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1. Evaluation of a Multi-Component Phenotype Algorithm for Systemic Lupus Erythematosus across the PCORnet, OMOP, and i2b2 Common Data Models

Author

Steven Tran, Luke Rasmussen, Jennifer Pacheco, Philip Silberman, Martin Borsje, Prasanth Nannapaneni, Daniel Schneider, Yuan Luo, Abel Kho, Rosalind Ramsey-Goldman, and Theresa Walunas

Subjects
Demography. Population. Vital events, HB848-3697
Abstract

The aim of this study was to evaluate the performance of a computable phenotype for systemic lupus erythematosus (SLE) patients when it is ported from a local data warehouse to the i2b2, OMOP, and PCORnet CDMs. We adapted the SLE phenotype to the Northwestern Medicine (NM) Enterprise Data Warehouse (EDW) and NU i2b2, OMOP, and PCORnet instances. Each of the phenotype’s 17 components were determined by a rules-based algorithm built on diagnosis, medication, lab, and procedure codes. We assessed the phenotype over 168 clinician-confirmed SLE patients and 100 healthy controls and calculated agreement between the EDW and CDMs for overall SLE classification, individual SLICC criteria membership, and individual code occurrence level aggregates - count, first and last date, lab values using Cohen’s kappa (Cκ) and intraclass correlation coefficients (ICC). For overall SLE classification, agreement of the OMOP and PCORnet datamarts with the EDW was high (Cκ 0.928, 0.802, respectively) while that of i2b2 was low (Cκ 0.328). For the panel of SLICC criteria, OMOP had high agreement for 14/17 SLICC criteria (Cκ 0.792-1.000). PCORnet had high agreement for 13/17 criteria (Cκ 0.708-1.000). i2b2 had high agreement for 10/17 criteria (Cκ 0.813-1.000) with the exception of lab-based criteria. While agreement between the EDW and CDMs at the level of individual codes was relatively poor, agreement at the levels of overall SLE classification and individual SLICC criteria were reasonably high for OMOP and PCORnet, suggesting that inconsistencies at a micro, code level become less apparent at the macro, phenotype level.

Published
2024
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3. Vegetation controls on channel network complexity in coastal wetlands

Author

Roeland C. van de Vijsel, Jim van Belzen, Tjeerd J. Bouma, Daphne van der Wal, Bas W. Borsje, Stijn Temmerman, Loreta Cornacchia, Olivier Gourgue, and Johan van de Koppel

Subjects
Science
Abstract

Abstract Channel networks are key to coastal wetland functioning and resilience under climate change. Vegetation affects sediment and hydrodynamics in many different ways, which calls for a coherent framework to explain how vegetation shapes channel network geometry and functioning. Here, we introduce an idealized model that shows how coastal wetland vegetation creates more complexly branching networks by increasing the ratio of channel incision versus topographic diffusion rates, thereby amplifying the channelization feedback that recursively incises finer-scale side-channels. This complexification trend qualitatively agrees with and provides an explanation for field data presented here as well as in earlier studies. Moreover, our model demonstrates that a stronger biogeomorphic feedback leads to higher and more densely vegetated marsh platforms and more extensive drainage networks. These findings may inspire future field research by raising the hypothesis that vegetation-induced self-organization enhances the storm surge buffering capacity of coastal wetlands and their resilience under sea-level rise.

Published
2023
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4. Mangrove forests as a nature-based solution for coastal flood protection: Biophysical and ecological considerations

Author

Rosanna van Hespen, Zhan Hu, Bas Borsje, Michela De Dominicis, Daniel A. Friess, Svetlana Jevrejeva, Maarten G. Kleinhans, Maria Maza, Celine E.J. van Bijsterveldt, Tom Van der Stocken, Bregje van Wesenbeeck, Danghan Xie, and Tjeerd J. Bouma

Subjects
Forest dynamics, Seedling establishment, Hydrodynamic energy attenuation, Bed-level dynamics, Forest structure, Mangrove tree mortality, River, lake, and water-supply engineering (General), TC401-506
Abstract

Nature-based coastal protection is increasingly recognised as a potentially sustainable and cost-effective solution to reduce coastal flood risk. It uses coastal ecosystems such as mangrove forests to create resilient designs for coastal flood protection. However, to use mangroves effectively as a nature-based measure for flood risk reduction, we must understand the biophysical processes that govern risk reduction capacity through mangrove ecosystem size and structure. In this perspective, we evaluate the current state of knowledge on local physical drivers and ecological processes that determine mangrove functioning as part of a nature-based flood defence. We show that the forest properties that comprise coastal flood protection are well-known, but models cannot yet pinpoint how spatial heterogeneity of the forest structure affects the capacity for wave or surge attenuation. Overall, there is relatively good understanding of the ecological processes that drive forest structure and size, but there is a lack of knowledge on how daily bed-level dynamics link to long-term biogeomorphic forest dynamics, and on the role of combined stressors influencing forest retreat. Integrating simulation models of forest structure under changing physical (e.g. due to sea-level change) and ecological drivers with hydrodynamic attenuation models will allow for better projections of long-term natural coastal protection.

Published
2023
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7. Morphological Response of a Highly Engineered Estuary to Altering Channel Depth and Restoring Wetlands

Author

Rutger W. A. Siemes, Trang Minh Duong, Pim W. J. M. Willemsen, Bas W. Borsje, and Suzanne J. M. H. Hulscher

Subjects
numerical modeling, morphology, channel deepening, wetland restoration, estuarine management, Naval architecture. Shipbuilding. Marine engineering, VM1-989, Oceanography, GC1-1581
Abstract

Estuaries are continuously adapting to anthropogenic pressure. Because of sea-level rise and reduced fluvial sediment supply, they are at risk of sediment starvation. Contrarily, some estuaries require frequent dredging after artificially deepening the channel to maintain port operations. To optimize current estuarine functions and make estuaries more resilient to future threats, improved understanding of estuarine development after system changes is essential. This paper investigates the estuarine response related to two large-scale human interventions: (1) altering channel depth, following global trends of channel deepening for port navigability; and (2) creating or restoring wetlands, a nature-based solution increasingly explored for its ecosystem services. A schematized 2D-morphological model is set up using Delft3D-FM reflecting a highly engineered estuary in a micro-tidal and wave-dominant environment. Results demonstrate how channel deepening (from 13 m to 17 m, without wetland presence) increased sedimentation in the channel by +31%. Sedimentation rates in the wetland were mostly unaffected by channel depth. After restoring the wetland area (wetland width from 0 km to 1 km, constant channel depth of 15 m), sedimentation within the channel was reduced by −72%. The wetland area not only served as sediment sink, but also increased the tidal flow, diminishing sedimentation throughout the estuarine channel. Further analysis showed that restoring wetland areas along a specific segment mostly affected channel sedimentation locally (i.e., at the channel segment along the restored wetland). As such, to alleviate dredging operations at critical locations in the navigation channel, strategic restoration of wetlands can be considered which can provide a sustainable alternative to dredging within highly engineered estuaries.

Published
2023
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8. Sediment shell-content diminishes current-driven sand ripple development and migration

Author

C. H. Cheng, J. C. de Smit, G. S. Fivash, S. J. M. H. Hulscher, B. W. Borsje, and K. Soetaert

Subjects
Dynamic and structural geology, QE500-639.5
Abstract

Shells and shell fragments are biogenic structures that are widespread throughout natural sandy shelf seas and whose presence can affect the bed roughness and erodibility of the seabed. An important and direct consequence is the effect on the formation and movement of small bedforms such as sand ripples. We experimentally measured ripple formation and the migration of a mixture of natural sand with increasing volumes of shell material in a racetrack flume. Our experiments reveal the impacts of shells on ripple development in sandy sediment, providing information that was previously lacking. Shells expedite the onset of sediment transport while simultaneously reducing ripple dimensions and slowing down their migration rates. Moreover, increasing shell content enhances near-bed flow velocity due to the reduction of bed friction that is partly caused by a decrease in average ripple size and occurrence. This, in essence, limits the rate and magnitude of bed load transport. Given the large influence of shell content on sediment dynamics as well as the high shell concentrations found naturally in the sediments of shallow seas, a significant control from shells on the morphodynamics of sandy marine habitats is expected.

Published
2021
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9. Review article: Towards resilient vital infrastructure systems – challenges, opportunities, and future research agenda

Author

S. Mehvar, K. Wijnberg, B. Borsje, N. Kerle, J. M. Schraagen, J. Vinke-de Kruijf, K. Geurs, A. Hartmann, R. Hogeboom, and S. Hulscher

Subjects
Environmental technology. Sanitary engineering, TD1-1066, Geography. Anthropology. Recreation, Environmental sciences, GE1-350, Geology, QE1-996.5
Abstract

Infrastructure systems are inextricably tied to society by providing a variety of vital services. These systems play a fundamental role in reducing the vulnerability of communities and increasing their resilience to natural and human-induced hazards. While various definitions of resilience for infrastructure systems exist, analyzing the resilience of these systems within cross-sectoral and interdisciplinary perspectives remains limited and fragmented in research and practice. With the aim to assist researchers and practitioners in advancing understanding of resilience in designing infrastructure systems, this systematic literature review synthesizes and complements existing knowledge on designing resilient vital infrastructures by identifying (1) key conceptual tensions and challenges, (2) engineering and non-engineering measures, and (3) directions for future research. Here, a conceptual framework is developed in which infrastructures are defined as a conglomeration of interdependent social–ecological–technical systems. In addition, we define resilient infrastructures as systems with ability to (i) anticipate and absorb disturbances, (ii) adapt/transform in response to changes, (iii) recover, and (iv) learn from prior unforeseen events. Our results indicate that conceptual and practical challenges in designing resilient infrastructures continue to exist. Hence these systems are still being built without taking resilience explicitly into account. Our review of measures and recent applications shows that the available measures have not been widely applied in designing resilient infrastructure systems. Key concerns to address are identified as (i) the integration of social, ecological, and technical resilience of infrastructure systems with explicit attention paid to cascading effects and dependencies across these complex systems and (ii) the development of new technologies to identify factors that create different recovery characteristics.

Published
2021
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10. Review article: Towards a context-driven research: a state-of-the-art review of resilience research on climate change

Author

R. Ossewaarde, T. Filatova, Y. Georgiadou, A. Hartmann, G. Özerol, K. Pfeffer, P. Stegmaier, R. Torenvlied, M. van der Voort, J. Warmink, and B. Borsje

Subjects
Environmental technology. Sanitary engineering, TD1-1066, Geography. Anthropology. Recreation, Environmental sciences, GE1-350, Geology, QE1-996.5
Abstract

The twofold aim of this paper is to provide an overview of the current state of resilience research with regard to climate change in the social sciences and propose a research agenda. Resilience research among social scientists is characterized by much more diversity today than a few decades ago. Different definitions and understandings of resilience appear in publications during the last 10 years. Resilience research increasingly bears the mark of social constructivism, a relative newcomer compared to the more long-standing tradition of naturalism. There are also approaches that are indebted to both “naturalism” and “constructivism”, which, of course, come in many varieties. Based on our overview of recent scholarship, which is far from being exhaustive, we have identified six research avenues that arguably deserve continued attention. They combine naturalist and constructivist insights and approaches so that human agency, reflexivity, and considerations of justice and equity are incorporated into systems thinking research or supplement such research. Ultimately, we believe that the overarching challenge for future research is to ensure that resilience to climate change does not compromise sustainability and considerations of justice (including environmental, climate, and energy justice).

Published
2021
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11. Synchronized high-resolution bed-level change and biophysical data from 10 marsh–mudflat sites in northwestern Europe

Author

Z. Hu, P. W. J. M. Willemsen, B. W. Borsje, C. Wang, H. Wang, D. van der Wal, Z. Zhu, B. Oteman, V. Vuik, B. Evans, I. Möller, J.-P. Belliard, A. Van Braeckel, S. Temmerman, and T. J. Bouma

Subjects
Environmental sciences, GE1-350, Geology, QE1-996.5
Abstract

Tidal flats provide valuable ecosystem services such as flood protection and carbon sequestration. Erosion and accretion processes govern the ecogeomorphic evolution of intertidal ecosystems (marshes and bare flats) and, hence, substantially affect their valuable ecosystem services. To understand the intertidal ecosystem development, high-frequency bed-level change data are thus needed. However, such datasets are scarce due to the lack of suitable methods that do not involve excessive labour and/or costly instruments. By applying newly developed surface elevation dynamics (SED) sensors, we obtained unique high-resolution daily bed-level change datasets in the period 2013–2017 from 10 marsh–mudflat sites situated in the Netherlands, Belgium, and the United Kingdom in contrasting physical and biological settings. At each site, multiple sensors were deployed for 9–20 months to ensure sufficient spatial and temporal coverage of highly variable bed-level change processes. The bed-level change data are provided with synchronized hydrodynamic data, i.e. water level, wave height, tidal current velocity, medium sediment grain size (D50), and chlorophyll a level at four sites. This dataset has revealed diverse spatial morphodynamics patterns over daily to seasonal scales, which are valuable to theoretical and model development. On the daily scale, this dataset is particularly instructive, as it includes a number of storm events, the response to which can be detected in the bed-level change observations. Such data are rare but useful to study tidal flat response to highly energetic conditions. The dataset is available from 4TU.ResearchData (https://doi.org/10.4121/12693254.v4; Hu et al., 2020), which is expected to expand with additional SED sensor data from ongoing and planned surveys.

Published
2021
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12. Facilitating Salt Marsh Restoration: The Importance of Event-Based Bed Level Dynamics and Seasonal Trends in Bed Level Change

Author

Pim W. J. M. Willemsen, Erik M. Horstman, Tjeerd J. Bouma, Martin J. Baptist, Marinka E. B. van Puijenbroek, and Bas W. Borsje

Subjects
salt marsh dynamics, field monitoring, nature-based solutions, biogeomorphology, bed level dynamics, vegetation presence, Science, General. Including nature conservation, geographical distribution, QH1-199.5
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 and unvegetated stations, seasonal thresholds for vegetation presence were not found. The findings imply that knowledge of bed level-dynamics in well-established natural marshes can be used to predict vegetation presence in constructed semi-natural marshes. The importance of local short-term dynamics for vegetation presence instead of longer-term dynamics highlights possibilities for developing favorable conditions for vegetation presence in marsh restoration projects and the construction of new salt marsh ecosystems.

Published
2022
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13. Resilience Meets the Water–Energy–Food Nexus: Mapping the Research Landscape

Author

Rick J. Hogeboom, Bas W. Borsje, Mekdelawit M. Deribe, Freek D. van der Meer, Seyedabdolhossein Mehvar, Markus A. Meyer, Gül Özerol, Arjen Y. Hoekstra, and Andy D. Nelson

Subjects
water–energy–food nexus, resilience, Sustainable Development Goals, water security, food security, energy security, Environmental sciences, GE1-350
Abstract

Resilience thinking is increasingly promoted to address some of the grand challenges of the 21st century: providing water, energy, and food to all, while staying within the limits of the Earth system that is undergoing (climate) change. Concurrently, a partially overlapping body of literature on the water–energy–food (WEF) nexus has emerged through the realization that water, energy, and food systems are intricately linked—and should therefore be understood and managed in conjunction. This paper reviews recent scientific publications at the intersection of both concepts in order to i) examine the status quo on resilience thinking as it is applied in WEF nexus studies; ii) map the research landscape along major research foci and conceptualizations; iii) and propose a research agenda of topics distilled from gaps in the current research landscape. We identify key conceptualizations of both resilience and nexus framings that are used across studies, as we observe pronounced differences regarding the nexus’ nature, scope, emphasis and level of integration, and resilience’s scope, type, methodological and thematic foci. Promising research avenues include i) improving the understanding of resilience in the WEF nexus across scales, sectors, domains, and disciplines; ii) developing tools and indicators to measure and assess resilience of WEF systems; iii) bridging the implementation gap brought about by (governing) complexity; iv) integrating or reconciling resilience and nexus thinking; v) and considering other development principles and frameworks toward solving WEF challenges beside and beyond resilience, including control, efficiency, sustainability, and equity.

Published
2021
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16. Modelling the Past and Future Evolution of Tidal Sand Waves

Author

Janneke Krabbendam, Abdel Nnafie, Huib de Swart, Bas Borsje, and Luitze Perk

Subjects
tidal sand waves, North Sea, Delft3D, numerical morphological modelling, Naval architecture. Shipbuilding. Marine engineering, VM1-989, Oceanography, GC1-1581
Abstract

This study focuses on the hindcasting and forecasting of observed offshore tidal sand waves by using a state-of-the-art numerical morphodynamic model. The sand waves, having heights of several meters, evolve on timescales of years. Following earlier work, the model has a 2DV configuration (one horizontal and one vertical direction). First, the skill of the model is assessed by performing hindcasts at four transects in the North Sea where sand wave data are available of multiple surveys that are at least 10 years apart. The first transect is used for calibration and this calibrated model is applied to the other three transects. It is found that the calibrated model performs well: the Brier Skill Score is ‘excellent’ at the first two transects and ‘good’ at the last two. The root mean square error of calculated bed levels is smaller than the uncertainty in the measurements, except at the last transect, where the M2 is more elliptical than at the other three transects. The calibrated model is subsequently used to make forecasts of the sand waves along the two transects with the best skill scores.

Published
2021
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18. Resilient Flood Defenses

Author

Suzanne J.M.H. Hulscher, Jord J. Warmink, and Bas W. Borsje

Subjects
n/a, Naval architecture. Shipbuilding. Marine engineering, VM1-989, Oceanography, GC1-1581
Abstract

Flood risk in deltaic regions is increasing due to a combination of more economic activities and an increase in flooding probability [...]

Published
2021
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19. Sediment Characteristics over Asymmetrical Tidal Sand Waves in the Dutch North Sea

Author

Chiu Hwa Cheng, Karline Soetaert, and Bas Wijnand Borsje

Subjects
seabed morphology, permeability, asymmetrical sand waves, North Sea, sediment characteristics, sandy shelf seas, Naval architecture. Shipbuilding. Marine engineering, VM1-989, Oceanography, GC1-1581
Abstract

The behavior of asymmetrical bedforms, which include many tidal sand waves, is challenging to understand. They are of particular interest since they are mostly located within areas prone to offshore engineering activities. Most experimental investigations regarding asymmetrical bedforms consider the riverine environment, are limited to a single sand wave or a few scattered ones, and focus only on differences between crest and trough. Hardly any information is available on sediment compositional changes along asymmetrical tidal sand waves, despite their abundance offshore. An asymmetrical sand wave field located off the coast of Texel Island in the North Sea was studied in June and October 2017. A total of 102 sediment samples were collected over two seasons along a single transect that covered five complete sand waves to measure the grain size composition, organic carbon concentration, chlorophyll-a (chl-a) concentration, and sediment permeability. We found significant variations in these sediment parameters between the sand wave trough, crest, and gentle and steep slopes, including a difference in permeability of more than 2-fold, as well as a difference in median grain size exceeding 65 µm. Based on these characteristics, a sand wave can be divided into two discrete halves: gentle slope + crest and steep slope + trough. Our results indicate a distinct sediment-sorting process along the Texel sand waves, with a significant difference between the two halves of each sand wave. These data could serve as input for process-based modeling of the link between sediment-sorting processes and seabed morphodynamics, necessary to design offshore engineering projects.

Published
2020
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20. Artificial Structures Steer Morphological Development of Salt Marshes: A Model Study

Author

Rutger W. A. Siemes, Bas W. Borsje, Roy J. Daggenvoorde, and Suzanne J. M. H. Hulscher

Subjects
salt marsh, Wadden Sea, nature-based coastal protection, artificial structures, coastal resilience, numerical modeling, Naval architecture. Shipbuilding. Marine engineering, VM1-989, Oceanography, GC1-1581
Abstract

Salt marshes are increasingly recognized as resilient and sustainable supplements to traditional engineering structures for protecting coasts against flooding. Nevertheless, many salt marshes face severe erosion. There is a consensus that providing structures that create sheltered conditions from high energetic conditions can improve the potential for salt marsh growth. However, little proof is provided on the explicit influence of structures to promote salt marsh growth. This paper investigates how artificial structures can be used to steer the morphological development of salt marshes. A morphological model (Delft3D Flexible Mesh) was applied, which enabled the analysis of various artificial structures with realistic representation. A salt marsh in the Wadden Sea which has seen heavy erosion (lateral retreat rate of 0.9 m/year) served as case study. We simulate both daily and storm conditions. Hereby, vegetation is represented by an increased bed roughness. The model is able to simulate the governing processes of salt marsh development. Results show that, without artificial structures, erosion of the salt marsh and tidal flat continues. With structures implemented, results indicate that there is potential for salt marsh growth in the study area. Moreover, traditional structures, which were widely implemented in the past, proved to be most effective to stimulate marsh growth. More broadly, the paper indicates how morphological development of a salt marsh can be steered by various configurations of artificial structures.

Published
2020
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21. Benthic Species Distribution Linked to Morphological Features of a Barred Coast

Author

Harriëtte Holzhauer, Bas W. Borsje, Jan A. van Dalfsen, Kathelijne M. Wijnberg, Suzanne J.M.H. Hulscher, and Peter M.J. Herman

Subjects
macrobenthos, barred sandy coast, species distribution, north sea, nearshore, Naval architecture. Shipbuilding. Marine engineering, VM1-989, Oceanography, GC1-1581
Abstract

The composition of benthic species communities in the nearshore zone is closely related to the hydrodynamic and morphodynamic conditions. Sustainable management of the coastal ecosystem requires knowledge about the natural dynamics as well as human-induced changes on the ecosystem. To improve our knowledge of the benthic species distribution along a dissipative sandy shore with multiple breaker bars, an extensive dataset was collected in the nearshore zone of the barrier islands Ameland and Schiermonnikoog in the Dutch North Sea. From 2010 to 2014, every year, approximately 180 grab samples along 18 cross-shore transects were collected and analyzed for sediment characteristics and macrobenthic species composition. Mixed-effect-models and partial redundancy analysis were used to analyze the importance of morphological features (i.e., slopes, bar crests, and troughs) as an explanatory variable for the benthic species distribution. The results indicate that the morphological features in themselves explain three times more variation than the environmental parameters used. This demonstrates the importance of morphological features as a factor in explaining the distribution of benthic species communities in the nearshore. Detailed information on morphological features is easy to obtain from bathymetry maps or visual inspection. Incorporating morphological features in species distribution models will therefore help to improve sustainable management of our valuable sandy coastal systems.

Published
2019
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22. EU Pension Law

Author

van Meerten, Hans, van den Brink, Ton, Borsjé, Pascal, Schmidt, Elmar, van Zanden, Jorik, van Meerten, Hans, van den Brink, Ton, Borsjé, Pascal, Schmidt, Elmar, and van Zanden, Jorik

Published
2019
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23. The regional-local nexus: a landscape-based integral design strategy for sustainable tourism development

Author

Jesper Borsje and Ruud Tak

Subjects
landscape architecture, participation, multi-scale, design, integral, landscape, Hospitality industry. Hotels, clubs, restaurants, etc. Food service, TX901-946.5
Abstract

The purpose – The purpose of this project is to investigate what a landscape architecture approach could add to sustainable tourism development. Design – Spatial design is used as tool to investigate the chances and possibilities of sustainable tourism. Methodology – In the project we used research by design as method. This is done by doing a case study on the Dubrovnik Riviera, where we tested our concepts, ideas and methods in practice. During the case study we used participation, the layer approach of de Hoog and Sijmons (1996) and the landscape approach of Koh (2010) as our main methods. Approach – Using the local landscape and culture as base and inspiration for the development of sustainable tourism. Combined with tourism trends and the input of local stakeholders we worked out a spatial plan. Findings – The landscape including natural and cultural qualities can serve as a perfect base for the development of new forms of sustainable tourism: − A touristic region should function as a system, where all villages are working together adding something unique to the whole system − An efficient extensive public transport network and zoning can help developing a region sustainable − A combination between a bottom-up and top-down approach is needed to implement sustainable tourism, creating preconditions for each other to function optimally. So, we can conclude that a landscape-based design approach gives a significant new insight in how sustainable tourism can be developed in practice. The originality of this research – The landscape architecture approach fills the gap between ideas about sustainable tourism and the practical applicability of it. Using the local landscape and culture sets a sustainable framework for developing sustainable tourism and results in a working tourism system led by the local community. Using landscape architecture in sustainable tourism development is a new, but very interesting and promising addition to the current research and concrete development.

Published
2013
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25. Mangrove forests as a nature-based solution for coastal flood protection: Biophysical and ecological considerations

Author

van Hespen, Rosanna, Hu, Zhan, Borsje, Bas, De Dominicis, Michela, Friess, Daniel A., Jevrejeva, Svetlana, Kleinhans, Maarten G., Maza, Maria, van Bijsterveldt, Celine E.J., Van der Stocken, Tom, van Wesenbeeck, Bregje, Xie, Danghan, and Bouma, Tjeerd J.

Abstract

Nature-based coastal protection is increasingly recognised as a potentially sustainable and cost-effective solution to reduce coastal flood risk. It uses coastal ecosystems such as mangrove forests to create resilient designs for coastal flood protection. However, to use mangroves effectively as a nature-based measure for flood risk reduction, we must understand the biophysical processes that govern risk reduction capacity through mangrove ecosystem size and structure. In this perspective, we evaluate the current state of knowledge on local physical drivers and ecological processes that determine mangrove functioning as part of a nature-based flood defence. We show that the forest properties that comprise coastal flood protection are well-known, but models cannot yet pinpoint how spatial heterogeneity of the forest structure affects the capacity for wave or surge attenuation. Overall, there is relatively good understanding of the ecological processes that drive forest structure and size, but there is a lack of knowledge on how daily bed-level dynamics link to long-term biogeomorphic forest dynamics, and on the role of combined stressors influencing forest retreat. Integrating simulation models of forest structure under changing physical (e.g. due to sea-level change) and ecological drivers with hydrodynamic attenuation models will allow for better projections of long-term natural coastal protection.

Published
2023
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29. Dementia related problems in primary care of greatest concern. The occurrence and course of neuropsychiatric symptoms in people with dementia and psychological distress in their informal caregivers

Author

Borsje, P., Koopmans, R.T.C.M., Pot, A.M., Lucassen, P.L.B.J., Wetzels, R.B., and Radboud University Nijmegen

Subjects
Radboud Institute for Health Sciences, Alzheimer`s disease Radboud Institute for Health Sciences [Radboudumc 1], Alzheimer`s disease [Radboudumc 1]
Abstract

Contains fulltext : 202633.pdf (Publisher’s version ) (Open Access) Radboud University, 28 mei 2019 Promotores : Koopmans, R.T.C.M., Pot, A.M. Co-promotores : Lucassen, P.L.B.J., Wetzels, R.B.

Published
2019

30. Dementia related problems in primary care of greatest concern. The occurrence and course of neuropsychiatric symptoms in people with dementia and psychological distress in their informal caregivers

Author

Koopmans, R.T.C.M., Pot, A.M., Lucassen, P.L.B.J., Wetzels, R.B., Borsje, P., Koopmans, R.T.C.M., Pot, A.M., Lucassen, P.L.B.J., Wetzels, R.B., and Borsje, P.

Abstract

Radboud University, 28 mei 2019, Promotores : Koopmans, R.T.C.M., Pot, A.M. Co-promotores : Lucassen, P.L.B.J., Wetzels, R.B., Contains fulltext : 202633.pdf (publisher's version ) (Open Access)

Published
2019

31. The course of neuropsychiatric symptoms in patients with dementia in primary care

Author

Borsje, P., Lucassen, P.L.B.J., Bor, H., Wetzels, R.B., Pot, A.M., Koopmans, R.T., Borsje, P., Lucassen, P.L.B.J., Bor, H., Wetzels, R.B., Pot, A.M., and Koopmans, R.T.

Abstract

Item does not contain fulltext, BACKGROUND: During the course of dementia, most people develop some type of neuropsychiatric symptoms (NPS), which result in lower quality of life, high caregiver burden, psychotropic drug use and a major risk of institutionalization. Studies on NPS in people with dementia have been mainly conducted in clinical centres or psychiatric services. OBJECTIVES: To investigate the course of NPS in people with dementia in primary care. METHODS: Analysis of (cumulative) prevalence and incidence, persistence and resolution based on data collected during an assessment at home of a prospective naturalistic cohort study in primary care in a sample of 117 people with dementia and their informal caregivers. Subsyndromes of NPS were assessed with the Neuropsychiatric Inventory (NPI) and Cohen-Mansfield Agitation Inventory. Multivariate analyses were used to detect determinants for the course of NPS. RESULTS: The mean age of the people with dementia was 78.6 years, and 52% were female. Mean Mini-Mental State Examination total score was 19.5, mean NPI total score 15.7. The most prevalent clinically relevant subsyndromes of the NPI were hyperactivity and mood/apathy, and the most prevalent individual NPS were aberrant motor behaviour (28%), agitation/aggression (24%) and apathy/indifference (22%). Of the people with dementia, 72.3% had one or more symptoms of the mood/apathy and 75.3% of the hyperactivity subsyndrome. CONCLUSIONS: GPs should be aware of NPS in people with dementia and should actively identify them when they visit these patients or when informal caregivers consult them. Timely diagnosing facilitates adequate professional care.

Published
2019

33. Climate Change Can Intensify the Effects of Local Interventions: A Morphological Modeling Study of a Highly Engineered Estuary

Author

Siemes, Rutger W. A., Duong, Trang Minh, Borsje, Bas W., and Hulscher, Suzanne J. M. H.

Abstract

Estuaries worldwide are susceptible and adapting to climate change (CC) impacts from both the river and coastal boundaries. Furthermore, engineering efforts are undertaken to improve flood safety, to claim land for human use or for port operations, which change estuary morphology. This paper aims to gain an understanding of the combined effects of CC and human interventions on the estuarine‐wide morphological response by analyzing the sediment infilling of highly engineered estuaries. A schematized process‐based morphodynamic model is used (Delft3D‐FM, in 2DH), resembling a highly engineered estuary in the Rhine‐Meuse Delta, The Netherlands. Three types of changes were implemented, both in isolation and in combination: (a) local interventions (changing channel depth or wetland area), (b) upstream human interventions (changing fluvial sediment supply) and (c) extreme CC scenarios (with projections for the future forcings and bathymetry). Results show that a CC scenario can elicit both positive and negative changes in the estuary's sediment budget. The direction and magnitude of the change depend on the local intervention and can align with the effect of the local intervention, intensifying its impact. The combined effects can even reverse the sign of the sediment budget. This stresses the need of analyzing CC impacts in combination with human interventions. Additionally, a relationship was identified which quantifies how a change in peak flow velocity due to both local interventions and sea‐level rise affects the annual sediment budget. These findings can help determine how local interventions affect morphodynamics of engineered estuaries in present and future climates. Estuaries are the regions where the rivers meet the sea. They are susceptible to climate change (CC) impacts to both the sea and river. Additionally, as these regions are among the most populated regions worldwide, they undergo constant human interventions to utilize the region's natural resources optimally. This study investigates the combined impacts of CC and human interventions on the development of estuaries by analyzing the amount of sediment accumulating or eroding from the estuary. The findings reveal that CC can intensify the influence of local interventions on the estuary's sedimentation. If the estuary has high sedimentation rates in the present, due to activities like channel deepening or wetland reclamation, sedimentation increases in the future. Conversely, if the estuary experiences little sedimentation, a decrease is observed in the future. These results highlight the importance of studying CC impacts in combination with engineering measures. As such, these findings contribute valuable insights for effective estuarine management and planning in the future. Climate change can increase or decrease the annual sediment budget of estuaries, depending on the estuary's local interventionsThe estuary's sediment budget was found to decrease exponentially with the peak ebb flow velocityLocal interventions and relative sea‐level rise affect the annual sediment budget following the exponential relationship Climate change can increase or decrease the annual sediment budget of estuaries, depending on the estuary's local interventions The estuary's sediment budget was found to decrease exponentially with the peak ebb flow velocity Local interventions and relative sea‐level rise affect the annual sediment budget following the exponential relationship

Published
2024
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34. Neuropsychiatric symptoms and psychotropic drug use in patients with dementia in general practices

Author

Borsje, P., Lucassen, P.L.B.J., Wetzels, R.B., Pot, A.M., Koopmans, R.T.C.M., Borsje, P., Lucassen, P.L.B.J., Wetzels, R.B., Pot, A.M., and Koopmans, R.T.C.M.

Abstract

Item does not contain fulltext, Background: Neuropsychiatric symptoms (NPS) frequently occur in community-dwelling patients with dementia and they are also frequently prescribed psychotropic drugs. The prescription of psychotropic drugs has been found to be associated with the level of NPS. Data on NPS in patients with dementia in general practices are scarce. Objectives: The aim of this study was to assess the prevalence rates of NPS and psychotropic drug use (PDU) in patients with dementia in general practices. Methods: We analyzed data from the baseline measurement of a prospective cohort study in a sample of (Dutch) patients in general practices. Prevalence rates of NPS and subsyndromes assessed with the Neuropsychiatric Inventory (NPI) and of PDU were calculated. Prevalence rates of individual NPS are presented both as clinically relevant symptoms (NPI symptom score >/= 4) and as prevalence rates of symptoms with symptom score > 0. Results: Of the 117 patients, more than 90% had at least one symptom and more than 65% had at least one clinically relevant symptom. The most common NPS were agitation/aggression, dysphoria/depression and irritability/lability. The most common clinically relevant NPS were aberrant motor behaviour, agitation/aggression and apathy/indifference. Only 28.7% of the patients used at least one, 7.0% used at least two different and 1.7% used at least three different types of psychotropic drugs (excluding anti-dementia medication). Conclusions: NPS are highly prevalent in patients with dementia in general practices, but PDU is rather low. The most common clinically relevant NPS were aberrant motor behaviour, agitation/aggression and apathy/indifference.

Published
2018

35. Analysis of coastal storm damage resistance in successional mangrove species

Author

Hespen, Rosanna, Hu, Zhan, Peng, Yisheng, Borsje, Bas W., Kleinhans, Maarten, Ysebaert, Tom, and Bouma, Tjeerd J.

Abstract

Use of mangrove ecosystems for coastal flood protection requires reliable predictions of mangrove wave attenuation, especially if this capacity lessens due to storm‐induced forest damage. Quantifying and understanding the variation in drag forces and mechanical properties of mangrove vegetation can improve assessment of mangrove protective capacity. We studied five mangrove species common in the subtropical Pearl River Delta, south China. The studied species range from typically landward‐occurring to more seaward‐occurring pioneer species. We sampled across seven sites in the delta to study the impact of salinity on mechanical properties. We quantified strength and flexibility of branches (branch strength and flexibility related to branch diameter, modulus of rupture and modulus of elasticity), leaf strength (leaf attachment strength related to leaf size, and leaf mass per area) and drag properties (drag force related to surface area and drag coefficient). For all tested species, larger branch diameters resulted in higher mechanical strength. Larger leaf size resulted in larger peak pulling forces and larger branch surface area resulted in stronger drag forces. Notably, species that generally occur lower in the intertidal zone, where exposure to wind and waves is higher, had relatively stronger branches but more easily detachable leaves. This may be regarded as a damage‐avoiding strategy. Across the seven field sites, we found no clear effect of salinity on mangrove mechanical properties. This study provides a mechanistic insight in the storm damage process for individual mangrove trees and a solid base for modeling storm (surge) damage at the forest scale.

Published
2021
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38. Salt marshes for flood risk reduction: Quantifying long-term effectiveness and life-cycle costs.

Author

Vuik, Vincent, Borsje, Bas W., Willemsen, Pim W.J.M., and Jonkman, Sebastiaan N.

Subjects
FLOOD risk, SALT marshes, LIFE cycle costing, ECONOMIC development, CLIMATE change
Abstract

Abstract Flood risks are increasing worldwide due to climate change and ongoing economic and demographic development in coastal areas. Salt marshes can function as vegetated foreshores that reduce wave loads on coastal structures such as dikes and dams, thereby mitigating current and future flood risk. This paper aims to quantify long-term (100 years) flood risk reduction by salt marshes. Dike-foreshore configurations are assessed by coupled calculations of wave energy dissipation over the foreshore, sediment accretion under sea level rise, the probability of dike failure, and life-cycle costs. Rising sea levels lead to higher storm waves, and increasing probabilities of dike failure by wave overtopping. This study shows that marsh elevation change due to sediment accretion mitigates the increase in wave height, thereby elongating the lifetime of a dike-foreshore system. Further, different human interventions on foreshores are assessed in this paper: realization of a vegetated foreshore via nourishment, addition of a detached earthen breakwater, addition of an unnaturally high zone, or foreshore build-up by application of brushwood dams that enhance sediment accretion. The performance of these strategies is compared to dike heightening for the physical boundary conditions at an exposed dike along the Dutch Wadden Sea. Cost-effectiveness depends on three main factors. First, wave energy dissipation, which is lower for salt marshes with a natural elevation in the intertidal zone, when compared to foreshores with a high zone or detached breakwater. Second, required costs for construction and maintenance. Continuous maintenance costs and delayed effects on flood risk make sheltering structures less attractive from a flood risk perspective. Third, economic value of the protected area, where foreshores are particularly cost-effective for low economic value. Concluding, life-cycle cost analysis demonstrates that, within certain limits, foreshore construction can be more cost-effective than dike heightening. Highlights • Long-term (100 years) cost-effectiveness of vegetated foreshores assessed. • Cost-effectiveness of strategies depends on the economic damage after dike failure. • Sediment accretion on salt marshes elongates the lifetime of flood defenses. • High zones or breakwaters on marshes increase effects on flood risk against low costs. [ABSTRACT FROM AUTHOR]

Published
2019
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39. Experiment-supported modelling of salt marsh establishment.

Author

Poppema, Daan W., Willemsen, Pim W.J.M., de Vries, Mindert B., Zhu, Zhenchang, Borsje, Bas W., and Hulscher, Suzanne J.M.H.

Subjects
SALT marsh restoration, COASTAL zone management, SUSTAINABLE development, SALT marsh conservation, OCEAN bottom
Abstract

Abstract Recently, the use of salt marshes in front of hard structures is increasingly proposed as a more sustainable coastal protection measure. Yet, salt marsh restoration and creation is often hampered by the lack of a thorough understanding of initial vegetation establishment. Recent studies highlight the importance of bed level change for salt marsh development. In this study we continue the examination of the impact of bed level change on salt marsh development, focussing on the prediction of salt marsh establishment and the implications for coastal management. First, a test with Spartina anglica seedlings (Cordgrass) in a wave flume showed that long-term (seasonal) bed level change is more important for seedling survival than direct wave impact at the shoot. Therefore, we subsequently incorporated bed level change in the Windows of Opportunity (WoO) framework. Lastly, this revised WoO framework was applied to the design of the Marconi pioneer salt marsh (The Netherlands). Combining the WoO framework with a morphodynamic model (Delft3D) showed its potential for salt marsh design. The framework can be used to determine whether salt marsh establishment is possible, to find out which conditions are limiting establishment and to design engineering measures creating the conditions that facilitate salt marsh establishment. Highlights • The survival of Spartina anglica seedlings is sensitive to bed level change. • Bed level change is included in the revised Windows of Opportunity (WoO) framework to better predict vegetation growth. • Applying the WoO framework to a marsh creation project showed the need for wave dampening measures. • The WoO framework is a suitable design tool for salt marsh restoration/creation. [ABSTRACT FROM AUTHOR]

Published
2019
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40. Psychological distress in informal caregivers of patients with dementia in primary care: course and determinants

Author

Borsje, P., Hems, M.A., Lucassen, P.L.B.J., Bor, H., Koopmans, R.T.C.M., Pot, A.M., Borsje, P., Hems, M.A., Lucassen, P.L.B.J., Bor, H., Koopmans, R.T.C.M., and Pot, A.M.

Abstract

Item does not contain fulltext, BACKGROUND: The course of psychological distress in informal caregivers of patients with dementia has been investigated in longitudinal studies with conflicting outcomes. OBJECTIVES: We investigated the course and determinants of psychological distress in informal caregivers of patients with dementia in primary care. METHODS: In this prospective observational cohort study, data were collected at baseline, after 9 and 18 months. We assessed cognition and neuropsychiatric symptoms (NPS) of the patient (Mini-Mental State Examination and Neuropsychiatric Inventory) and psychological distress (Sense of Competence Questionnaire, Center for Epidemiological Studies Depression scale and General Health Questionnaire 12-tem version) of the informal caregivers. Determinants for the course of psychological distress were caregivers' age, gender and relationship with the patient, patients' cognition and NPS, participation in a care program and admission to long-term care facilities (LTCF). With linear mixed models, the course over time for psychological distress and its determinants were explored. RESULTS: We included 117 informal caregivers, of whom 23.1% had a high risk for depression and 41.0% were identified to be likely to have mental problems at baseline. We found a stable pattern of psychological distress over time. Higher frequency of NPS, informal caregivers' age between 50 and 70 years and being female or spouse were associated with higher psychological distress. For patients who were admitted to a LTCF during the study psychological distress of the informal caregivers improved. CONCLUSIONS: GPs should focus on NPS in patients with dementia and on caregivers' psychological distress and be aware of their risk for depression and mental problems, specifically to those who are spouse, female or between 50 and 70 years of age.

Published
2016

41. Assessing passenger preferences for Bus Rapid Transit characteristics: A discrete choice experiment among current and potential Dutch passengers.

Author

Borsje, René, Hiemstra-van Mastrigt, Suzanne, and Veeneman, Wijnand

Abstract

To gain ridership, bus services need to offer more than just high frequencies. An attractive system design for Bus Rapid Transit (BRT) is a result of various configurational choices concerning infrastructure, rolling stock and operations. To find out which configurations are preferred by potential and current passengers, a Discrete Choice Experiment was carried out in The Netherlands. For this study, eight BRT characteristics were included. Results (n = 1019) show that four characteristics are valued the most: frequency, service hours, reliability and stop spacing. The attractiveness of three different service formulas or configurations is evaluated. The more conventional bus configuration is preferred by the majority of the respondents. However, a considerable amount (25%) of respondents that prefer this configuration does not consider using this service formula. Configurations that either address offering more passenger comfort or higher capacity, do seem to be attractive to distinct passenger segments who are more likely to actually use the service. These appealing BRT configurations address different types of passenger segments and therefore could coexist on certain routes. [ABSTRACT FROM AUTHOR]

Published
2023
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42. The course of neuropsychiatric symptoms in community-dwelling patients with dementia: a systematic review

Author

Borsje, P., Wetzels, R.B., Lucassen, P.L.B.J., Pot, A.M., Koopmans, R.T.C.M., Borsje, P., Wetzels, R.B., Lucassen, P.L.B.J., Pot, A.M., and Koopmans, R.T.C.M.

Abstract

Item does not contain fulltext, BACKGROUND: Neuropsychiatric symptoms (NPS) often occur in patients with dementia. Understanding the course of NPS in dementia is important for healthcare professionals for psycho-educational purposes and adequate and timely interventions to prevent or diminish NPS as much as possible. METHODS: We conducted a systematic literature search in several electronic databases. We combined search strings for the terms dementia, community-dwelling, cohort studies and NPS. Screening titles and abstracts, assessing the methodological quality and data-extraction were independently conducted by at least two authors. RESULTS: This literature search revealed 6605 unique records of which 23 studies were included in data synthesis. In total 7184 patients participated in the included studies with a mean number of 312. Sixty percent of the participants were female and the mean age of all participants was 74.8 years. Follow-up varied between 1 and 6 years; in 17 studies loss to follow-up was less than 20% per year. NPS are highly prevalent, incident and persistent although frequency parameters vary considerably across studies. Delusions/delusional misidentification, wandering/agitation, aberrant motor behavior/motor hyperactivity and apathy are the most common NPS. For hallucinations, delusions/delusional misidentification, paranoia, aggression, wandering/agitation, aberrant motor behavior/motor hyperactivity, disinhibition, apathy, and sleep disturbance increasing trends in point prevalence rates have been found. CONCLUSIONS: NPS in community-dwelling patients are frequent and persistent. The increasing trends of several NPS in the course of dementia require a preventive approach of professional caretakers. For such an approach, a timely diagnosis and adequate professional support to prevent or diminish these problems is necessary.

Published
2015

45. Background Topography Affects the Degree of Three‐Dimensionality of Tidal Sand Waves

Author

Krabbendam, Janneke, Nnafie, Abdel, Borsje, Bas, and Swart, Huib

Abstract

Offshore tidal sand waves on the sandy bed of shallow continental shelf seas are more three‐dimensional (3D) in some places than others, where 3D refers to a pattern that shows variations in three spatial directions. Such sand waves have crestlines that meander, split or merge. The degree of three‐dimensionality seems to vary especially when large‐scale bedforms, such as tidal sand banks, are present underneath the sand waves. Understanding this behavior is important for offshore activities, such as offshore windfarm construction or the maintenance of navigation channels. In this study, the degree of three‐dimensionality of sand waves at five sites in the North Sea is quantified with a new measure. Results show that tidal sand waves on top of tidal sand banks are more two‐dimensional (2D) than those on bank slopes or in open areas. These differences in sand wave pattern are supported by numerical simulations performed with a new long‐term sand wave model. The primary cause of these differences is attributed to the deflection of tidal flow over a sand bank, which causes sand wave crests to be more aligned with the bank at its top than at its slopes. It is subsequently made plausible that the different patterns result from the competition between two known mechanisms. These mechanisms are nonlinear interactions between sand waves themselves (SW‐SW interactions) and nonlinear interactions between sand banks and sand waves (SB‐SW interactions). On bank tops, SB‐SW interactions favor a 2D pattern, while SW‐SW interactions, which elsewhere produce a 3D pattern, are less effective. Tidal sand waves are rhythmic bedforms that are found at the bottom of shallow seas such as the North Sea. These bedforms have heights of several meters, spacings of hundreds of meters and they can be very mobile. As such, they are important to offshore activities, such as constructing wind farms. Field data indicate that sand waves mainly display a three‐dimensional (3D) pattern, with bed level variations in three directions. However, sand waves on tops of sand banks appear to be more 2D (variations in one horizontal and in the vertical direction) than those on slopes. In this study, we analyze bed level data of five areas in the North Sea. The application of a new measure to quantify how 3D a sand wavefield is, confirms that sand waves on bank tops are mostly 2D, while they are 3D on bank slopes or in open areas. The relationship between sand banks and sand wave patterns is investigated with a new sand wave model. Results show that sand banks alter the tidal flow, thereby changing the orientation of the sand waves on top. The emergence of 2D or 3D sand waves is interpreted in terms of two competing nonlinear mechanisms. Analysis of field data shows that offshore sand waves on the tops of sand banks are more two‐dimensional than sand waves on bank slopesThe differences in sand wave pattern depending on the background topography are supported by simulations with a new sand wave modelThese differences are hypothesized to result from nonlinear sand wave‐sand wave (SW‐SW) and sand bank‐sand wave interactions (SB‐SW) Analysis of field data shows that offshore sand waves on the tops of sand banks are more two‐dimensional than sand waves on bank slopes The differences in sand wave pattern depending on the background topography are supported by simulations with a new sand wave model These differences are hypothesized to result from nonlinear sand wave‐sand wave (SW‐SW) and sand bank‐sand wave interactions (SB‐SW)

Published
2023
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46. Neuropsychiatric symptoms in patients with dementia in primary care: a study protocol

Author

Borsje, P., Wetzels, R.B., Lucassen, P.L.B.J., Pot, A.M., Koopmans, R.T.C.M., Borsje, P., Wetzels, R.B., Lucassen, P.L.B.J., Pot, A.M., and Koopmans, R.T.C.M.

Abstract

Contains fulltext : 136376.pdf (publisher's version ) (Open Access), BACKGROUND: Neuropsychiatric symptoms (NPS) frequently occur in patients with dementia. To date, prospective studies on the course of NPS have been conducted in patients with dementia in clinical centers or psychiatric services. The primary goal of this study is to investigate the course of NPS in patients with dementia and caregiver distress in primary care. We also aim to detect determinants of both the course of NPS in patients with dementia and informal caregiver distress in primary care. METHODS/DESIGN: This is a prospective observational study on the course of NPS in patients with dementia in primary care. Thirty-seven general practitioners (GPs) in 18 general practices were selected based on their interest in participating in this study. We will retrieve electronic medical files of patients with dementia from these general practices. Patients and caregivers will be followed for 18 months during the period January 2012 to December 2013. Patient characteristics will be collected at baseline. Time to death or institutionalization will be measured. Co-morbidity will be assessed using the Charlson index. Psychotropic drug use and primary and secondary outcome measures will be measured at 3 assessments, baseline, 9 and 18 months. The primary outcome measures are the Neuropsychiatric Inventory score for patients with dementia and the Sense of Competence score for informal caregivers. In addition to descriptive analyses frequency parameters will be computed. Univariate analysis will be performed to identify determinants of the course of NPS and informal caregiver distress. All determinants will then be tested in a multivariate regression analysis to determine their unique contribution to the course of NPS and caregiver distress. DISCUSSION: The results of this study will provide data on the course of NPS, which is clinically important for prognosis. The data will help GPs and other professionals in planning follow-up visits and in the timing for offering psycho-educa

Published
2014

47. Quantifying Bed Level Change at the Transition of Tidal Flat and Salt Marsh: Can We Understand the Lateral Location of the Marsh Edge?

Author

Willemsen, P. W. J. M., Borsje, B. W., Hulscher, S. J. M. H., Van der Wal, D., Zhu, Z., Oteman, B., Evans, B., Möller, I., and Bouma, T. J.

Abstract

Bed level dynamics at the interface of the salt marsh and tidal flat have been highlighted as a key factor connecting the long‐term biogeomorphological development of the marsh to large‐scale physical forcing. Hence, we aim to obtain insight into the factors confining the location of the marsh edge (i.e., boundary between tidal flat and salt marsh). A unique data set was collected, containing measurements of daily bed level changes (i.e., integrative result of physical forcing and sediment properties) at six intertidal transects in the North Sea area. Moreover, various biophysical parameters were measured, such as sediment characteristics, waves, inundation time, and chlorophyll‐alevels. The data show that both bed level change and waves decreased from the lower intertidal flat toward the marsh edge and further diminished inside the marsh. However, no direct general relation was found between waves and bed level change. Bed level change inside the marsh was always small, regardless of wave energy. By combining the data sets, we demonstrate that the location of the lower marsh edge is restricted by two interacting factors: inundation time and bed level change. For vegetation establishment to withstand longer inundation stress, which slows down plant growth, more stable bed levels are required so that plants are not heavily disturbed. Conversely, to withstand more dynamic bed levels that disturbs plant growth, lower inundation stress is needed, so that plants grow fast enough to recover from the stress. The results suggest that bed level change is important in determining the position of the marsh edge. Biophysical interactions determine bed level change, both at the salt marsh and tidal flatBed level change and inundation time control the lateral position of the marsh edge by driving vegetation growthFor vegetation to withstand longer inundation requires stable bed levels while; withstanding dynamic bed levels requires less inundation

Published
2018
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