A natural touch for coastal defense
A natural touch for coastal defense EurekAlert
Combining Nature-Based and Hard Coastal Defenses for Climate Adaptation and Mitigation
Introduction
Common “hard” coastal defenses, like concrete sea walls, might struggle to keep up with increasing climate risks. A new study shows that combining them with nature-based solutions could, in some contexts, create defenses which are better able to adapt. Researchers reviewed 304 academic articles on the performance of coastal defenses around the world, including: natural environments; soft measures (which support or enrich nature); hard measures (such as concrete sea walls); and hybrids of the aforementioned. Soft and hybrid measures turned out to be more cost-effective than hard measures, and hybrid measures provided the highest hazard reduction overall in low-risk areas. Although their comparative performance during extreme events that pose a high risk is not clear due to lack of data, these results still support the careful inclusion of nature-based solutions to help protect, support and enrich coastal communities.
The Challenge of Coastal Defense
Japan’s dramatic natural coastline, with iconic views of Mount Fuji, wind-blown pines and rocky beaches, has been captured and admired in paintings and prints for hundreds of years. But take a walk by the ocean nowadays and it can be hard to find a stretch that retains its pristine natural seascape. By the early 1990s, a government survey found that around 40% of the coast had been altered with concrete sea walls, filled harbors, stacks of tetrapods and more, adding swaths of gray to the blue-green landscape. Sprawling coastal cities and towns have grown to house most of the population, so protecting homes and businesses from the dangers of tsunamis, typhoon swells and sea-level rise has become an ever-increasing challenge.
Nature-Based Solutions for Coastal Defense
“Sea walls, dikes, dams and breakwaters, the so-called traditional hard measures, despite being the most popular coastal defenses globally and with proven track records, are facing challenges to keep pace with increasing climate risks”, explained Lam Thi Mai Huynh, a doctoral student from the graduate program in sustainability science at the University of Tokyo and lead author of a new study on coastal defenses. “These hard structures are expensive to build and require continuous upgrades and repairs as sea level rises and climatic hazards become stronger. Although they are good at mitigating certain coastal disaster risks, they can also cause significant disruption to coastal communities and have adverse environmental effects. Furthermore, they often significantly alter the seascape and sometimes alienate local communities from nature and the very environment we seek to protect.”
To better understand the performance and benefits of different hard and nature-based coastal defenses, an international team compared the results of 304 academic studies. Nature-based coastal defenses included: “natural” ecosystems, for example, existing mangroves and coral reefs; “soft” measures, which restore, rehabilitate, reforest or nourish natural ecosystems; and “hybrid” measures that combine both nature-based components and hard structures, such as placing concrete breakwaters in front of mangroves.
Benefits of Hybrid Coastal Defenses
“By incorporating such natural components, we can create coastal defenses that reduce risk and also offer substantial environmental benefits. We believe that such strategies are very promising in many parts of the world, but they are also not a ‘fix-all’ solution,” said Professor Alexandros Gasparatos from the Institute for Future Initiatives at the University of Tokyo.
The researchers analyzed three key aspects of each type of defense: 1. risk reduction (how much the measure could reduce wave height and energy, and influence shoreline change); 2. climate change mitigation (including carbon storage and greenhouse gas emissions for nature-based measures); and 3. cost-effectiveness over a 20-year period.
“Our results indicate that among all coastal defense options in lower-risk areas, hybrid measures provide the highest risk reduction. Hybrid measures can harness the advantages of both hard and soft measures. They provide the immediacy of an engineered barrier while largely maintaining the ecological functionality of a permeable vegetated zone,” said Huynh. “All nature-based solutions are found to be effective in storing carbon, while both soft and hybrid measures are relatively more cost-effective than traditional hard measures over a 20-year period, though all have positive economic returns.”
Conclusion and Implications
These findings provide strong evidence for integrating and upscaling nature-based components into coastal defenses, but the team advised doing so with caution. “All types of coastal defenses have yet to be adequately tested through paired experiments in circumstances of extreme events and high-risk urgency,” warned Gasparatos. “Until there are many more such experiments focusing on this, we must caution against any universal assumptions about the comparative performance of coastal defense options, whether natural, soft or hybrid measures.”
While acknowledging the limits imposed by the lack of available research on extreme and high-risk situations, Huynh and Gasparatos still believe that this study supports the idea of investing in nature-based solutions for coastal defense in lower-risk areas. Research like this has important implications for policymakers, coastal planners and communities looking to make evidence-based decisions.
References
Paper Title:
Lam T.M. Huynh, Jie Su, Quanli Wang, Lindsay C. Stringer, Adam D. Switzer, Alexandros Gasparatos. Meta-analysis shows hybrid engineering-natural coastal defences perform best for climate adaptation and mitigation. Nature Communications
The article discusses the challenges faced by coastal communities in protecting themselves from climate risks, such as tsunamis, typhoon swells, and sea-level rise. It emphasizes the need for coastal defenses that can adapt to increasing climate risks. These issues are directly connected to SDG 13, which focuses on taking urgent action to combat climate change and its impacts. Additionally, the article mentions the use of nature-based solutions, such as existing mangroves and coral reefs, to enhance coastal defenses. This aligns with SDG 14, which aims to conserve and sustainably use the oceans, seas, and marine resources. Furthermore, the article highlights the importance of maintaining ecological functionality and reconnecting people with nature, which relates to SDG 15’s goal of protecting, restoring, and promoting sustainable use of terrestrial ecosystems.
The article emphasizes the need for coastal defenses that can adapt to increasing climate risks, which aligns with SDG 13.1’s target of strengthening resilience and adaptive capacity to climate-related hazards and natural disasters. The use of nature-based solutions, such as existing mangroves and coral reefs, to enhance coastal defenses supports SDG 14.2’s target of sustainably managing and protecting marine and coastal ecosystems to avoid significant adverse impacts. Additionally, the article highlights the importance of maintaining ecological functionality, which relates to SDG 15.1’s target of ensuring the conservation, restoration, and sustainable use of terrestrial and inland freshwater ecosystems and their services.
The article does not explicitly mention specific indicators. However, progress towards SDG 13.1 can be measured by tracking the number of people affected by climate-related hazards and natural disasters. For SDG 14.2, the percentage of marine and coastal areas protected can be used as an indicator to measure progress in sustainably managing and protecting these ecosystems. Similarly, progress towards SDG 15.1 can be measured by tracking the percentage of terrestrial and inland freshwater ecosystems that are restored and conserved.
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Source: eurekalert.org
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SDGs, Targets, and Indicators Analysis
1. Which SDGs are addressed or connected to the issues highlighted in the article?
2. What specific targets under those SDGs can be identified based on the article’s content?
3. Are there any indicators mentioned or implied in the article that can be used to measure progress towards the identified targets?
Table: SDGs, Targets, and Indicators
SDGs
Targets
Indicators
SDG 13: Climate Action
13.1: Strengthen resilience and adaptive capacity to climate-related hazards and natural disasters
Number of people affected by climate-related hazards and natural disasters
SDG 14: Life Below Water
14.2: Sustainably manage and protect marine and coastal ecosystems to avoid significant adverse impacts
Percentage of marine and coastal areas protected
SDG 15: Life on Land
15.1: Ensure the conservation, restoration, and sustainable use of terrestrial and inland freshwater ecosystems and their services
Percentage of terrestrial and inland freshwater ecosystems restored and conserved