2021
DOI: 10.1101/2021.09.25.461784
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Anchorage by seed mucilage prevents seed dislodgement in high surface flow: a mechanistic investigation

Abstract: Seed mucilage is a common and highly diverse trait shared among thousands of angiosperms. While long recognized that mucilage allows seeds to anchor to substrates (antitelechory), we still lack a mechanistic understanding of this process. We propose a mechanistic model of how mucilage affects substrate anchorage and fluid resistance, ultimately contributing to antitelechory. To test this model, we subjected mucilaginous seeds of 52 species, varying in eight measured seed traits, to a week of continuous water f… Show more

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Cited by 5 publications
(22 citation statements)
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“…We have observed microbial overgrowth on non-disinfested seeds to significantly reduce seedling establishment under non-sterile conditions in pot experiments and in the field. Furthermore, mucilage has been implicated in successful establishment, especially under adverse conditions, in many mucilageproducing species (Pan et al, 2021;Pan et al, 2022;Tsai et al, 2021;Yang et al, 2012) including Plantago (Pan et al, 2021(Pan et al, , 2022Teixeira et al, 2020;Veiga-Barbosa & Pérez-García, 2014;Zhang et al, 2014). It is possible that changes to the mucilage in rain-damaged seeds will also contribute to reduced establishment in the field and thus trials should be conducted to determine if rain-damaged seeds are at all suitable for resowing.…”
Section: Discussionmentioning
confidence: 99%
“…We have observed microbial overgrowth on non-disinfested seeds to significantly reduce seedling establishment under non-sterile conditions in pot experiments and in the field. Furthermore, mucilage has been implicated in successful establishment, especially under adverse conditions, in many mucilageproducing species (Pan et al, 2021;Pan et al, 2022;Tsai et al, 2021;Yang et al, 2012) including Plantago (Pan et al, 2021(Pan et al, , 2022Teixeira et al, 2020;Veiga-Barbosa & Pérez-García, 2014;Zhang et al, 2014). It is possible that changes to the mucilage in rain-damaged seeds will also contribute to reduced establishment in the field and thus trials should be conducted to determine if rain-damaged seeds are at all suitable for resowing.…”
Section: Discussionmentioning
confidence: 99%
“…However, we have a strong mechanistic hypothesis integrating these results and previous research. In interspecific comparisons of over fifty species, attachment strength was strongly correlated with mucilage volume (Pan et al 2021(Pan et al , 2022. Mucilage volume probably affects attachment strength by altering the area of contact (hypothesized in Grubert 1974); therefore, it is likely that the rapid decline in volume at higher temperatures or at low humidity simply led to a smaller area of substrate that the mucilage strands were in contact with; it is likely that the reduced attachment strength in several species in the refrigerator treatment was due to the humidity control in household refrigerators.…”
Section: The Environment Affects Mucilage Attachment Strengthmentioning
confidence: 99%
“…Coupled with the findings in this study of stronger attachment at lower drying temperatures, we think it is reasonable to assume that species or populations regularly experiencing higher temperatures may need greater attachment strength to obtain the same protection that may come with the rapid drying in warmer areas. Therefore, we believe that in addition to the environment modifying the function of mucilage, it also likely is a potent selective force that may, in part, drive the diversity of mucilage properties we see across plants (Grubert 1974, Western 2012, LoPresti et al 2019, Cowley et al 2021Pan et al 2021Pan et al , 2022.…”
Section: Do Plants That Regularly Experience High Temperatures Evolve...mentioning
confidence: 99%
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