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6. Morphodynamic signatures derived from daily surface elevation dynamics can explain the morphodynamic development of tidal flats

Author

Grandjean, T., de Smit, J.C., van Belzen, J., Fivash, G.S., van Dalen, J., Ysebaert, T., and Bouma, T.J.

Subjects
Ocean Engineering, Civil and Structural Engineering
Abstract

Understanding the sensitivity of tidal flats to environmental changes is challenging. Currently, most studies rely on process-based models to systematically explain the morphodynamic evolution of tidal flats. In this study, we proposed an alternative empirical approach to explore tidal flat dynamics using statistical indices based on long-term time series of daily surface elevation development. Surface elevation dynamic (SED) indices focus on the magnitude and period of surface elevation changes, while morphodynamic signature (MDS) indices relate sediment dynamics to environmental drivers. The statistical analyses were applied to an intervention site in the Netherlands to determine the effect of recently constructed groynes on the tidal flat. Using these analyses, we were able to (1) detect a reduction in the daily SED and (2) determine that the changes in the daily SED were predominantly caused by the reduction in wave impact between the groynes rather than the reduction in tidal currents. Overall, the presented results showed that the combination of novel statistical indices provides new insights into the trajectories of tidal flats, ecosystem functioning, and sensitivity to physical drivers (wind and tides). Finally, we suggested how the SED and MDS indices may help to explore the future trajectories and climate resilience of intertidal habitats.

Published
2023

9. Seed- versus transplant-based eelgrass (Zostera marina L.) restoration success in a temperate marine lake

Author

Cronau, Rens J.T., Fouw, J. de, Katwijk, Marieke M. van, Bouma, T.J, Heusinkveld, J.H.T., Hoeijmakers, Dieuwke, Lamers, L.P.M., Heide, T. van der, Cronau, Rens J.T., Fouw, J. de, Katwijk, Marieke M. van, Bouma, T.J, Heusinkveld, J.H.T., Hoeijmakers, Dieuwke, Lamers, L.P.M., and Heide, T. van der

Abstract

09 september 2022, Contains fulltext : 286473.pdf (Publisher’s version ) (Open Access)

Published
2023

10. Early indicators of tidal ecosystem shifts in estuaries

Author

Fivash, G.S., Temmerman, S., Kleinhans, M.G., Heuner, M., Heide, T. van der, Bouma, T.J., Fivash, G.S., Temmerman, S., Kleinhans, M.G., Heuner, M., Heide, T. van der, and Bouma, T.J.

Abstract

Contains fulltext : 293641.pdf (Publisher’s version ) (Open Access)

Published
2023

11. Gradual versus episodic lateral saltmarsh cliff erosion: evidence from Terrestrial Laser Scans (TLS) and Surface Elevation Dynamics (SED) sensors

Author

van der Wal, D., van Dalen, J., Willemsen, P.W.J.M., Borsje, B.W., Bouma, T.J., van der Wal, D., van Dalen, J., Willemsen, P.W.J.M., Borsje, B.W., and Bouma, T.J.

Abstract

As lateral erosion can threaten valuable saltmarsh habitats and their capacity to protect the hinterland from waves and floods, there is a need to understand the mechanisms of erosion. We monitored lateral saltmarsh erosion at high spatiotemporal resolution during a 2.5 year period. We performed terrestrial laser scans (TLS) with centimetric spatial resolution, ca monthly, as well as before and after 2 wind events to assess morphological change of a saltmarsh cliff (<0.8 m in height), and deployed surface elevation dynamics (SED) sensors at 3 locations to obtain daily measurements of the cliff edge position with 2 mm resolution. This was complemented by wind data, and a pressure transducer on the mudflat to obtain time-series of local inundation duration, water depth, wave height, period, power and energy. TLS shows gradual lateral erosion of the marsh edge and surface, and occasional local slumping, with substantial local variation. SED sensor data also reveal that lateral erosion was mostly continuous, with episodes with stronger and weaker local erosion, at all 3 locations, often correlated in space. Correlations between changes in total marsh area and sediment volume of the mudflat-saltmarsh interface from TLS with particularly inundation duration and wind velocity were discussed. At plot level, correlations were not consistent; correlations between the local lateral erosion rates and hydrodynamics/winds were not significant. Results emphasize the importance of common low magnitude events for long-term lateral erosion.

Published
2023

12. Editorial: Consequences of global change in coastal ecosystems from a multidisciplinary perspective

Author

Silva, R., Chávez, V., Mori, N., Bouma, T.J., Odériz, I., Silva, R., Chávez, V., Mori, N., Bouma, T.J., and Odériz, I.

Abstract

Ecosystems will play a key role in the future of our planet, as they are capable of great adaptabilty and are resilient to climate (e.g. Bulleri et al., 2018). However, they are also vulnerable to multifactorial disturbances (e.g. anthropic/Gómez et al., 2022). An ecosystem’s long-term response to global change (climate change, biodiversity loss, changes in water cycling, etc.) is also affected by the natural, epistemic, and aleatory uncertainty of the environment.The methods used to evaluate an ecosystem mean that the services it provides are difficult to quantify and predict. While ecosystem conservation strategies should come from a combination of different perspectives, they are commonly tackled via independent disciplines, such as coastal management, coastal engineering, ecology, water quality, etc. and therefore, insights into the long-term conservation of our ecosystems is still a key challenge. The starting point to address ecosystem conservation on a changing planet must be a multidisciplinary characterization of the physical and environmental context.

Published
2023

13. Faunal engineering stimulates landscape-scale accretion in southeastern US salt marshes

Author

Crotty, S.M., Pinton, D., Canestrelli, A., Fischman, H.S., Ortals, C., Dahl, N.R., Williams, S., Bouma, T.J., Angelini, C., Crotty, S.M., Pinton, D., Canestrelli, A., Fischman, H.S., Ortals, C., Dahl, N.R., Williams, S., Bouma, T.J., and Angelini, C.

Abstract

The fate of coastal ecosystems depends on their ability to keep pace with sea-level rise—yet projections of accretion widely ignore effects ofengineering fauna. Here, we quantify effects of the mussel , Geukensia demissa, on southeastern US saltmarsh accretion. Multi-season and -tidal stage surveys, in combination with field experiments, reveal that deposition is 2.8-10.7-times greater on mussel aggregations than any other marsh location. Our Delft-3D-BIVALVES model further predicts that mussels drive substantial changes to both the magnitude (±<0.1 cm·yr−1) and spatial patterning of accretion at marsh domain scales. We explore the validity of model predictions with a multi-year creekshed mussel manipulation of >200,000 mussels and find that this faunal engineer drives far greater changes to relative marsh accretion rates than predicted (±>0.4 cm·yr−1). Thus, we highlight an urgent need for empirical, experimental, and modeling work to resolve the importance of faunal engineers in directly and indirectly modifying the persistence of coastal ecosystems globally.

Published
2023

14. Can cheniers protect mangroves along eroding coastlines? – The effect of contrasting foreshore types on mangrove stability

Author

van Bijsterveldt, C.E.J., van der Wal, D., Mancheño, A.G., Fivash, G.S., Helmi, M., Bouma, T.J., van Bijsterveldt, C.E.J., van der Wal, D., Mancheño, A.G., Fivash, G.S., Helmi, M., and Bouma, T.J.

Abstract

Mangrove forests are increasingly valued as wave-attenuating buffers in coastal flood defence strategies. However, as mangroves are vulnerable to wave-induced erosion, this raises the question, how can the stability of these protective mangrove forests be promoted? To address this question, we investigate how mangrove dynamics in a microtidal system can be related to different types of foreshores. We used remote sensing to investigate mangrove fringe stability over multiple years in relation to intertidal mudflat width (i.e., emerged at low tide) and the presence stability of cheniers, which are sand bodies on top of muddy foreshores that are characteristic for eroding coastlines. In addition, we investigated local and short-term foreshore effects by measuring wave propagation across two cross-shore transects, one with a mudflat and chenier and one with a deeper tidal flat foreshore. The satellite images (Sentinel-2) revealed that mangrove dynamics over multiple years and seasons were related to chenier presence and stability. Without a chenier, a mudflat width of 110 m (95%CI: 76–183 m) was required to make mangrove expansion more likely than mangrove retreat. When a stable chenier was present offshore for two years or more, a mudflat width of only 16 m (95%CI: 0–43 m) was enough to flip chances in favor of mangrove expansion. However, mangrove expansion remained heavily influenced by seasonal changes, and was highly event driven, succeeding only once in several years. Finally, although mudflat width was a direct driver of mangrove expansion, and could be targeted as such in coastal management, our field measurements demonstrated that cheniers also have an indirect effect on mangrove expansion. These sand banks significantly reduce wave height offshore, thereby likely creating favorable conditions for mudflat accretion landward, and thus mangrove habitat expansion. This makes stabilization - and possibly also the temporary creation - of cheniers an interesting targ

Published
2023

15. Drivers of variability in Blue Carbon stocks and burial rates across European estuarine habitats

Author

Mazarrasa, I., Neto, J.M., Bouma, T.J., Grandjean, T., Garcia-Orellana, J., Masqué, P., Recio, M., Serrano, O., Puente, A., Juanes, J.A., Mazarrasa, I., Neto, J.M., Bouma, T.J., Grandjean, T., Garcia-Orellana, J., Masqué, P., Recio, M., Serrano, O., Puente, A., and Juanes, J.A.

Abstract

The implementation of climate change mitigation strategies based on the conservation and restoration of Blue Carbon ecosystems requires a deep understanding of the magnitude and variability in organic carbon (Corg) storage across and within these ecosystems. This study explored the variability in soil Corg stocks and burial rates across and within intertidal estuarine habitats of the Atlantic European coast and its relation to biotic and abiotic drivers. A total of 136 soil cores were collected across saltmarshes located at different tidal zones (high marsh, N = 45; low marsh, N = 30), seagrass meadows (N = 17) and tidal flats (N = 44), and from the inner to the outer sections of five estuaries characterized by different basin land uses. Soil Corg stocks were higher in high-marsh communities (65 ± 3 Mg ha−1) than in low-marsh communities (38 ± 3 Mg ha−1), seagrass meadows (40 ± 5 Mg ha−1) and unvegetated tidal flats (46 ± 3 Mg ha−1) whereas Corg burial rates also tended to be higher in high marshes (62 ± 13 g m−2 y−1) compared to low marshes (43 ± 15 g m−2 y−1) and tidal flats (35 ± 9 g m−2 y−1). Soil Corg stocks and burial rates decreased from inner to outer estuarine sections in most estuaries reflecting the decrease in the river influence towards the estuary mouth. Higher soil Corg stocks were related to higher content of silt and clay and higher proportion of forest and natural land within the river basin, pointing at new opportunities for protecting coastal natural carbon sinks based on the conservation and restoration of upland ecosystems. Our study contributes to the global inventory of Blue Carbon by adding data from unexplored regions and habitats in Europe, and by identifying drivers of variability across and within estuaries.

Published
2023

16. Establishing cordgrass plants cluster their shoots to avoid ecosystem engineering

Author

van de Ven, C.N., Reijers, V.C, Lammers, C., van Belzen, J., Chung, Y., Bouma, T.J., van der Heide, T., van de Ven, C.N., Reijers, V.C, Lammers, C., van Belzen, J., Chung, Y., Bouma, T.J., and van der Heide, T.

Abstract

Vegetated coastal ecosystems such as salt marshes, dunes and seagrass meadows occur at the land–sea interface—a dynamic environment typified by harsh growing conditions. These ecosystems are known as biogeomorphic landscapes because their functioning depends on biophysical interactions by which organisms engineer landforms to their own benefit. The strength of such biogeomorphic feedbacks depends on plant traits, such as stem flexibility and shoot density. Recent work demonstrated that dune grasses with similar morphological traits can build contrasting landscapes due to differences in their spatial shoot organization. However, in contrast to dune grasses that trap and stabilize sand particles in aeolian landscapes, flow attenuation in aquatic environments can generate scouring around plant stems and cause uprooting, leading to establishment thresholds for young plants. Yet, it remains unknown how findings from aeolian landscapes translate to aquatic systems and how young clonally expanding plants in hydrodynamically exposed conditions overcome these establishment thresholds by optimizing shoot placement. Here, we measured shoot patterns of 90 establishing cordgrass patches Spartina anglica at 18 European field sites that cover a broad range of hydrodynamic conditions. Next, we carried out a field experiment to investigate how observed spatial shoot patterns affect plant–sediment feedbacks. Surprisingly, field survey analyses reveal highly consistent clustered shoot patterns, regardless of environmental conditions. Experimental results demonstrate that this clustered pattern minimizes scouring compared to densely clumped organizations typically observed in established patches. Synthesis. In contrast to earlier findings highlighting that establishing dune grasses optimize their landscape engineering capacity via a flexible shoot placement strategy, we find that cordgrass instead follows a fixed strategy t

Published
2023

17. Seagrass is protected from ragworm pressure by a newly discovered grazer–ragworm interaction; implications for restoration

Author

Cronau, R.J.T., Telgenkamp, Y., Fouw, J. de, Katwijk, M.M. van, Bouma, T.J, Heusinkveld, J.H.T., Hoeijmakers, D., Lamers, L.P.M., Cronau, R.J.T., Telgenkamp, Y., Fouw, J. de, Katwijk, M.M. van, Bouma, T.J, Heusinkveld, J.H.T., Hoeijmakers, D., and Lamers, L.P.M.

Abstract

10 mei 2023, Item does not contain fulltext, 1. Coastal ecosystems are generally controlled by the combination of bottom-up (resourcedriven) and top-down (consumer-driven) trophic, and non-trophic interactions. Anthropogenic disruption of these interactions, e.g., through eutrophication or overfishing, leads to loss of the foundation species composing these ecosystems. Within degraded ecosystems, new interactions may become dominant, hampering restoration of foundation species. 2. We demonstrate this concept in saltwater Lake Grevelingen, where seagrass restoration was seriously hampered by a newly discovered non-trophic interaction between the seagrass Zostera marina and the ragworm Platynereis dumerilii. Platynereis constructs dwelling tubes between seagrass leaves by gluing and entangling them, leading to loss of biomass and increased epiphyte cover. To test the roles of epiphyte grazing (top-down) and eutrophication (bottom-up) on this newfound interaction, we executed a field experiment introducing the snail Littorina littorea under natural nutrient concentrations and Platynereis densities, and performed a full factorial mesocosm experiment applying Littorina, Platynereis and nutrient treatments. 3. Our field results show that survival of reintroduced Zostera in Lake Grevelingen is seriously hampered by Platynereis, which can be suppressed by grazer addition. 4. In our mesocosm experiment we demonstrate that top-down control by Littorina protected seagrass through two pathways: (1) mitigating bottom-up regulated epiphyte growth by trophic top-down forcing and (2) hampering the non-trophic interaction between Zostera and Platynereis by grazing epiphytes and dwelling tubes. 5. Synthesis and applications. With coastal ecosystems globally under pressure, our study emphasises the importance of understanding ecosystem-specific trophic and non-trophic key interactions when considering restoration. We show how negative interspecific interactions can become dominant in the absence of key facilitating interactions.

Published
2023

18. Seagrass ecosystem multifunctionality under the rise of a flagship marine megaherbivore

Author

Christianen, M.J.A., Smulders, F.O.H., Vonk, J.A., Becking, L.E., Bouma, T.J., Engel, S.M., James, R.K., Nava, M.I., de Smit, J.C., van der Zee, J.P., Palsbøll, P.J., Bakker, E.S., Christianen, M.J.A., Smulders, F.O.H., Vonk, J.A., Becking, L.E., Bouma, T.J., Engel, S.M., James, R.K., Nava, M.I., de Smit, J.C., van der Zee, J.P., Palsbøll, P.J., and Bakker, E.S.

Abstract

Large grazers (megaherbivores) have a profound impact on ecosystem functioning. However, how ecosystem multifunctionality is affected by changes in megaherbivore populations remains poorly understood. Understanding the total impact on ecosystem multifunctionality requires an integrative ecosystem approach, which is especially challenging to obtain in marine systems. We assessed the effects of experimentally simulated grazing intensity scenarios on ecosystem functions and multifunctionality in a tropical Caribbean seagrass ecosystem. As a model, we selected a key marine megaherbivore, the green turtle, whose ecological role is rapidly unfolding in numerous foraging areas where populations are recovering through conservation after centuries of decline, with an increase in recorded overgrazing episodes. To quantify the effects, we employed a novel integrated index of seagrass ecosystem multifunctionality based upon multiple, well-recognized measures of seagrass ecosystem functions that reflect ecosystem services. Experiments revealed that intermediate turtle grazing resulted in the highest rates of nutrient cycling and carbon storage, while sediment stabilization, decomposition rates, epifauna richness, and fish biomass are highest in the absence of turtle grazing. In contrast, intense grazing resulted in disproportionally large effects on ecosystem functions and a collapse of multifunctionality. These results imply that (i) the return of a megaherbivore can exert strong effects on coastal ecosystem functions and multifunctionality, (ii) conservation efforts that are skewed toward megaherbivores, but ignore their key drivers like predators or habitat, will likely result in overgrazing-induced loss of multifunctionality, and (iii) the multifunctionality index shows great potential as a quantitative tool to assess ecosystem performance. Considerable and rapid alterations in megaherbivore abundance (both through extinction and conservation) cause an imbalance in ecosystem

Published
2023

19. Biodegradable artificial reefs enhance food web complexity and biodiversity in an intertidal soft‐sediment ecosystem

Author

Nauta, J., Christianen, M.J.A., Temmink, R.J.M., Fivash, G.S., Marín Díaz, B., Reijers, V.C., Didderen, K., Penning, E., Borst, A.C.W., Heusinkveld, J.H.T., Zwarts, M., Cruijsen, P.M.J.M., Hijner, N., Lengkeek, W., Lamers, L.P.M., van der Heide, T., Bouma, T.J., van der Wal, D., Olff, H., Govers, L.L., Nauta, J., Christianen, M.J.A., Temmink, R.J.M., Fivash, G.S., Marín Díaz, B., Reijers, V.C., Didderen, K., Penning, E., Borst, A.C.W., Heusinkveld, J.H.T., Zwarts, M., Cruijsen, P.M.J.M., Hijner, N., Lengkeek, W., Lamers, L.P.M., van der Heide, T., Bouma, T.J., van der Wal, D., Olff, H., and Govers, L.L.

Abstract

    Reef-forming species form integral aspects of coastal ecosystems, but are rapidly degrading world-wide. To mitigate these declines, nature managers increasingly rely on the restoration of habitat-structuring, reef-forming species by, for example, introducing artificial reefs that may directly function as complex reef habitat. Since the use of biodegradable structures to restore biogenic reefs is becoming a popular technique, its effectiveness as reef habitat must be assessed. Therefore, we examine the trophic complexity on experimental large-scale biodegradable artificial reefs using food web network analysis. We placed biodegradable artificial reefs on soft-sediment intertidal flats in the Dutch Wadden Sea in a large-scale (~650 m) and 2.5-year-long experiment. We compared food web networks and biodiversity indicators between biodegradable reefs and bare controls and quantified species composition inside and near the artificial reef community to assess the expansion of the reef community. During 2.5 years, we observed that artificial reefs changed food web networks compared to bare controls: in species richness (+76%), link density (the number of interactions per species; +15%) and the fraction of basal species (species of lowest trophic level; +40%), but lowered the connectance: the realized fraction of all possible links between species (−33%). Their effects on food web networks increased over time with a higher species richness (+22%) and more complex food web (link density +13%) on the artificial reef 2.5 years after deployment compared to 1.5 years. However, the effects of the reefs did not extend beyond the reef structures; the species composition and biodiversity of macrozoobenthos near the reefs were comparable to the control. Synthesis and applications. This study shows that biodegradable artificial reefs offer an effective tool for the restoration of food web complexity and biodiversity of inter

Published
2023

20. Seed‐ versus transplant‐based eelgrass (Zostera marinaL.) restoration success in a temperate marine lake

Author

Cronau, R.J.T., de Fouw, J, van Katwijk, M.M., Bouma, T.J., Heusinkveld, J.H.T., Hoeijmakers, D., Lamers, L.P.M., van der Heide, T., Cronau, R.J.T., de Fouw, J, van Katwijk, M.M., Bouma, T.J., Heusinkveld, J.H.T., Hoeijmakers, D., Lamers, L.P.M., and van der Heide, T.

Abstract

Despite active seagrass restoration gaining traction as a tool to halt and reverse worldwide seagrass losses, overall success remains limited. Restoration strategies, through seeding or transplantation, face different environmental bottlenecks that limit success. Choosing the most appropriate strategy of the two for a specific location, however, is hampered by lack of direct practical comparisons between strategies within a single system. To investigate potential life stage dependent bottlenecks, we compared seed-based and transplant-based restoration of Zostera marina in the subtidal saltwater Lake Grevelingen. Our results demonstrate that seedling recruitment was negatively impacted by bioturbation from the lugworm Arenicola marina and sediment movement due to hydrodynamic exposure. Transplant-based restoration was clearly more successful butsurprisingly best predicted by leaf gluing by the ragworm Platynereis dumerilii. This previously undescribed interaction caused seagrass leaves to clump and reduce effective photosynthetic surface and leaf movement. We suggest that the observed behavior of these worms may result from a lack of foodweb interactions, illustrating the importance of trophic control for seagrass restoration. Thus, in addition to recognizing life stage dependent environmental bottlenecks for restoration strategy selection, seagrass restoration may also require the active recovery of their associated food webs.

Published
2023

21. Using a biodegradable substrate to increase transplantation success: Effect of density and sediment on aggregation behavior of mussels

Author

van den Bogaart, L.A., Schotanus, J., Capelle, J.J., Bouma, T.J., van den Bogaart, L.A., Schotanus, J., Capelle, J.J., and Bouma, T.J.

Abstract

Habitat restoration through transplantation of ecosystem engineering species has become an increasingly popular conservation strategy. However, the success of these restoration efforts depends largely on the ability of transplanted organisms to establish and persist in their new environment. Ecosystem engineers typically occur in large numbers and rely on self-facilitating feedback mechanisms to overcome physical and/or biological stressors for successful establishment. These feedback mechanisms can only arise when a certain density or size threshold is reached and are driven by the interplay of facilitation and competition. To initiate the establishment of self-facilitating feedback mechanism, we used biodegradable structures known as “BioShell-SMCs”. These structures are an innovation of the nylon seed mussel collectors (SMCs) commonly used in mussel cultivation. They consist of a biodegradable net based on a compound of aliphatic polyesters, filled with empty cockle shells around a coconut fiber rope. In a mesocosm experiment, we investigated competition and facilitation processes by comparing aggregation and performance between loose seeded blue mussels (Mytilus edulis) and mussels already attached to the BioShell-SMC at two different densities (high vs. low) and two sediment compositions (mud vs shell). Our results revealed that mussels attached to the BioShell-SMC showed more pronounced clustering compared to loose mussels, particularly in low density. Mussels in high density attached to the BioShell-SMC dispersed from the SMC on both sediment compositions. Furthermore, transplanted mussels attached to the BioShell-SMC showed higher survival rates and had a better condition than loose mussels. Overall, our study emphasizes the importance of considering ecological processes such as competition and facilitation when designing and implementing restoration projects. It provides a case for optimizing transplantation success of ecosystem engineers by includin

Published
2023

22. Perenbomen in de Waddenzee

Author

Dickson, J., Franken, O., Watson, M.S., Mönnich, B., Holthuijsen, S.J., Eriksson, B.K., Govers, L.L., Heide, T. van der, Bouma, T.J., Smeele, Q., Brinkman, N., Dickson, J., Franken, O., Watson, M.S., Mönnich, B., Holthuijsen, S.J., Eriksson, B.K., Govers, L.L., Heide, T. van der, Bouma, T.J., Smeele, Q., and Brinkman, N.

Abstract

Als experiment construeerde NIOZ-promovendus Jon Dickson met behulp van dode perenbomen een aantal kunstmatige riffen. Deze zijn op meerdere locaties in de Waddenzee geplaatst. Al na enkele maanden bleken deze riffen onderdak te bieden aan allerlei soorten dieren. In vergelijking met controlelocaties werden er meer vissoorten en grotere aantallen vissen waargenomen. Mogelijk kunnen dergelijke riffen in de toekomst een belangrijke bijdrage leveren aan de onderwaternatuur van de Waddenzee.

Published
2023

23. Can cheniers protect mangroves along eroding coastlines? – The effect of contrasting foreshore types on mangrove stability

Author

van Bijsterveldt, Celine E.J. (author), van der Wal, Daphne (author), Gijón Mancheño, A. (author), Fivash, Gregory S. (author), Helmi, Muhammad (author), Bouma, T.J. (author), van Bijsterveldt, Celine E.J. (author), van der Wal, Daphne (author), Gijón Mancheño, A. (author), Fivash, Gregory S. (author), Helmi, Muhammad (author), and Bouma, T.J. (author)

Abstract

Mangrove forests are increasingly valued as wave-attenuating buffers in coastal flood defence strategies. However, as mangroves are vulnerable to wave-induced erosion, this raises the question, how can the stability of these protective mangrove forests be promoted? To address this question, we investigate how mangrove dynamics in a microtidal system can be related to different types of foreshores. We used remote sensing to investigate mangrove fringe stability over multiple years in relation to intertidal mudflat width (i.e., emerged at low tide) and the presence stability of cheniers, which are sand bodies on top of muddy foreshores that are characteristic for eroding coastlines. In addition, we investigated local and short-term foreshore effects by measuring wave propagation across two cross-shore transects, one with a mudflat and chenier and one with a deeper tidal flat foreshore. The satellite images (Sentinel-2) revealed that mangrove dynamics over multiple years and seasons were related to chenier presence and stability. Without a chenier, a mudflat width of 110 m (95%CI: 76–183 m) was required to make mangrove expansion more likely than mangrove retreat. When a stable chenier was present offshore for two years or more, a mudflat width of only 16 m (95%CI: 0–43 m) was enough to flip chances in favor of mangrove expansion. However, mangrove expansion remained heavily influenced by seasonal changes, and was highly event driven, succeeding only once in several years. Finally, although mudflat width was a direct driver of mangrove expansion, and could be targeted as such in coastal management, our field measurements demonstrated that cheniers also have an indirect effect on mangrove expansion. These sand banks significantly reduce wave height offshore, thereby likely creating favorable conditions for mudflat accretion landward, and thus mangrove habitat expansion. This makes stabilization - and possibly also the temporary creation - of cheniers an interesting t, Hydraulic Structures and Flood Risk

Published
2023
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25. Sand nourishments to mitigate the eco-morphological losses caused by storm surge barriers

Author

de Vet, P.L.M., van der Werf, J.J., van Prooijen, B.C., de Bakker, A.T.M., Walles, B., Bouma, T.J., Ysebaert, T., van Zanten, E., Wang, Z.B., and Water systems

Subjects
NLA
Abstract

Storm surge barriers (SSBs) protect the hinterland of estuaries against flooding, while in open state the tidal dynamics are maintained to some extent. Even when tidal dynamics are maintained, tidal conditions are inevitably affected by the confinement of the flow. As a result, intertidal flats – providing important ecosystem services – face losses through erosion. In this work, we integrated research on (1) morphological consequences of the Eastern Scheldt SSB (The Netherlands, 1987) and (2) intertidal flat nourishments mitigating these negative eco-morphological consequences. Through decades of data, we show that the SSB induced persistent erosion. We have demonstrated that sand nourishments on tidal flats can effectively mitigate SSB-induced erosion and ecological consequences. We have found that net lowering of tidal flats in systems as the Eastern Scheldt will proceed, also given accelerated sea level rise. Even though tidal flat nourishments are an effective mitigation strategy, we urge to steer first on minimizing irreversible hydromorphological changes caused by future SSB projects (e.g., considered for Galveston Bay). Through monitoring data on intertidal flat sand nourishments in this system, we identify the potential of these mitigation measures and provide recommendations for future SSB deployments and mitigation.

Published
2023

29. Seagrass roots strongly reduce cliff erosion rates in sandy sediments

Author

Infantes, E., Hoeks, Sel., Adams, M.P., Heide, T. van der, Katwijk, M.M. van, Bouma, T.J., Van der Heide group, and Conservation Ecology Group

Subjects
Plant biomass, Coastal management, Ecology, Restoration, Sediment dynamics, Zostera marina, Aquatic Science, Coastal erosion, Roots, Seagrass ecology, Ecology, Evolution, Behavior and Systematics, Environmental Sciences, Wave exposure
Abstract

Vegetated coastal ecosystems such as saltmarshes, mangroves and seagrass beds are increasingly promoted as sustainable storm and flood defence solutions by reducing wave energy. Yet, there is still intense debate on the ability of root mats to mitigate erosion, with some studies arguing that the direct contribution of roots in preventing sediment erosion is minor, while others consider them of major importance. Here, we hypothesized that the contrasting findings on the role of seagrass root mats in preventing erosion may stem from differences in sediment type. To test this idea, we investigated how root mats of seagrass that thrives in both sandy and muddy sediments mitigate wave-induced cliff erosion using Zostera marina in manipulative flume experiments. Results demonstrate that roots are very effective in reducing cliff erosion rates in sandy sediments. Cliff erosion rates were reduced up to 70% in sandy sediment with high seagrass root biomass. In contrast, cliff erosion rates in cohesive muddy sediments were low and unaffected by seagrass roots. This highlights the important role of seagrass roots in erosion mitigation, which has been overlooked compared to the role of canopies, which has received more attention. We suggest that management strategies should be developed to enhance the stabilization of sandy sediment, such as (1) using species with high belowground biomass, (2) using fast-growing pioneer species and (3) applying temporary stabilising measures.

Published
2022

32. Initiating and upscaling mussel reef establishment with life cycle informed restoration: Successes and future challenges

Author

Temmink, R.J.M., Fivash, Gregory S., Govers, L.L., Nauta, J., Marin-Diaz, M., Cruijsen, P.M.J.M., Didderen, K., Penning, E., Olff, H., Heusinkveld, J.H.T., Lamers, L.P.M., Lengkeek, W., Christianen, M.J.A., Reijers, V.C., Bouma, T.J, Heide, T. van der, Temmink, R.J.M., Fivash, Gregory S., Govers, L.L., Nauta, J., Marin-Diaz, M., Cruijsen, P.M.J.M., Didderen, K., Penning, E., Olff, H., Heusinkveld, J.H.T., Lamers, L.P.M., Lengkeek, W., Christianen, M.J.A., Reijers, V.C., Bouma, T.J, and Heide, T. van der

Abstract

Contains fulltext : 240937.pdf (Publisher’s version ) (Open Access)

Published
2022

34. Using a clustering algorithm to identify patterns of valve-gaping behaviour in mussels reared under different environmental conditions

Author

Bertolini, C., Capelle, J., Royer, E., Milan, M., Witbaard, R., Bouma, T.J., Pastres, R., Bertolini, C., Capelle, J., Royer, E., Milan, M., Witbaard, R., Bouma, T.J., and Pastres, R.

Abstract

Physiological adaptations for inhabiting transitional environments with strongly variable abiotic conditions can sometimes be displayed as behavioural shifts. A striking example might be found in bivalve species that inhabit estuaries characterised by fluctuations in environment. The opening and closing of their valves, so called gaping activity, represents behaviour that is required for two key physiological functions: food intake and respiration. Linking valve-gaping behaviour to environmental drivers can greatly improve our understanding and modelling of bivalve bioenergetics . Nowadays large data sets on gaping activity can be collected with automated sensors, but interpretation is difficult due to the large amount of environmental drivers and the intra-individual variability. This study aims to understand whether an unsupervised machine learning method (k-means clustering) can be used to identify patterns in gaping activity. Two commercially important congener mussels , Mytilus galloprovincialis and Mytilus edulis

Published
2022

35. Wave attenuation through forests under extreme conditions

Author

van Wesenbeeck, B.K., Wolters, G., Antolínez, J.A.A., Kalloe, S.A., Hofland, B., de Boer, W.P., Çete, C., Bouma, T.J., van Wesenbeeck, B.K., Wolters, G., Antolínez, J.A.A., Kalloe, S.A., Hofland, B., de Boer, W.P., Çete, C., and Bouma, T.J.

Abstract

Worldwide, communities are facing increasing flood risk, due to more frequent and intense hazards and rising exposure through more people living along coastlines and in flood plains. Nature-based Solutions (NbS), such as mangroves, and riparian forests, offer huge potential for adaptation and risk reduction. The capacity of trees and forests to attenuate waves and mitigate storm damages receives massive attention, especially after extreme storm events. However, application of forests in flood mitigation strategies remains limited to date, due to lack of real-scale measurements on the performance under extreme conditions. Experiments executed in a large-scale flume with a willow forest to dissipate waves show that trees are hardly damaged and strongly reduce wave and run-up heights, even when maximum wave heights are up to 2.5 m. It was observed for the first time that the surface area of the tree canopy is most relevant for wave attenuation and that the very flexible leaves limitedly add to effectiveness. Overall, the study shows that forests can play a significant role in reducing wave heights and run-up under extreme conditions. Currently, this potential is hardly used but may offer future benefits in achieving more adaptive levee designs.

Published
2022

36. Progress report: Rammegors tidal restoration: Phase 2

Author

Hamer, A., Walles, B., van Belzen, J., Bouma, T.J., de Louw, P., van Dalen, J., Bax, V., van de Langewege, W., Hamer, A., Walles, B., van Belzen, J., Bouma, T.J., de Louw, P., van Dalen, J., Bax, V., and van de Langewege, W.

Published
2022

37. Increasing spatial dispersion in ecosystem restoration mitigates risk in disturbance‐driven environments

Author

Fivash, G.S., van Belzen, J., Temmink, R.J.M., Didderen, K., Lengkeek, W., van der Heide, T., Bouma, T.J., Fivash, G.S., van Belzen, J., Temmink, R.J.M., Didderen, K., Lengkeek, W., van der Heide, T., and Bouma, T.J.

Abstract

Many vegetated ecosystems, including drylands, coastal dunes, salt marshes and seagrass meadows, inhabit environments frequently disturbed by the erosive forces of wind and water. Once degraded, the restoration of these systems entails a high-risk of failure due to the uncertainty in timing and intensity of future disturbances. Risk-mitigation strategies like bet-hedging (i.e., spreading risk over diverse options) have been proven in cross-disciplinary contexts to optimize yield when uncertainty is high. Yet restoration designs commonly homogenize resources by planting vegetation of similar sizes in grid-like patterns. This decision may unwittingly contribute to the high rate of restoration failure in these environments.Using numerical simulations mimicking vegetation patch dynamics, we demonstrate how avoiding uniform planting designs substantially improves the likelihood of restoration success.These simulations also suggest that the intrinsic risk of failure associated with any planting pattern can be identified a priori by calculating the variance-to-mean ratio of vegetation cover.Synthesis and applications. By introducing a level of spatial overdispersion (variance in vegetation clustering) into restoration planting designs, projects will insure themselves against the uncertainty imposed by disturbances, limited by their willingness to accept a lower rate of recolonization.

Published
2022

38. Modeling decadal salt marsh development: variability of the salt marsh edge under influence of waves and sediment availability

Author

Willemsen, P.W.J.M., Smits, B.P., Borsje, B.W., Herman, P.M.J., Dijkstra, J.T., Bouma, T.J., Hulscher, S.J.M.H., Willemsen, P.W.J.M., Smits, B.P., Borsje, B.W., Herman, P.M.J., Dijkstra, J.T., Bouma, T.J., and Hulscher, S.J.M.H.

Abstract

Salt marshes can contribute to coastal protection, but the magnitude of the protection depends on the width of the marsh. The cross-shore width of the marsh is to a large extent determined by the delicate balance between seaward expansion and landward retreat. The influence of the magnitude of daily occurring mild weather conditions and sediment availability on the variability of salt marsh width has not been systematically assessed. This paper investigates how the magnitude of homogeneous hydrodynamic forcing, combined with sediment availability, affects the biophysical development, and more specifically retreat and expansion of salt marshes. The dynamic extent of the salt marsh is assessed by modeling online-coupled hydrodynamics, morphodynamics and vegetation growth using the numerical Delft3D-Flexible Mesh model, and a vegetation growth module. Simulated patterns around the salt marsh edge resembled field observations, as well as the simulated temporal variability of the lateral position of the salt marsh edge. In the model, the salt marsh extended seaward at low wave forcing (0.00 m; 0.05 m), and retreated landward at higher wave forcing (0.10 m; 0.15 m). With increasing physical stress, the salt marsh edge was found at lower elevations, indicating an unhealthy system with a retreating marsh edge due to vegetation mortality, whereas decreasing physical stresses result in a higher salt marsh edge, enabling expansion. This balance suggests the importance of response time of vegetation to physical stress. Yet, the salt marsh forced with higher waves was able to switch from a retreating extent retrogradational to an expansional behavior as sediment supply increased.

Published
2022

39. A probabilistic framework for windows of opportunity: the role of temporal variability in critical transitions

Author

van Belzen, J., Fivash, G.S., Hu, Z., Bouma, T.J., Herman, P.M.J., van Belzen, J., Fivash, G.S., Hu, Z., Bouma, T.J., and Herman, P.M.J.

Abstract

The establishment of young organisms in harsh environments often requires a window of opportunity (WoO). That is, a short time window in which environmental conditions drop long enough below the hostile average level, giving the organism time to develop tolerance and transition into stable existence. It has been suggested that this kind of establishment dynamics is a noise-induced transition between two alternate states. Understanding how temporal variability (i.e. noise) in environmental conditions affects establishment of organisms is therefore key, yet not well understood or included explicitly in the WoO framework. In this paper, we develop a coherent theoretical framework for understanding when the WoO open or close based on simple dichotomous environmental variation. We reveal that understanding of the intrinsic timescales of both the developing organism and the environment is fundamental to predict if organisms can or cannot establish. These insights have allowed us to develop statistical laws for predicting establishment probabilities based on the period and variance of the fluctuations in naturally variable environments. Based on this framework, we now get a clear understanding of how changes in the timing and magnitude of climate variability or management can mediate establishment chances.

Published
2022

40. Evaluating a novel biodegradable lattice structure for subtropical seagrass restoration

Author

MacDonnell, C., Tiling, K., Encomio, V., van der Heide, T., Teunis, M., Wouters, L., Didderen, K., Bouma, T.J., Inglett, P.W., MacDonnell, C., Tiling, K., Encomio, V., van der Heide, T., Teunis, M., Wouters, L., Didderen, K., Bouma, T.J., and Inglett, P.W.

Abstract

While attention in coastal ecosystem restoration has increased over the last two decades, the success rate of efforts remains relatively low. To increase success rates, physical restoration techniques often utilize supporting or protective materials to provide a stable surface for transplantation, and in some cases reduce herbivory and hydrodynamic disturbances. In this study, we evaluated the effectiveness of traditional (staples, burlap) and novel (BESE- elements, a biodegradable potato starch lattice) physical restoration techniques on the growth of transplanted Halodule wrightii seagrass . A first experiment revealed that seagrass planted in both two-stacked BESE structure without planting holes and four-stacked BESE with holes had significantly higher shoot count and blade length than four-stacked BESE without holes, with the latter design losing all seagrass shortly after deployment as shoots could not float through the structure. In a second experiment, the BESE lattice treatment (four-stacked with holes) had three times the shoot count and equal to greater blade length compared to traditional methods of physical restoration (staples and burlap), likely due to BESE providing some protection from hydrodynamic activity. However, disturbances, possibly including herbivory and hydrodynamic activity (culminating with Hurricane Irma), prevented long term study, illustrating the importance o

Published
2022

41. To plant or not to plant: When can planting facilitate mangrove restoration?

Author

van Bijsterveldt, C.E.J., Debrot, A.O., Bouma, T.J., Maulana, M.B., Pribadi, R., Schop, J., Tonneijck, F.H., van Wesenbeeck, B.K., van Bijsterveldt, C.E.J., Debrot, A.O., Bouma, T.J., Maulana, M.B., Pribadi, R., Schop, J., Tonneijck, F.H., and van Wesenbeeck, B.K.

Abstract

Global change processes such as sea level rise and the increasing frequency of severe storms threaten many coastlines around the world and trigger the need for interventions to make these often densely-populated areas safer. Mangroves could be implemented in Nature-Based Flood Defense, provided that we know how to conserve and restore these ecosystems at those locations where they are most needed. In this study, we investigate how best to restore mangroves along an aquaculture coast that is subject to land-subsidence, comparing two common mangrove restoration methods: 1) mangrove restoration by planting and 2) Ecological Mangrove Restoration (EMR); the assistance of natural mangrove regeneration through mangrove habitat restoration. Satellite data revealed that historically, landward mangrove expansion into the active pond zone has mainly occurred through mangrove planting on pond bunds. However, there is potential to create greenbelts along waterways by means of EMR measures, as propagule trap data from the field revealed that propagules of pioneer species were up to 21 times more abundant in creeks of the pond zone than near their source in the coastal zone. This was especially true during the prevailing onshore winds of the wet-season, suggesting that smart seasonal sluice gate management could help to efficiently trap seeds in target ponds. In the coastal zone, field experiments showed that permeable brushwood dams, aimed at expanding mangrove habitat, could not sufficiently overcome subsidence rates to increase natural mangrove expansion in the seaward direction, but did significantly increase the survival of already established (planted) seedlings compared to more wave-exposed sites. The survival and growth rate of EMR-supported plantings greatly varied between species. Out of the four planted species, Rhizophora mucronata had the highest survival(67%) but the lowest growth rate. Whereas the pioneer species Avicennia alba and Avicenni

Published
2022

42. Thermal stress affects bioturbators' burrowing behavior: A mesocosm experiment on common cockles (Cerastoderma edule)

Author

Zhou, Z., Bouma, T.J., Fivash, G.S., Ysebaert, T., van Ijzerloo, L.P., van Dalen, J., van Dam, B., Walles, B., Zhou, Z., Bouma, T.J., Fivash, G.S., Ysebaert, T., van Ijzerloo, L.P., van Dalen, J., van Dam, B., and Walles, B.

Abstract

The intensity of marine heatwaves is increasing due to climate change. Heatwaves may affect macroinvertebrates' bioturbating behavior in intertidal areas, thereby altering the deposition-erosion balance at tidal flats. Moreover, small-scale topographic features on tidal flats can create tidal pools during the low tide, thus changing the heat capacity of tidal flats. These pools could then potentially operate as refuge environments during marine heatwaves. We studied behavior responses to heat waves using the well-known bioturbating cockle Cerastoderma edule as a model species. Different temperature regimes (i.e., fluctuating between 20 and 40 °C) and micro-topographies (i.e., presence vs. absence of tidal water pools) were mimicked in a mesocosm experiment with regular tidal regimes. Our results demonstrate that behavioral responses to heat stress strongly depend on the site-specific morphological features. Cockles covered by shallow water pools moved up when exposed to thermal stress, while burrowing deeper into the sediment in the absence of water pools. But in both cases, their migratory behavior increased under heat stress compared to regular ambient treatments. Moreover, long-term cumulative heat stress increased cockles' respiration rates and decreased their health conditions, causing mass mortality after four weeks of gradually increasing heat exposure. Overall, the present findings provide the first insights into how bioturbating behavior on tidal flats may change in response to global warming.

Published
2022

43. Wind exposure and sediment type determine the resilience and response of seagrass meadows to climate change

Author

de Smit, J.C., Bin Mohd Noor, M.S., Infantes, E., Bouma, T.J., de Smit, J.C., Bin Mohd Noor, M.S., Infantes, E., and Bouma, T.J.

Abstract

Seagrasses and bare sediment represent alternative stable states, with sediment resuspension being a key driver of system stability via the Seagrass–Sediment–Light (SSL) feedback. We explore the SSL feedback by quantifying the sediment stabilization by seagrass, and using these measurements to calculate under which conditions seagrass ends up in a turbid environment. We quantified in-situ sediment resuspension velocity thresholds (ucr) for Zostera marina growing inmedium to fine sand, using a field flume inducing near-bed wave motion. ucr was determined for full length shoots, shoots clipped to 0.08 m, and removed shoots. We found that rhizomes did notinfluence ucr of the top sediment layer. Overall, ucr was linearly related to blade area, which became independent for sediment type when normalizing ucr forthe resuspension threshold after shoot removal. Comparing measured ucr against natural wave conditions showed that the seagrass meadow at the study site is currently stable. Exploring the effects of changing hydrodynamic conditions revealed that effects of increasing storminess has limited influence on sediment resuspension and thus the SSL-feedback. Increasing mean wind velocity had a strongerinfluence on SSL-feedback dynamics by causing more frequent exceedance of ucr. The response of seagrasses to increasing wind pressure depends on bay topography. A fully exposed Z. marina meadow under low initial turbidity pressure trended toward bistability, as turbidity pressure increased mainly on bare sediments. The study site and a fully exposed Z. marina meadow under high initial turbidity pressure saw an increase in turbidity across all blade areas.

Published
2022

44. Effect of artificial seagrass on hydrodynamic thresholds for the early establishment of Zostera marina

Author

Carus, J., Arndt, C., Bouma, T.J., Schröder, B., Paul, M., Carus, J., Arndt, C., Bouma, T.J., Schröder, B., and Paul, M.

Abstract

Seagrass meadows have disappeared on many coastal sections due to anthropogenic disturbances, diseases, and/or eutrophication. To facilitate informed seagrass restoration, we i) quantified the hydrodynamic dislodgement thresholds for newly transplanted Z. marina shoots, and ii) tested the effect of artificial seagrass (ASG) as hydrodynamicprotection measure. Experiments were carried out by planting Z. marina rhizomes with living shoots into a sediment bed and exposing them to a range of wave and current conditions in a flume. The use of ASG significantly reduced wave height, as well as current velocity. The applied waves led to the development of ripples whereas currents led to erosion of the sediment bed. The number of shoots that were uprooted and dislodged increased with increasing bed shear stress and erosion. By reducing bed shear stress, the ASG raised the input current velocity threshold, which the transplanted shoots were able to withstand. The present study offers insight into the effect of artificial seagrass (ASG) on wave and current attenuation, as well as sediment erosion and shoot dislodgement. Our results help to inform on hydrodynamic thresholds for the early establishment of Z. marina and to define the improvement of hydrodynamic conditions by ASG.

Published
2022

45. Facilitating salt marsh restoration: the importance of event-based bed level dynamics and seasonal trends in bed level change

Author

Willemsen, P.W.J.M., Horstman, E.M., Bouma, T.J., Baptist, M.J., van Puijenbroek, M.E.B., Borsje, B.W., Willemsen, P.W.J.M., Horstman, E.M., Bouma, T.J., Baptist, M.J., van Puijenbroek, M.E.B., and Borsje, B.W.

Abstract

Intertidal salt marshes provide a range of valuable ecosystem services which typically increase with marsh width. Understanding the drivers for salt marsh expansion versus retreat is thus key to managers. Previous research highlights the influence of short-term (daily/event) bed level dynamics on germination and establishment and subsequent vegetation presence. However, more recent literature suggests the importance of medium-term seasonal bed level dynamics on viable seed availability and subsequent vegetation presence. This study aims to assess event-based and seasonal bed level dynamics for vegetation presence in natural and semi-natural salt marshes and to provide generic thresholds for vegetation presence. To gain insight into bed level dynamics, data was used from autonomous Optical and Acoustic Surface Elevation Dynamics sensors (O-SED and A-SED) around the edge of natural and semi-natural salt marshes. Sensors were installed at vegetated and unvegetated measurement station Field observations from 22 O-SEDs deployed at 4 well-established natural salt marshes in the Western Scheldt estuary and 4 O-SEDs at a well-established semi-natural salt marsh in the Wadden Sea were reanalyzed. Six novel A-SEDs were deployed at a pioneer semi-natural salt marsh in the Ems-Dollard Estuary. The measurement duration at all salt marshes was at least 1 year. The A-SED sensor was successfully validated against manual measurements. Furthermore, vegetation data and water level data were obtained. No significant difference was observed between natural and semi-natural salt marshes. However, a significant difference between vegetated and unvegetated measurement stations for short-term bed level dynamics was observed. Vegetation was found to be present at locations restricted by short-term bed level variability smaller than or equal to 12 mm, emphasizing the presence of a short-term threshold. Although trends in the non-growing season were significantly different between vegetated an

Published
2022

46. Identifying trait‐based tolerance to sediment dynamics during seedling establishment across eight mangrove species

Author

van Hespen, R., Hu, Z., Peng, Y., Zhu, Z., Ysebaert, T., Bouma, T.J., van Hespen, R., Hu, Z., Peng, Y., Zhu, Z., Ysebaert, T., and Bouma, T.J.

Abstract

Mechanical disturbance from waves and sediment dynamics is a key bottleneck to mangrove seedling establishment. Yet, how species vary in tolerance to sediment dynamics has not been quantified. We identified how tolerance to sediment dynamics differs for three mangrove propagule traits: propagule size, successional stage, and type of embryo development. We selected eight mangrove species growing in south China that vary from small seeds to large elongated propagules, pioneer to climax species, and non-viviparous to viviparous. In a mesocosm set-up, we applied bed level treatments to establishing seedlings: erosion, control, or accretion, by removing 2 cm, 0 cm, or adding 1 cm of sediment per week over 3 weeks. We measured seedling survival, shoot, and root lengths, and the critical erosion depth that leads toppling or dislodgement. We identified five relationships between seedling morphology and accretion and erosion thresholds: (1) tall (viviparous) propagules likely had highest accretion thresholds; (2) small pioneer propagules grew relatively fast to increase accretion thresholds; (3) there was a strong correlation between the erosion threshold and root length; and (4) climax species grew longest roots overall, (5) while pioneer species grew longer roots fast in response to sediment erosion. We identify distinct strategies for successful establishment in sediment dynamics that contribute to understanding mangrove zonation and underpin the importance of restoring diverse forests containing not just robust climax species, but also adaptable pioneers. Furthermore, this study reveals maximum shoot and root length as key determinants for seedling stability across species, providing a simple proxy for modeling establishment events.

Published
2022

47. ‘Mother knows best’: Maternal oviposition effects of a range‐expanding insect herbivore degrade coastal wetlands by targeting juvenile foundation plant species

Author

Ning, Z., Chen, C., Cui, B., Zhang, Y., Xie, T., Wang, Q., Zhu, Z., Bai, J., Bouma, T.J., Ning, Z., Chen, C., Cui, B., Zhang, Y., Xie, T., Wang, Q., Zhu, Z., Bai, J., and Bouma, T.J.

Abstract

Species range expansion induced by climate change and human activities threaten native populations and communities across the biosphere. Insect herbivores, important consumers of plants, are known to expand or contract their range under global change, with potential consequences to the newly reached environment. The selection of oviposition sites by herbivorous insects could notably impact offspring performance. However, the role of such effects in impacting the receiving ecosystem has been rarely explored. Here, we provide the first evidence showing that a terrestrial range-expanding phytophagous wood-borer moth (Zeuzera leuconotum Butler) heavily attacked the saplings of a foundation plant species tamarisk (Tamarix chinensis) in salt marshes. Long-term field surveys and laboratory behaviour experiments revealed that the oviposition preference of adult females was beneficial to their larval performance. The preference to oviposit on young branches of the new host plants, which were often softer and contained enough nutrients for larval development, indicates that females could still make the right choice on novel host-plants. This finding supports the ‘mother knows best’ hypothesis that female insects will evolve to oviposit on hosts on which their offspring fare best. Consequently, the survival of host-plant saplings decreased dramatically under this top-down control, revealing that herbivory of this range-expanding insect has a profound negative impact on the recruitment and succession of coastal foundation species, thereby potentially leading to saltmarsh degradation. These findings highlight the importance of the maternal oviposition effects in range-expanding insects and how these populations can establish using novel host-plants and threaten coastal wetlands.

Published
2022

48. Unraveling the wheel of recruitment for salt-marsh seedlings: Resistance to and recovery after dislodgement

Author

Zhao, Z., Zhang, L., Yuan, L., Bouma, T.J., Zhao, Z., Zhang, L., Yuan, L., and Bouma, T.J.

Abstract

Elucidating bottlenecks at critical life stages and quantifying associated resilience (including resistance and recovery) to physical processes are central in inform restoration and attain sustainable development of coastal biogeomorphic ecosystems. Seedling establishment is a key life stage determines saltmarsh restoration potentials. However, the resilience of these recruits, especially through recovery, remains poorly understood. Here, two contrasting globally occurring saltmarsh species, namely Salicornia europaea and Spartina anglica, were employed to generate insights in i) seedling resistance against dislodgement, and ii) seedling recovery potential after dislodgement. Regarding resistance, we found that 1) root-shoot antagonism characterizes the growth rate of seedling resistance to dislodgement through hydraulic disturbance, 2) the root length determines seedling resistance to dislodgement through sheet erosion; 3) a 5 mm sedimentary setting amplifies seedling resistance without inhibiting their morphological evolution. Regarding recovery, we found that 4) dislodged seedlings have a high probability for achieving long-distance dispersal; 5) seedling age and the inundation-free period regulate the re-establishment potential of dislodged seedlings. Overall, S. anglica showed stronger resilience than S. europaea, characterized by stronger seedling resistance against dislodgement and higher re-establishment potential. Our results on seedling resilience suggest that seedling dislodgement is not an end-of-life cycle but a new spin on the “Wheel of Recruitment”, a proposed short-term cyclic behavior with alternating phases of seedling dislodgement, dispersal, and (re-)establishment. The Wheel of Recruitment concept is important for forecasting resilience and persistence of biogeomorphic systems such as salt marshes under global change and for guiding life cycle informed restoration.

Published
2022

49. Stability of a Tidal Marsh Under Very High Flow Velocities and Implications for Nature-Based Flood Defense

Author

Schoutens, K., Stoorvogel, M., van den Berg, M., van den Hoven, K., Bouma, T.J., Aarninkhof, S., Herman, P.M.J., van Loon-Steensma, J.M., Meire, P., Schoelynck, J., Peeters, P., Temmerman, S., Schoutens, K., Stoorvogel, M., van den Berg, M., van den Hoven, K., Bouma, T.J., Aarninkhof, S., Herman, P.M.J., van Loon-Steensma, J.M., Meire, P., Schoelynck, J., Peeters, P., and Temmerman, S.

Abstract

Nature-based strategies, such as wave attenuation by tidal marshes, are increasingly proposed as a complement to mitigate the risks of failure of engineered flood defense structures such as levees. However, recent analysis of historic coastal storms revealed smaller dike breach dimensions if there were natural, high tidal marshes in front of the dikes. Since tidal marshes naturally only experience weak flow velocities (~0-0.3 ms-1 during normal spring tides), we lack direct observations on the stability of tidal marsh sediments and vegetation under extreme flow velocities (order of several ms-1) as may occur when a dike behind a marsh breaches. As a first approximation, the stability of a tidal marsh sediment bed and winter-state vegetation under high flow velocities were tested in a flume. Marsh monoliths were excavated from Phragmites australis marshes in front of a dike along the Scheldt estuary (Dutch-Belgian border area) and installed in a 10 m long flume test section. Both sediment bed and vegetation responses were quantified over 6 experimental runs under high flow velocities up to 1.75 ms-1 and water depth up to 0.35 m for 2 hours. These tests showed that even after a cumulative 12 hours exposure to high flow velocities, erosion was limited to as little as a few millimeters. Manual removal of the aboveground vegetation did not enhance the erosion either. Present findings may be related to the strongly consolidated, clay- and silt-rich sediment and P. australis root system in this experiment. During the flow exposure, the P. australis stems were strongly bent by the water flow, but the majority of all shoots recovered rapidly when the flow had stopped. Although present results may not be blindly extrapolated to all other marsh types, they do provide a strong first indication that marshes can remain stable under high flow conditions, and confirm the potential of well-developed tidal marshes as a valuable extra natural barrier reducing flood discharges towards

Published
2022

50. Traits of tidal marsh plants determine survival and growth response to hydrodynamic forcing: implications for nature-based shoreline protection

Author

Schoutens, K., Luys, P., Heuner, M., Fuchs, E., Minden, V., Schulte-Ostermann, T., Bouma, T.J., van Belzen, J., Temmerman, S., Schoutens, K., Luys, P., Heuner, M., Fuchs, E., Minden, V., Schulte-Ostermann, T., Bouma, T.J., van Belzen, J., and Temmerman, S.

Abstract

Tidal marshes are increasingly valued for their nature-based shoreline protection function, as they reduce waves, currents and erosion. The effectiveness of this function depends on the ability of tidal marsh plants to grow and survive under pressure from waves and currents. However, how this varies with species-dependent plant traits is poorly understood. We performed a field transplantation experiment to quantify species-specific growth responses to different levels of hydrodynamic exposure and tidal inundation for 3 NW European marsh species: Schoenoplectus tabernaemontani, Bolboschoenus maritimus and Phragmites australis. In this order, these species showed increasing shoot stiffness, length and biomass, which are traits that increase hydrodynamic drag forces experienced by plants. Increased exposure to tidal inundation and hydrodynamics reduced the growth of all 3 species, but species with lower biomass and shorter, thinner and more flexible shoots could better cope with higher hydrodynamic exposure and tidal inundation. Furthermore, transplants of S. tabernaemontani (i.e. the species with the lowest shoot stiffness, length and biomass that survived under all tested conditions) developed smaller, thinner and more flexible shoots in response to higher hydrodynamic exposure and inundation. Hence our study indicates that similar inter- and intra-specific plant traits drive plant growth in response to hydrodynamics and inundation. This suggests that the spatial distribution of species typically observed in tidal marshes results not only from species-specific tolerance to tidal inundation gradients but also from hydrodynamic gradients. Allowing enough space for development of species zonation may be important to increase the efficiency of nature-based shoreline protection by tidal marshes.

Published
2022

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