In this paper we position sustainable tourism of the Wadden. The aim is to clarify the complex issues at stake and therewith provide a framework for future actions and policies.
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The aim of this QSR 2022 on tourism is to make an attempt to assess available information about the tourism industry from three countries and various sources and present it in a comprehensive manner. We, thereby, describe common features of regional tourism structures, as well as differences, and we present some of the identified data incompatibilities (sections 2.2 and 2.3). The recommendations in section 3 present avenues along which data collection and monitoring can be improved, inspired by a set of key forces driving change intourism that stakeholders should be prepared for (section 2.4).
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This chapter is about the development of tourism in the Dutch Wadden Sea Region in combination with nature conservation. The main question is whether they have a common future. There are some future points stated:- Nature and landscape of the Wadden Sea are the main pull factors for the tourism development. - Future tourism development requires a clear strategy that is supported by various stakeholders- Raising awareness about the natural values results in more visitors and public support for nature conservation- The World Heritage status facilitates cooperation between local entrepreneurs and nature conservation organisationsOverall the conclusion can be drawn that, stimulated by the World Heritage status of the Wadden Sea and facilitated by a trilateral Sustainable Tourism Strategy, tourism development and nature conservation and can mutually benefit. Raising awareness about the natural values of the Wadden Sea will result in more visitors to the region and contributes to an emotional attachment to the protected area and public support for the conservation programs.
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Ameland, a Dutch Wadden Sea island, is blessed with many historical buildings, such as captains’ houses, which make up picturesque neighbourhoods. Together with the attractions of sandy beaches, these quaint villages attract hundreds of thousands of visitors each year. Ameland also has the ambitious goal to become self-sufficient in renewable energy. Therefore, it is now urgently needed to design strategies for energy efficiency, while keeping cherished values intact.
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The international Wadden Sea is an estuarine tidal area along the North Sea coasts of The Netherlands, Germany and Denmark. It is characteristic for regions with sandy coasts and a medium tidal range. Fifty barrier islands separate the Wadden Sea from the North Sea, and an offshore transition zone to the North Sea. The tidal flats of the Wadden Sea form the largest unbroken stretchof mudflats worldwide. The present form of the Wadden Sea is still mainly the result of natural forces, although since the Middle Ages man has changed the Wadden Sea landscape by building dykes and reclaiming land. The Wadden Sea is an important nursery area for fish, a foraging and resting habitat for seals, and a foraging habitat for migrating waders. The Wadden Sea, including large parts of the islands, is a fully nature protected area and designated as a natural World Heritage site in 2009 (Wolff, 2013). The research group Marine Wetlands Studies at Stenden University is focusing on the sustainable development of tourism in the area. Current research has the purpose to get insight in to the effects of the World Heritage Status, in particular the natural values of the area, on future tourism development.
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Ameland, a Dutch Wadden Sea island, is blessed with many historical buildings, such as captains’ houses, which make up picturesque townscapes. Together with the attractions of sandy beaches, these quaint villages attract hundreds of thousands of visitors each year. Ameland also has the ambitious goal to become self-sufficient in renewable energy. Our (practical) aim is to support local stakeholders with the design of energy transition strategies that take account of heritage values.Theoretically, we rely on a layered framework, where meanings and values of individual buildings, townscapes, landscapes, local historical narratives, as well as economic and social values can find a place. In our project, we encountered value conflicts and will discuss how these conflicts can be resolved. In this respect, we refer to the concept of a value hierarchy.We investigate heritage values held by inhabitants of Ameland. What aspects of their built environment do they value in particular? How are specific building types, historical townscapes and landscapes evaluated? What impact of energy measures and scenarios do they find acceptable? To this end, we developed an online questionnaire, which was distributed by local stakeholders. We found a range of heritage and sustainability values held by the inhabitants and stakeholders of Ameland. In the discussion section we will return to the conflicting values in the Ameland case. We find that the presence of heritage values leads to the specification of conditions for the application of energy measures; these should be as invisible as possible. Thus, to combine the values of heritage and sustainability, setting norms and requirements for the implementation of new energy measures is advisable.
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The research presented in this thesis has highlighted (bio)geochemical, hydrological, and wetland ecological processes that interact and enhance ecosystem development on wetlands built on fine sediment. A combination of greenhouse and laboratory experiments were conducted. Some measured data from these experiments formed important input for subsequent analysis in a modeling environment. The findings presented in Chapters 2-6 can be divided into four topics: 1) Plant–soil interactions in the terrestrial zone, 2) wetland–terrestrial processes influencing nutrient availability in the land–water zone, 3) effects of plants on sediment consolidation in the terrestrial zone, and 4) effects of bioturbation on nutrient availability in the aquatic zone. The next sections give a summary of the results for these four topics. The last section summarizes the recommendations formulated for the Marker Wadden project.
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Managed realignment is the landward relocation of flood infrastructure to re-establish tidal exchange on formerly reclaimed land. Managed realignment can be seen as a nature-based flood defence system that combines flood protection by the realigned dike (artificial) and restored saltmarshes (nature-based). So far, research on coastal managed realignment is primarily directed to saltmarsh restoration on formerly reclaimed land. This study focuses on the realigned dikes. The aim of this research is to characterize realigned dikes and to indicate the characteristics that offer opportunities for nature-based flood protection. We categorized 90 European coastal managed realignment projects into two realigned dike groups: (1) Newly built landward dikes and (2) Existing landward dikes of former multiple dike systems. The second group has two subcategories: (2a) Former hinterland dikes and (2b) Realignments within summer polders. For each group we present the realigned dike characteristics of a representative case study. We consider that the use of existing landward dikes or local construction material make realignment more sustainable. From a nature-based flood protection perspective, the presence of an artificial dike is ambiguous. Our results show that targeted and expected saltmarsh restoration at managed realignment does not necessarily result in a greener realigned dike design that suits for combined flood protection with restored saltmarshes. We recommend coastal managers to explicitly take combined flood protection into account in the realigned dike design and steer the topography of the realignment site to facilitate nature-based flood protection and promote surface elevation increase seaward of the realigned dike in response to sea level rise. This makes managed realignment a nature-based flood defence zone for now and for the future.
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This research addresses the question on how Delfzijl can take advantage of the dykes referred to recreational activities within the next five years. In order to investigate this problem statement, the elaboration was started with the definition of research questions and secondary research. Here, brochures, websites, books and other researches were used to gather significant information about Delfzijl. Next, quantitative and qualitative research methods were used in order to collect data and information about the different stakeholders, the current situation of the municipality and the expectations of the people concerning the future. Thus, a fieldtrip was done to interview stakeholders and to distribute questionnaires to the sample. Additionally, a benchmarking was done with the German city `Nessmersiel` in order to compare and discover development possibilities. The research outcome is that Delfzijl suffers from a decreasing population number, a low level of recreational attractiveness and lack of money. Many people claim that the dyke is a significant resource that should be used for recreational developments. Hereby, developments can be done on a small budget.
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Like most ocean regions today, the European and contiguous seas experience cumulative impacts from local human activities and global pressures. They are largely in poor environmental condition with deteriorating trends. Despite several success stories, European policies for marine conservation fall short of being effective. Acknowledging the challenges for marine conservation, a 4-year multi-national network, MarCons, supported collaborative marine conservation efforts to bridge the gap between science, management and policy, aiming to contribute in reversing present negative trends. By consolidating a large network of more than 100 scientists from 26 countries, and conducting a series of workshops over 4 years (2016–2020), MarCons analyzed challenges, opportunities and obstacles for advancing marine conservation in the European and contiguous seas. Here, we synthesize the major issues that emerged from this analysis and make 12 key recommendations for policy makers, marine managers, and researchers. To increase the effectiveness of marine conservation planning, we recommend (1) designing coherent networks of marine protected areas (MPAs) in the framework of marine spatial planning (MSP) and applying systematic conservation planning principles, including re-evaluation of existing management zones, (2) designing MPA networks within a broader transboundary planning framework, and (3) implementing integrated land-freshwater-sea approaches. To address inadequate or poorly informed management, we recommend (4) developing and implementing adaptive management plans in all sites of the Natura 2000 European conservation network and revising the Natura 2000 framework, (5) embedding and implementing cumulative effects assessments into a risk management process and making them operational, and (6) promoting actions to reach ‘good environmental status’ in all European waters. To account for global change in conservation planning and management, we further recommend (7) developing conservation strategies to address the impacts of global change, for example identifying climate-change refugia as high priority conservation areas, and (8) incorporating biological invasions in conservation plans and prioritizing management actions to control invasive species. Finally, to improve current practices that may compromise the effectiveness of conservation actions, we recommend (9) reinforcing the collection of high-quality open-access data, (10) improving mechanisms for public participation in MPA planning and management, (11) prioritizing conservation goals in full collaboration with stakeholders, and (12) addressing gender inequality in marine sciences and conservation.
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