Floating Wetlands

This project is funded by Welsh Government’s Local Places for Nature Challenge Fund, administered by WCVA.

A pilot study across three Ynys Môn lakes

the project goals.

  1. Design, permit, and install two floating wetlands to combat water quality issues.

  2. Research the impact on local zooplankton populations and quantify the scale at which water quality could be affected and improved.

  3. Engage the public on the health of the lakes.

  4. Explore opportunities for an expanded installation across Wales.

the pilot

In partnership with Ynys Mon Local Nature Partnership program, we are conducting a pilot study involving three lakes to better understand the impact of floating wetlands on water quality and the mitigation of harmful algal blooms. This study includes:

  1. Control Lake: This lake is equipped with sondes that monitor nutrient levels but has no floating wetland installed. It serves as a baseline to compare the effectiveness of the interventions in the other lakes.

  2. Lake with Floating Wetland: This lake has a floating wetland installed to absorb nutrients directly from the water, aiming to reduce the nutrient load and control algal blooms.

  3. Llyn Maelog: This lake not only has a floating wetland but also additional upstream interventions designed to reduce nutrient inputs from agriculture and sewage. These combined efforts aim to tackle the nutrient pollution at its source and further enhance the effectiveness of the floating wetland.

    We are hoping the learnings from this study will help to inform design and planning for future floating wetlands to support biodiversity and water quality.

the problem

Cyanobacteria can become a problem in lakes like Llyn Maelog under certain conditions, leading to harmful algal blooms (HABs) that produce toxins dangerous to humans and animals. Some cyanobacteria produce cyanotoxins, which can be harmful to animals and humans.

Cyanobacteria can become a problem in lakes like Llyn Maelog under certain conditions, leading to harmful algal blooms (HABs) that produce toxins dangerous to humans and animals, including dogs. Here are the conditions that can contribute to cyanobacterial problems in such lakes:

  1. Nutrient Enrichment (Eutrophication): Excessive nutrients, particularly nitrogen and phosphorus, from agricultural runoff, sewage, and other sources can lead to nutrient-rich waters that promote the growth of cyanobacteria.

  2. Warm Temperatures: Cyanobacteria thrive in warm water temperatures, typically during late spring to early fall. Higher temperatures accelerate their growth and bloom formation.

  3. Calm Water Conditions: Still or slow-moving water provides an ideal environment for cyanobacteria to accumulate and form blooms. Windless days and limited water circulation contribute to these conditions.

  4. Sunlight: Cyanobacteria need sunlight for photosynthesis, so prolonged periods of sunny weather can enhance their growth.

  5. Water Chemistry: Certain chemical conditions, such as higher pH levels and low water hardness, can also favor cyanobacterial growth.

The Science

We kicked off the project at the beginning of the year with a webinair to explain the science behind the project and how the community can get involved. You can watch the recording below.

community

The success of our environmental initiatives hinges on the active involvement of the community. Local residents, educators, and students are the most important stakeholders in monitoring, co-designing, and collating data for our floating wetland projects. By participating in these efforts, the community not only contributes to the scientific understanding of their local ecosystems but also takes ownership of sustainable solutions to protect and improve their water bodies.

education


As part of this pilot programme, we collaborated with teachers, educators, and students in Ynys Môn to help them create their own floating wetlands.

Developed in partnership with the Charles River programme and with support from the LNP team, WCVA, and the Welsh Government, the STEAM Activity Kit offers a hands-on opportunity to learn about the lakes' ecology, pollution, and water quality.

The booklet and lesson plans, designed for a four-week course for grades 3-6, include lessons and activities that fit within a one-hour period. The Activity Kits explore the lifecycle of daphnia and demonstrate changes in water when daphnia, spirulina, and a wetland are present in the same environment. This engaging and educational programme helps students understand the importance of maintaining healthy aquatic ecosystems and the role of innovative solutions like floating wetlands in water quality management.

“Our STEAM EDUCAtION PRoGRAMME INSPIRES YOUNG PEOPLE TO UNDERSTAND WATER QUALITY, POLLUTION AND NATURE BASED SOLUTIONS TO AID RECOVERY.”

— Poppy Backshall ,Community Engagement Officer

work so far…

phase one

Launched the project

We launched the project with an event at the Oyster catcher in Rhosneigr, followed by a webinair and talk at the Menai Strait Partnership Forum in Menai Bridge. This was followed by numerous meetings with local schools, Natural Resource Wales and other stakeholder groups and organisations

Wetland design

Dr Antony Smith initially devised the wetlands and locations in partnership with landowners based on scientific data and access. We then sent out a tender for procurement and we selected Biomatrix Water Solutions to design the plant system and install the wetland.

Education

Poppy launched the DIY floating wetland project by launching a wave of school assemblies across Ynys Mon and gave talks on the wetland. Poppy signed up ten schools to our DIY floating wetland programme.

Phase 2

In phase two, we installed sondes across three Ynys Môn lakes to collect data on nutrient levels. This information will help us understand the issues affecting these lakes and target interventions to improve water quality. The sondes were installed at the end of May. Additionally, our community volunteers are gathering data on cyanobacteria levels and sending samples to an accredited laboratory. This alerts local residents when the water may be dangerous and allows us to monitor key months when cyanobacteria levels are likely to rise, linking these patterns to nutrient inputs and weather conditions. You can view the latest cyanobacteria levels below.

Launch of our DIY Wetland Kit

We connected with our friends at the Charleston Project in Boston, USA, who shared their innovative DIY floating wetland kit. Inspired by this, the North Wales Rivers Trust team developed a bilingual STEAM resource, available for download below. Pupils across Ynys Môn used these materials to design, build, and monitor their own mini floating wetlands in the classroom over a four-week program. They introduced Daphnia to observe the effects of zooplankton on water quality, mimicking the cleaning effects of our Llyn Maelog wetland.

phase three

In phase three, we will install an additional wetland in a lake in Ynys Mon to compare the differences between the lakes. This project will continue for at least three years to better understand the impact of floating wetlands on water quality.

During the autumn, we will collaborate with several farmers on best land management practices and implement farming interventions to reduce nutrient runoff at the source.

Poppy will also launch our final wave of floating wetland classroom sessions. If you would like to involve your school pupils, please get in touch using our contact page.

Check back soon for more updates!

faq’s

Protecting Ynys Môn lakes

  • Cyanobacteria, also known as blue-green algae, are a phylum of bacteria that obtain their energy through photosynthesis. Here are some key points about cyanobacteria:

    1. Photosynthetic Ability: Cyanobacteria are unique among bacteria for their ability to perform oxygenic photosynthesis, similar to that of plants. This means they can convert sunlight into energy and produce oxygen as a byproduct.

    2. Ecological Role: They play a crucial role in many ecosystems, particularly in aquatic environments, as primary producers. They form the base of the food web, supporting a variety of marine and freshwater life.

    3. Nitrogen Fixation: Some cyanobacteria can fix atmospheric nitrogen into a form usable by plants and other organisms. This makes them important in nutrient cycling, especially in nutrient-poor environments.

    4. Habitat: Cyanobacteria are found in a wide range of habitats, including freshwater, marine environments, moist soils, and even extreme environments like hot springs and desert crusts.

    5. Historical Significance: They are believed to be one of the earliest forms of life on Earth, playing a significant role in the Great Oxygenation Event around 2.4 billion years ago, which dramatically increased the oxygen levels in the Earth's atmosphere.

    6. Health and Environmental Impacts: While they are essential to ecosystems, some cyanobacteria can produce toxins known as cyanotoxins. These can be harmful to humans, animals, and the environment, causing issues like harmful algal blooms (HABs) in water bodies.

    7. Applications: Cyanobacteria are also being explored for various applications, including biofuel production, bioremediation, and as sources of natural products like vitamins and pigments.

  • Cyanobacteria can become a problem in lakes like Llyn Maelog under certain conditions, leading to harmful algal blooms (HABs) that produce toxins dangerous to humans and animals, including dogs. Here are the conditions that can contribute to cyanobacterial problems in such lakes:

    1. Nutrient Enrichment (Eutrophication): Excessive nutrients, particularly nitrogen and phosphorus, from agricultural runoff, sewage, and other sources can lead to nutrient-rich waters that promote the growth of cyanobacteria.

    2. Warm Temperatures: Cyanobacteria thrive in warm water temperatures, typically during late spring to early fall. Higher temperatures accelerate their growth and bloom formation.

    3. Calm Water Conditions: Still or slow-moving water provides an ideal environment for cyanobacteria to accumulate and form blooms. Windless days and limited water circulation contribute to these conditions.

    4. Sunlight: Cyanobacteria need sunlight for photosynthesis, so prolonged periods of sunny weather can enhance their growth.

    5. Water Chemistry: Certain chemical conditions, such as higher pH levels and low water hardness, can also favor cyanobacterial growth.

    Potential Hazards

    • Toxins: Some cyanobacteria produce cyanotoxins, which can be harmful to animals and humans. Dogs are particularly at risk because they might drink contaminated water or lick cyanobacteria from their fur.

      • Liver Toxins: Such as microcystins.

      • Neurotoxins: Such as anatoxin-a.

      • Skin Irritants: Can cause rashes and other skin issues upon contact.

    Symptoms in Dogs

    • Liver Toxin Exposure: Vomiting, diarrhea, jaundice, lethargy, seizures, and in severe cases, death.

    • Neurotoxin Exposure: Muscle tremors, difficulty breathing, paralysis, and death within minutes to hours.

    Prevention and Mitigation

    1. Monitoring and Reporting: Regular monitoring of water bodies for cyanobacterial blooms and reporting any sightings to local environmental or health authorities.

    2. Public Awareness: Informing the public about the dangers of cyanobacteria, particularly pet owners who might let their dogs swim in or drink from the lake.

    3. Nutrient Management: Implementing practices to reduce nutrient runoff into lakes, such as better agricultural practices, proper sewage treatment, and maintaining buffer zones around water bodies.

    4. Water Treatment: In some cases, chemical treatments or aeration can help control cyanobacterial blooms, though these methods must be used cautiously to avoid further ecological disruption.

    Immediate Actions if Exposure Occurs

    • Seek Veterinary Care: If a dog shows symptoms of cyanotoxin poisoning, immediate veterinary attention is crucial.

    • Rinse with Clean Water: Rinse the dog thoroughly with clean, fresh water to remove any cyanobacteria from their fur and skin.

    Regular monitoring and proactive management are key to preventing and mitigating cyanobacterial problems in lakes like Llyn Maelog.

  • Floating wetlands, also known as floating treatment wetlands (FTWs), can be an effective method for mitigating cyanobacterial blooms in lakes like Llyn Maelog. Here’s how they work and their benefits:

    How Floating Wetlands Work

    1. Structure: Floating wetlands are constructed platforms made from buoyant materials that support a variety of aquatic plants. The roots of these plants extend down into the water column, creating a habitat for beneficial microorganisms.

    2. Nutrient Uptake: The plants and their associated microbial communities absorb nutrients, particularly nitrogen and phosphorus, from the water. These nutrients are essential for cyanobacterial growth, so reducing their availability helps control blooms.

    3. Habitat Creation: The roots and plant matter provide a habitat for microorganisms that can break down organic matter and further process nutrients, improving overall water quality.

    4. Shade and Oxygenation: Floating wetlands provide shade, which can reduce water temperatures and limit sunlight penetration, both of which can inhibit cyanobacterial growth. Additionally, the plants can enhance oxygen levels through photosynthesis and root-zone aeration, which benefits aquatic life.

    Benefits of Floating Wetlands

    1. Nutrient Reduction: By absorbing excess nutrients, floating wetlands directly address one of the primary causes of cyanobacterial blooms.

    2. Improved Water Quality: The reduction of nutrients and organic matter improves overall water quality, making the water body healthier for aquatic life and safer for human and animal use.

    3. Biodiversity Enhancement: Floating wetlands create habitats for various organisms, increasing biodiversity within the water body. This can lead to more balanced ecosystems less prone to harmful algal blooms.

    4. Erosion Control: By stabilizing shorelines and reducing wave action, floating wetlands can help prevent erosion, which also contributes to nutrient loading.

    5. Aesthetic and Recreational Value: These wetlands can enhance the natural beauty of a lake, making it more attractive for recreational activities.

    Implementation Considerations

    1. Design and Placement: The design and placement of floating wetlands should be tailored to the specific conditions of the lake, such as water depth, flow patterns, and nutrient levels.

    2. Maintenance: Regular maintenance is required to ensure the health and effectiveness of the plants. This includes periodic harvesting of plant biomass to remove accumulated nutrients from the system.

  • Opportunities for Participation

    1. Wildlife Monitoring:

      • Observation and Recording: Community members can participate in observing and recording wildlife around Llyn Maelog, including birds, amphibians, fish, and macroinvertebrates.

      • Training Sessions: Attend training sessions to learn how to accurately identify species and record observations.

    2. Water Quality Testing:

      • Citizen Science Kits: Volunteers can use simple water testing kits to measure parameters like nitrate, phosphate, and ammonia levels.

      • Workshops: Participate in educational workshops to learn water quality monitoring techniques and understand the significance of different parameters.

    3. Regular Monitoring:

      • Sampling Assistance: Help scientists with weekly water sample collection.

      • Data Entry: Assist with entering data into the central database and maintaining records.

    4. Data Analysis and Feedback:

      • Review Meetings: Join regular meetings to review collected data, discuss findings, and provide feedback.

      • Online Platform: Use the online platform or mobile app to upload observations and test results.

    5. Awareness and Outreach:

      • Community Meetings: Attend community meetings to stay informed about the monitoring progress and results.

      • Public Communication: Help spread awareness by sharing updates through newsletters, social media, and local news outlets.

    How to Get Involved

    • Contact Information:

    • Events Page:

      • Check our events page for updates on dates and opportunities to get involved.