Ecosystem services in coastal wetlands: Investigating bio- and hydro-mechanical traits of salt marsh vegetation

Abstract: <p>Biodiversity and nature conservation play an increasingly important role with growing societal awareness, which is reflected in current European legislative frameworks such as the Marine Strategy Framework Directive or the Water Framework Directive, calling for integrative solutions and restoration of good environmental status. Salt marshes provide ecosystem services which can help mitigate climate change and sea level rise threats and simultaneously address coastal squeeze problems. The perio… Show more

“…For this, water absorbing properties and the influence of air and water temperature should be considered (Behalek et al 2018). Storage conditions and duration, humidity, and orientation of the print while stored can play a role in plastic deformations (Keimer et al 2022). The quality of the print in regard to anisotropy, including postcuring after printing and during storage time, should be evaluated in detail, especially for small structures (Ahmad et al 2020; Štaffová et al 2022).…”

“…This includes the material variation owing to temperature and water absorption. Increasing and decreasing the outer diameter 0.2 mm with constant printing conditions was shown in Keimer et al (2022), which resulted in inconclusive changes. Therefore, investigating changes in the geometry of surrogates should continue with distinct differences. In this study, the outer diameter for the green plants is only 5% higher than for brown plants, but Young's modulus is 50% higher, indicating a change in mechanical properties of the tissue.…”

“…To refer to the investigated mixtures in this study, the percentage of "Type D Flex" will be used: 0%, 30%, 50%, 70%, 90%, and 100%. The layers were printed with a height of 0.1 mm and a UV light exposure time of 3.0 s. The printing settings were kept consistent for all prints to ensure the best comparability (Keimer et al 2022). The test specimen was printed in an upright position without support structures.…”

“…This includes the material variation owing to temperature and water absorption. Increasing and decreasing the outer diameter 0.2 mm with constant printing conditions was shown in Keimer et al (2022), which resulted in inconclusive changes. Therefore, investigating changes in the geometry of surrogates should continue with distinct differences.…”

From seasonal field study to surrogate modeling: Investigating the biomechanical dynamics of Elymus sp. in salt marshes

“…For this, water absorbing properties and the influence of air and water temperature should be considered (Behalek et al 2018). Storage conditions and duration, humidity, and orientation of the print while stored can play a role in plastic deformations (Keimer et al 2022). The quality of the print in regard to anisotropy, including postcuring after printing and during storage time, should be evaluated in detail, especially for small structures (Ahmad et al 2020; Štaffová et al 2022).…”

“…This includes the material variation owing to temperature and water absorption. Increasing and decreasing the outer diameter 0.2 mm with constant printing conditions was shown in Keimer et al (2022), which resulted in inconclusive changes. Therefore, investigating changes in the geometry of surrogates should continue with distinct differences. In this study, the outer diameter for the green plants is only 5% higher than for brown plants, but Young's modulus is 50% higher, indicating a change in mechanical properties of the tissue.…”

“…To refer to the investigated mixtures in this study, the percentage of "Type D Flex" will be used: 0%, 30%, 50%, 70%, 90%, and 100%. The layers were printed with a height of 0.1 mm and a UV light exposure time of 3.0 s. The printing settings were kept consistent for all prints to ensure the best comparability (Keimer et al 2022). The test specimen was printed in an upright position without support structures.…”

“…This includes the material variation owing to temperature and water absorption. Increasing and decreasing the outer diameter 0.2 mm with constant printing conditions was shown in Keimer et al (2022), which resulted in inconclusive changes. Therefore, investigating changes in the geometry of surrogates should continue with distinct differences.…”

From seasonal field study to surrogate modeling: Investigating the biomechanical dynamics of Elymus sp. in salt marshes