Ecological biomechanics of damage to macroalgae

Burnett, Nicholas; Koehl, M. A. R.

doi:10.3389/fpls.2022.981904

Cited by 6 publications

(1 citation statement)

References 117 publications

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“…These inhabitants form intricate associations, relying on macroalgae for various purposes, creating behavioral patterns that keep them within the algae [8]. Algal epibionts adapt to abiotic factors and exhibit varying degrees of dependence on algae resources [15][16][17].…”

Section: Introductionmentioning

confidence: 99%

Seasonal Variations in Invertebrates Sheltered among Corallina officinalis (Plantae, Rodophyta) Turfs along the Southern Istrian Coast (Croatia, Adriatic Sea)

Buršić,

Jaklin,

Arko Pijevac

et al. 2023

Diversity

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Available research on invertebrates in Corallina officinalis settlements shows a high level of biodiversity due to a complex habitat structure. Our aim was to examine seasonal changes in the invertebrate population, considering the algae’s growth patterns. Nine locations with over 90% algal coverage were selected in southern Istria, where quantitative sampling was performed using six replicates of 5 × 5 cm quadrats in each location. Results showed that 29,711 invertebrates were found during winter (maximum algae growth) and 22,292 during summer (minimum algae growth), with an extrapolated average density of 220,000 and 165,200 individuals per square meter, respectively. The total number of individuals showed a linear increase as the algae biomass increased. The highest density, 586,000 individuals, was recorded in the Premantura area during winter. Dominant groups such as amphipods, polychaetes, bivalves and gastropods made up over 80% of the invertebrates. Our study confirms high invertebrate richness in the C. officinalis settlements, with the maximum density being the highest when compared to previously published data.

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Section: Introductionmentioning

confidence: 99%

Seasonal Variations in Invertebrates Sheltered among Corallina officinalis (Plantae, Rodophyta) Turfs along the Southern Istrian Coast (Croatia, Adriatic Sea)

Buršić,

Jaklin,

Arko Pijevac

et al. 2023

Diversity

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Investigation of Water Turbulence Effects on Microalgal Cell Wall Damage in Thin-Layer Cascade Systems: A Fluid–Structure Interaction Approach

Akhtar,

Siddiqa,

Alam

et al. 2024

Waste Biomass Valor

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Freezing and Mechanical Failure of a Habitat-Forming Kelp in the Rocky Intertidal Zone

Zuelow,

Roberts,

Burnaford

et al. 2024

Integrative and Comparative Biology

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Kelp and other habitat-forming seaweeds in the intertidal zone are exposed to a suite of environmental factors, including temperature and hydrodynamic forces, that can influence their growth, survival, and ecological function. Relatively little is known about the interactive effect of temperature and hydrodynamic forces on kelp, especially the effect of cold stress on biomechanical resistance to hydrodynamic forces. We used the intertidal kelp Egregia menziesii to investigate how freezing in air during a low tide changes the kelp's resistance to breaking from hydrodynamic forces. We conducted a laboratory experiment to test how short-term freezing, mimicking a brief low tide freezing event, affected the kelp's mechanical properties. We also characterized daily minimum winter temperatures in an intertidal E. menziesii population on San Juan Island, WA near the center of the species’ geographic range. In the laboratory, acute freezing events decreased the strength and toughness of kelp tissue by 8 to 20% (change in medians). During low tides in the field, we documented sub-zero temperatures, snow, and low canopy cover (compared to summer surveys). These results suggest that freezing can contribute to frond breakage and decreased canopy cover in intertidal kelp. Further work is needed to understand whether freezing and the biomechanical performance in cold temperatures influence the fitness and ecological function of kelp, and whether this will change as winter conditions, such as freezing events and storms, change in frequency and intensity.

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Ecological biomechanics of damage to macroalgae

Cited by 6 publications

References 117 publications

Seasonal Variations in Invertebrates Sheltered among Corallina officinalis (Plantae, Rodophyta) Turfs along the Southern Istrian Coast (Croatia, Adriatic Sea)

Seasonal Variations in Invertebrates Sheltered among Corallina officinalis (Plantae, Rodophyta) Turfs along the Southern Istrian Coast (Croatia, Adriatic Sea)

Investigation of Water Turbulence Effects on Microalgal Cell Wall Damage in Thin-Layer Cascade Systems: A Fluid–Structure Interaction Approach

Freezing and Mechanical Failure of a Habitat-Forming Kelp in the Rocky Intertidal Zone

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