Background: Seed longevity and vigor assessment is crucial for efficient ex situ biodiversity conservation in genebanks but may also have potential applications for the understanding of ecological processes and in situ biodiversity conservation. In fact, one of the factors determining the persistence of invasive species, a main threat to global biodiversity, is the generation of soil seed banks where seeds may remain viable for several years. Artificial seed aging tests using high temperatures and high relative humidity have been described for seed longevity estimation but have been mainly optimized for species with commercial interest. Thus, the aim of the study is to define a rapid and sensitive method to assess seed longevity and vigor through accelerated aging in the worldwide distributed invasive species Carpobrotus edulis to provide tools to biodiversity managers to evaluate invasive potential and develop effective post-eradication plans. Results: Slow seed deterioration rate was obtained when C. edulis seeds were subjected to common accelerated aging temperatures (43-45 °C). This contrasts with the rapid viability decay between 24-72 h when seeds were subjected to temperatures superior to 55 °C, a strong inflection point for this species' thermosensitivity. Relative humidity also played a role in defining seed survival curves, but only at high temperatures, speeding up the deterioration process. The selected aging conditions, 55 °C at 87% relative humidity were tested over two C. edulis populations and three measures were proposed to parametrize the differential sigmoidal seed survival curves, defining the seed resistance to deterioration (L 5 , aging time where 95% of seeds maintain their viability), medium longevity (L 50 , 50% of seeds lose their viability) and lethal aging time (L 95 , 95% of viability loss). Conclusions: An accelerated aging test at 55 °C and 87% relative humidity constitutes a rapid and sensitive method that can be performed within a working week, allowing managers to easily test seed vigor and longevity. This test may contribute to assess invasive potential, design effective monitoring programs and soil seed bank eradication treatments.

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Section: Seed Resistance To Temperature and Relative Humiditysupporting

confidence: 88%

A rapid and sensitive method to assess seed longevity through accelerated aging in an invasive plant species

2020

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“…Loss of germination potential results from accumulated ageing damage that occurs during seed storage or applied stresses. Growing evidence indicates relationships between intra-specific seed mass variation and seed deterioration associated with high temperature and relative humidity stress (Franks et al, 2019; Genna and Pérez, 2016; Guzzon et al, 2018; Mira et al, 2019). We examined water sorption characteristics of mass-separated R. mollis seeds and then evaluated responses of each mass class to various storage and stress treatments.…”

Section: Discussionmentioning

confidence: 99%

“…There is a positive exponential relationship between seed water content and seed deterioration rate for seeds held at relative humidity greater than about 30% (Ellis et al, 1990; Walters et al, 2010). Mira et al (2019) found that smaller seeds of H. incana contained more water and deteriorated more rapidly than larger seeds. However, R. mollis mass classes did not differ significantly for seed water content at higher RH, meaning that the slower deterioration observed in seeds of the heavy seed class stored in the shed should not be attributed to water content per se.…”

Section: Discussionmentioning

confidence: 99%

“…Recent studies show that lower mass seeds within populations of Aegilops, Rudbeckia and Brassica expressed greater longevity than higher mass seeds following warm, humid stress (Genna and Pérez, 2016;Guzzon et al, 2018;Franks et al, 2019). To the contrary, Mira et al (2019) found greater longevity in higher mass seeds within a population of Hirschfeldia incana. These important studies share certain commonalities.…”

Section: Introductionmentioning

confidence: 98%

“…These methods are used to discern seeds with a high and low capacity for germination or seedling establishment and to generate a relative vigour index (Baalbaki et al, 2009). Vast literature exists showing how seed scientists have adapted these techniques to study seed deterioration and model potential seed longevity (Baalbaki et al, 2009 [references therein]; Probert et al, 2009; Genna and Pérez, 2016; Guzzon et al, 2018; Franks et al, 2019; Mira et al, 2019).…”

Section: Introductionmentioning

confidence: 99%

See 2 more Smart Citations

Viability and vigour loss during storage of Rudbeckia mollis seeds having different mass: an intra-specific perspective

Genna

Walters²,

Pérez

2020

Seed Sci. Res.

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Abstract Recent evidence points to relationships between intra-specific seed mass variation and viability loss in response to ageing stress. However, little is known about how seed quality may change temporally in response to such stress. Here we examined seed–water relations of mass-separated Rudbeckia mollis seeds to better understand physiological status among mass classes. We then evaluated seed viability and vigour changes in response to various storage conditions or post-storage vigour tests (a 41°C, 75% RH stress for up to 45 d). We found similar pre-storage physiology among mass classes. However, seeds of lower mass deteriorated up to 1.5-fold faster than heavier seeds under certain conditions. Stressing seeds after storage resulted in distinct vigour differences among mass classes. For example, vigour in lower mass seeds tended to decline more compared to heavier seeds following storage in a climate-controlled room. Alternatively, vigour loss varied among mass classes following storage in a non-climate-controlled shed. Our results highlight the importance of distinguishing between pre-sowing storage and post-storage vigour effects when quantifying relative levels of viability loss among seeds of different mass. Furthermore, differential responses to storage and ageing stress among mass classes may have important implications for post-storage regeneration and subsequent population dynamics.

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Soil seed banks are short-lived and triggered by the first effective rainfalls in the vacant lots of Santiago, Chile

Figueroa

Saldías

Lagos

et al. 2022

Urban Forestry & Urban Greening

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Seed dormancy and longevity variability of Hirschfeldia incana L. during storage

Cited by 10 publications

References 56 publications

A rapid and sensitive method to assess seed longevity through accelerated aging in an invasive plant species

A rapid and sensitive method to assess seed longevity through accelerated aging in an invasive plant species

Viability and vigour loss during storage of Rudbeckia mollis seeds having different mass: an intra-specific perspective

Soil seed banks are short-lived and triggered by the first effective rainfalls in the vacant lots of Santiago, Chile

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