2021
DOI: 10.1002/ajb2.1662
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Age affects the strain‐rate dependence of mechanical properties of kelp tissues

Abstract: Macroalgae on wave-and current-swept shores are subjected throughout their lives to hydrodynamic forces imposed by ambient water motion (e.g.

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Cited by 6 publications
(2 citation statements)
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“…By studying organism tissues using mechanical tests developed by materials scientists (e.g., Wainwright et al 1976, Koehl & Wainwright 1984, Vincent 2012, we measured their stiffness, resilience, strength, and toughness (Koehl 1977b(Koehl , 1982(Koehl , 1999Koehl & Wainwright 1977;Holbrook et al 1991;Johnson & Koehl 1994;Burnett & Koehl 2019, 2021Koehl & Daniel 2022). With that information, we could predict how much they deform and whether they break under different environmental conditions.…”
Section: Highmentioning
confidence: 99%
See 1 more Smart Citation
“…By studying organism tissues using mechanical tests developed by materials scientists (e.g., Wainwright et al 1976, Koehl & Wainwright 1984, Vincent 2012, we measured their stiffness, resilience, strength, and toughness (Koehl 1977b(Koehl , 1982(Koehl , 1999Koehl & Wainwright 1977;Holbrook et al 1991;Johnson & Koehl 1994;Burnett & Koehl 2019, 2021Koehl & Daniel 2022). With that information, we could predict how much they deform and whether they break under different environmental conditions.…”
Section: Highmentioning
confidence: 99%
“…For example, when the viscoelastic connective tissue of the body walls of sea anemones was subjected to stress regimes mimicking those experienced in nature, I discovered that it is stiff and resilient when subjected to brief stresses simulating repetitive stretching by waves, but can be extended to twice its resting length when subjected overnight to low stress due to the small internal pressure sea anemones use to inflate themselves (Koehl 1977b). Frond tissue of some macroalgae is stronger when stretched rapidly to simulate wave impingement than when pulled more slowly (Burnett & Koehl 2021). The shearthinning mucus attaching a sea-slug larva to a surface acts like an elastic bungee cord when hit with pulses of flow like those that larvae encounter on coral reefs, but it flows like a liquid and breaks at low stress if subjected to the steady shear flow traditionally used to measure adhesive strengths of microorganisms (Koehl 2023).…”
Section: Temporal Variationmentioning
confidence: 99%