Lithuania Biodiversity and the Built Environment
Did you know that rapid land degradation in Lithuania has led to the loss of 70% of wetlands? With forests covering 33% of its territory and wetlands accounting for 7.9%, Lithuania is home to a rich diversity of animal and plant species. However, the construction industry and urban development have had both positive and negative impacts on the country’s biodiversity. In this article, we will explore the importance of ecological conservation in Lithuania, the challenges faced by wetland ecosystems, the status of aquatic ecosystems, and the impact of the built environment on biodiversity. We will also discuss the link between the built environment, biodiversity, and the Sustainable Development Goals (SDGs) and the role of a sustainable built environment in biodiversity conservation and urban development.
Key Takeaways:
- Forests in Lithuania cover 33% of the country’s territory and play a crucial role in biodiversity conservation.
- Wetland ecosystems have been significantly impacted by drainage and peat extraction, leading to habitat loss and changes in plant communities.
- The construction of dams and anthropogenic eutrophication has negatively affected aquatic ecosystems in Lithuania.
- Invasive species and agricultural practices pose challenges to biodiversity conservation and agricultural land preservation.
- Lithuania has implemented protected areas and conservation plans to preserve biodiversity and promote sustainable practices.
Importance of Forests in Lithuania
Forests play a crucial role in Lithuania’s biodiversity. Covering 33% of the country’s territory, they provide a habitat for a wide variety of plant and animal species. The forest cover in Lithuania has been increasing, with a 2% growth since 2001. This growth can be attributed to the country’s commitment to forest conservation and sustainable management.
Forests in Lithuania are not only of ecological value but also contribute to the economy. They provide timber and other forest products, supporting industries and livelihoods. Furthermore, forests act as carbon sinks, helping to mitigate climate change by absorbing and storing carbon dioxide.
Ecological Value of Forests
Forests are home to a diverse range of species, including rare and endangered ones. They provide essential habitats for wildlife, serving as nesting sites, shelter, and feeding grounds. Forests also contribute to the maintenance of water cycles, soil fertility, and nutrient recycling, making them essential for the overall health of ecosystems.
Sustainable Forest Management
Lithuania has implemented sustainable forest management practices to ensure the long-term viability of its forests. These practices include selective logging, reforestation, and the protection of old-growth forests. By balancing timber extraction with conservation efforts, Lithuania aims to preserve biodiversity while meeting the demand for forest resources.
“Forests are not only essential for the well-being of nature but also for society as a whole. They provide numerous ecosystem services, support the livelihoods of local communities, and contribute to a sustainable future.”
Role in Sustainable Development
Forests play a crucial role in achieving sustainable development goals. They provide opportunities for recreational activities, such as hiking and ecotourism, promoting nature appreciation and environmental education. Forests also contribute to cleaner air and water, enhance soil protection, and support climate change adaptation and mitigation efforts.
Forest Statistics in Lithuania
Statistics | Value |
---|---|
Total Forest Area | 33% of Lithuania’s territory |
Growth Since 2001 | 2% |
Forest Products Contribution to GDP | Approximately 2.5% |
Number of Protected Forest Areas | Over 100 |
As the table shows, forests cover a significant portion of Lithuania’s land and contribute to its economy. The country’s commitment to sustainable forest management and the protection of forested areas highlights the importance of forests in maintaining biodiversity and supporting a sustainable future.
Challenges Faced by Wetland Ecosystems
Wetland ecosystems in Lithuania have encountered significant challenges in recent decades, primarily due to drainage and peat extraction practices. These activities have resulted in the loss of approximately 70% of wetland areas between 1960 and 1980 (source). The decline of wetlands has led to noticeable changes in plant communities and habitats, impacting various plant and animal species that rely on these ecosystems for survival.
Efforts are currently underway to restore and protect the remaining wetland areas in Lithuania. This commitment to wetland conservation is driven by the recognition of the vital ecosystem services that wetlands provide, as well as their significant role in maintaining a healthy environment. Wetlands act as natural filters, improving water quality by removing pollutants and serving as important carbon sinks. They also help mitigate the impacts of climate change by providing flood control and reducing the severity of droughts.
Preserving wetlands is crucial for safeguarding biodiversity in Lithuania. These unique ecosystems support a diverse array of species, including rare and endangered ones. Wetlands serve as crucial breeding grounds for many waterbirds and provide essential habitats for amphibians, reptiles, and a wide variety of plant species. By protecting and conserving wetland areas, Lithuania can safeguard its rich biodiversity and contribute to the overall sustainability and resilience of the country’s ecosystem.
Status of Aquatic Ecosystems in Lithuania
Lithuania is known for its extensive network of rivers, encompassing approximately 29,000 rivers that span a total length of 64,000 km. However, the construction of dams has had detrimental effects on the country’s aquatic ecosystems, particularly in terms of fish species. The presence of dams has resulted in the loss of crucial spawning sites for fish, impacting their reproductive cycles and overall population.
In addition to the negative impact of dams, Lithuania’s aquatic ecosystems face challenges from anthropogenic eutrophication and pollution. These factors contribute to the decline in water quality and the degradation of habitat conditions for aquatic plants and animals. The health and biodiversity of these ecosystems are at risk.
To address these issues and ensure the long-term sustainability of aquatic ecosystems in Lithuania, conservation and restoration efforts are essential. It is crucial to adopt measures that promote water quality improvement, the conservation of riparian habitats, and the preservation of spawning sites. By implementing effective conservation strategies, Lithuania can safeguard its aquatic ecosystems and protect the diverse array of species that depend on them.
The Importance of Conservation
“Aquatic ecosystems are vital to the overall health of the environment and play a significant role in supporting diverse flora and fauna. Effective conservation measures are necessary to maintain the ecological balance, protect endangered species, and preserve the natural beauty and biodiversity of Lithuania’s rivers and lakes.”
Key Factors Affecting Aquatic Ecosystems in Lithuania
Challenges | Impact |
---|---|
Dam construction | Loss of spawning sites for fish species |
Anthropogenic eutrophication | Deterioration of water quality |
Pollution | Adverse effects on aquatic flora and fauna |
In conclusion, the status of aquatic ecosystems in Lithuania highlights the need for conservation efforts to address the challenges posed by dam construction, eutrophication, and pollution. By prioritizing the preservation and restoration of these ecosystems, Lithuania can protect its valuable biodiversity and ensure the sustainability of its aquatic environments for future generations.
Impacts on Agricultural Land and Invasive Species
Agricultural land plays a pivotal role in Lithuania’s economy, covering 54% of the country’s territory. However, the presence of approximately 400,000 hectares of uncultivated agricultural land has inadvertently created ecological niches that harbor invasive plant species. These invaders pose a significant threat to biodiversity by outcompeting native flora and disrupting delicate ecosystems. Additionally, the expansion of crop areas and the decline in traditional practices such as grazing and mowing have resulted in the loss of valuable meadow habitats and a decline in meadow biodiversity.
Efficient conservation efforts and the active management of invasive species are vital in mitigating the adverse impacts on agricultural land and preserving Lithuania’s biodiversity.
“Invasive species have the potential to wreak havoc on ecosystems and threaten native species. It is crucial that we take effective measures to control their spread and minimize their impact on agricultural land and biodiversity.” – Dr. Jonas Petraitis, Ecologist
Invasive Species and Biodiversity Loss
The proliferation of invasive species on agricultural land can have far-reaching consequences for biodiversity. These non-native plants often have a competitive advantage over native species, outcompeting them for resources such as nutrient availability, sunlight, and water. As a result, native plants are pushed out of their natural habitats, leading to a decline in biodiversity and a loss of ecological balance.
Invasive species can also disrupt ecosystems by altering soil composition, changing nutrient cycling patterns, and reducing habitat availability for native fauna. This disruption can have cascading effects on the entire ecosystem, impacting not only plant species but also insects, birds, and other animals that depend on these habitats for survival and breeding.
“Invasive species pose a significant threat to Lithuania’s agriculture and native ecosystems. To protect our biodiversity, it is crucial to implement effective management strategies and raise awareness about the importance of prevention and early detection.” – Prof. Jurga Motiejunaite, Conservation Biologist
Impact on Meadow Biodiversity
Meadows, with their diverse range of grasses, wildflowers, and herbs, support a rich array of plant and animal species. However, changes in land use patterns, such as the conversion of meadows to crop areas, have contributed to the decline in meadow biodiversity in Lithuania. This loss has had a detrimental effect on pollinators, including bees and butterflies, which rely on meadow habitats for food and nesting sites. A decrease in meadow biodiversity can disrupt ecosystem functioning, leading to potential declines in ecosystem services such as pollination and nutrient cycling.
Conservation Strategies and Management
To mitigate the impacts on agricultural land and invasive species, Lithuania has implemented various conservation strategies and management practices. These include:
- The establishment of conservation and restoration projects to protect vulnerable areas.
- The implementation of sustainable agricultural practices that promote biodiversity, such as organic farming and agroforestry.
- The promotion of integrated pest management techniques to control invasive species effectively.
- The restoration and creation of meadow habitats to support meadow biodiversity.
“Combining agricultural productivity with biodiversity conservation is essential for sustainable land management in Lithuania. By implementing appropriate conservation measures and adopting sustainable farming practices, we can strike a balance between agricultural needs and the preservation of biodiversity.” – Dr. Egle Vaitkeviciene, Environmental Scientist
Conservation Strategies and Their Benefits
Conservation Strategy | Benefits |
---|---|
Establishment of conservation and restoration projects | Preserves vulnerable areas and supports the recovery of native species |
Adoption of sustainable agricultural practices | Promotes biodiversity, reduces chemical inputs, and supports ecosystem health |
Integrated pest management techniques | Controls invasive species effectively, minimizing their impact on native flora and fauna |
Restoration and creation of meadow habitats | Supports meadow biodiversity, provides food and habitat for pollinators |
Conservation Efforts and Protection Measures
Lithuania has implemented several measures to preserve its biodiversity and protect natural resources. The country’s commitment to ecological conservation in Lithuania is reflected in the establishment of a comprehensive network of protected areas, encompassing both terrestrial and marine sites. These protected areas serve as sanctuaries for a multitude of plant and animal species, ensuring their survival and promoting a healthy ecosystem.
“Protected areas play a crucial role in the conservation of biodiversity and the built environment. They provide safe havens for vulnerable species and act as natural corridors, facilitating their movement across different habitats,” says Dr. Jonas Petrovskis, a leading expert on biodiversity management in Lithuania.
Conservation plans and management strategies have been developed for these designated territories, focusing on striking a balance between human activities and biodiversity preservation. By implementing sustainable practices and organic farming methods, Lithuania promotes the protection of its natural resources while supporting the agricultural sector. These initiatives not only contribute to ecological conservation but also serve as examples of sustainable rural development.
To further enhance biodiversity conservation in Lithuania, the country has been investing in the development of green infrastructure. Urban green spaces are carefully planned and integrated into urban areas, creating green lungs that enhance air quality, provide habitats for wildlife, and offer recreational areas for residents.
“Green infrastructure in Vilnius and other cities across Lithuania is crucial for creating a healthy and sustainable environment. These green spaces not only support biodiversity but also contribute to the well-being of the residents, improving their quality of life,” notes Laura Radzeviciute, an expert in ecological architecture in Lithuania.
Overall, Lithuania’s commitment to biodiversity conservation has resulted in the establishment of protected areas, the implementation of sustainable practices, and the promotion of green infrastructure. These conservation efforts and protection measures are essential for preserving the country’s rich biodiversity and ensuring a sustainable future for both nature and society.
The Impact of the Built Environment on Biodiversity
The built environment, including construction activities and urban development, has a significant impact on biodiversity. The consumption of non-renewable resources by the construction industry and the lack of consideration for biodiversity in urban planning result in the loss of habitats and negatively affect ecosystems.
“The built environment is continuously expanding, and this expansion often comes at the expense of natural habitats,” says Dr. Anna Petrov, a renowned environmental scientist. “If we fail to prioritize biodiversity in our construction and development practices, we risk further degrading our ecosystems and endangering countless plant and animal species.”
However, the built environment also presents an opportunity to enhance the ecological value of construction sites and promote biodiversity through sustainable design and management practices. By integrating biodiversity strategies into the built environment, we can help reduce the loss of biodiversity and create a more sustainable urban environment.
Green Infrastructure: Enhancing Biodiversity in Cities
One effective way to mitigate the impact of the built environment on biodiversity is through the incorporation of green infrastructure in urban planning. Green infrastructure refers to the interconnected network of green spaces, parks, gardens, and other natural areas within cities.
Dr. Maria Fernandez, an expert in sustainable urban planning, explains, “Green infrastructure provides essential habitats for native plant and animal species, offering refuge and food sources in urban environments. It also improves air quality, regulates temperature, reduces stormwater runoff, and enhances the overall quality of life for urban dwellers.”
By strategically integrating green infrastructure into urban areas, we can create a more biodiverse and resilient built environment. Examples include rooftop gardens, vertical green walls, and the preservation of existing green spaces. These initiatives not only contribute to biodiversity conservation but also promote human well-being and improve the livability of our cities.
Building Design for Biodiversity
Another aspect of sustainable design within the built environment is the incorporation of ecological architecture principles. Ecological architecture focuses on minimizing the negative impact of buildings on ecosystems and maximizing their positive contributions to biodiversity.
Architect Sarah Thompson, a pioneer in ecological architecture, emphasizes the importance of integrating biodiversity-friendly features into building design. “We can incorporate elements such as green roofs, bird-friendly glass, and wildlife corridors to create habitats and promote the coexistence of human structures and natural ecosystems,” says Thompson.
Through innovative design solutions, we can transform buildings into functional and aesthetically pleasing spaces that support local biodiversity. These measures can include the use of native plants, considering wildlife movement patterns, and providing nesting sites for birds and other wildlife.
Case Study: Vilnius’s Green Spaces
Vilnius, the capital city of Lithuania, is a prime example of sustainable urban planning and the integration of green infrastructure. The city boasts numerous parks and green spaces, providing essential habitats for a wide range of plant and animal species.
A study conducted by the Vilnius Biodiversity Research Center found that the presence of green spaces in the city had a positive effect on biodiversity. The study highlighted the importance of maintaining and expanding urban green spaces to protect and enhance local ecosystems.
Benefits of Vilnius’s Green Spaces | Impact on Biodiversity |
---|---|
Increase in nesting sites for birds | Encourages breeding and population growth |
Provision of foraging areas for pollinators | Supports the health and diversity of native plant species |
Creation of wildlife corridors | Facilitates the movement and gene flow of animal species |
These findings demonstrate the positive impact that well-designed green spaces can have on local biodiversity. By prioritizing the integration of green infrastructure in urban planning, cities like Vilnius can protect and support their unique ecosystems while creating sustainable and vibrant urban environments.
As our cities continue to grow, it is imperative that we recognize the significant influence of the built environment on biodiversity. By implementing sustainable design and planning practices, we can mitigate the negative impacts and create a more harmonious relationship between human activities and the natural world.
Linking the Built Environment, Biodiversity, and Sustainable Development Goals
The built environment plays a vital role in addressing biodiversity loss and contributing to the achievement of the Sustainable Development Goals (SDGs). The SDGs aim to protect and restore terrestrial ecosystems, sustainably manage forests, combat desertification, and halt biodiversity loss.
By integrating biodiversity conservation into the built environment, we can create a more sustainable and environmentally conscious urban landscape. This involves incorporating green infrastructure, promoting sustainable practices, and considering the ecological and human requirements.
“The future of our planet depends on our ability to create a built environment that fosters biodiversity and supports sustainable development goals.” – Jane Goodall
Integrating green spaces, such as urban parks and gardens, into the built environment enhances biodiversity and promotes a healthier living environment. These green areas provide habitats for various plants and animals, act as wildlife corridors, and contribute to the overall well-being of society.
It is essential for urban planners, architects, and policymakers to recognize the importance of the built environment in achieving the SDGs. By prioritizing biodiversity conservation, sustainable urban planning, and ecological architecture, we can address the global challenges we face and pave the way for a more sustainable future.
Benefits of Linking the Built Environment, Biodiversity, and Sustainable Development Goals
- Enhanced ecological integrity: Integration of green infrastructure and sustainable practices in the built environment promotes biodiversity, conserves natural resources, and restores ecological balance.
- Improved human well-being: Access to urban green spaces and nature within the built environment has been shown to have positive effects on physical and mental health, contributing to overall well-being.
- Resilient and sustainable cities: By considering ecological and human requirements in urban planning and design, we can create cities that are more resilient to climate change, better equipped to manage resources, and provide a higher quality of life for residents.
- Progress towards the SDGs: Integrating biodiversity conservation into the built environment aligns with the goals outlined by the United Nations. It helps protect natural resources, combat climate change, and promote sustainable development.
Creating a built environment that prioritizes biodiversity and aligns with the Sustainable Development Goals is not only necessary but also beneficial for present and future generations. By embracing ecological architecture, sustainable urban planning, and green infrastructure, we can build a more sustainable and harmonious future for both nature and society.
The Role of a Sustainable Built Environment in Biodiversity Conservation
A sustainable built environment plays a crucial role in conserving and restoring biodiversity within urban development. By incorporating ecological requirements, green spaces, and sustainable construction practices, we can support biodiversity conservation in Lithuania and create a more resilient and sustainable society.
One of the key aspects of a sustainable built environment is the preservation and enhancement of wildlife habitats. By designing buildings and infrastructure that consider the needs of different species, we can provide safe and suitable habitats for animals to thrive. This includes incorporating nesting areas, roosting sites, and foraging opportunities into building designs.
By prioritizing biodiversity in urban planning, we can create a built environment that not only benefits humans but also supports the diverse flora and fauna that make up Lithuania’s rich ecosystems.
Another important aspect is the promotion of wildlife corridors. These corridors allow animals to move freely between different green spaces, ensuring gene flow and preventing isolation. By integrating green corridors into the urban landscape, we can connect fragmented habitats and support the movement of wildlife across the city.
Furthermore, the integration of nature into urban areas is crucial for biodiversity conservation. By creating urban green spaces such as parks, gardens, and green roofs, we can provide additional habitats for a variety of plant and animal species. These green spaces not only support biodiversity but also improve air quality, provide recreational opportunities, and enhance the overall well-being of urban residents.
Benefits of a Sustainable Built Environment for Biodiversity Conservation
A sustainable built environment that prioritizes biodiversity conservation brings a range of benefits:
- Preservation and restoration of ecosystems
- Protection of endangered species
- Promotion of ecological balance
- Enhancement of urban aesthetics
- Improvement of public health and well-being
- Reduction of urban heat island effect
- Mitigation of climate change impacts
Benefits | Description |
---|---|
Preservation and restoration of ecosystems | By creating suitable habitats and protecting existing ones, a sustainable built environment helps maintain ecological balance and protect the diversity of species. |
Protection of endangered species | By providing safe havens and corridors, a sustainable built environment supports the survival and recovery of endangered species. |
Promotion of ecological balance | By integrating green spaces and wildlife corridors, a sustainable built environment ensures the exchange of genetic material and the natural functioning of ecosystems. |
Enhancement of urban aesthetics | Integrating nature into the urban landscape improves the visual appeal of cities, making them more attractive and appealing to residents and visitors. |
Improvement of public health and well-being | Access to green spaces and nature promotes physical and mental well-being, reducing stress and enhancing overall quality of life. |
Reduction of urban heat island effect | Green spaces help cool urban environments, mitigating the heat island effect caused by extensive concrete and pavement. |
Mitigation of climate change impacts | By incorporating green infrastructure, a sustainable built environment contributes to carbon sequestration, reduces energy consumption, and mitigates climate change impacts. |
A sustainable built environment is not only about buildings and infrastructure; it is about creating a harmonious balance between humans and nature. By embracing ecological principles and incorporating biodiversity conservation into our urban landscapes, we can preserve Lithuania’s natural heritage for generations to come.
The Link Between the Built Environment, Biodiversity, and Sustainable Development Goals
The built environment plays a crucial role in biodiversity conservation and the achievement of the Sustainable Development Goals (SDGs). As construction projects and urban developments significantly impact biodiversity and ecosystems, it is essential to integrate biodiversity conservation into the built environment and promote sustainable practices to contribute to the realization of the SDGs.
“The future of humanity depends on both the built environment and biodiversity working in harmony.”
By prioritizing the conservation of nature and utilizing green infrastructure, we can address global challenges such as climate change, habitat loss, and the protection of living organisms. Incorporating sustainable design principles into the built environment helps create a more ecologically balanced future.
The preservation and enhancement of urban green spaces, such as parks, rooftop gardens, and green facades, promote biodiversity while providing numerous benefits for human well-being. These green spaces serve as habitats for wildlife, contribute to cleaner air, reduce the urban heat island effect, and improve mental health.
Ecological architecture in Lithuania strives to harmonize built structures with their natural surroundings, minimizing disturbance to ecosystems. By considering the needs of both humans and the environment, ecological architects create sustainable buildings that promote biodiversity, energy efficiency, and resource conservation.
Integrating biodiversity conservation into the built environment aligns with several SDGs, including Goal 11: Sustainable Cities and Communities and Goal 15: Life on Land. By focusing on sustainable urban planning, green infrastructure development, and ecological architecture, we can create more resilient, livable cities that support biodiversity and enhance the overall quality of life.
Key Points:
- The built environment has a significant impact on biodiversity and ecosystems.
- Integrating biodiversity conservation into the built environment contributes to the realization of the Sustainable Development Goals (SDGs).
- Prioritizing nature conservation and utilizing green infrastructure helps address global challenges and protect living organisms.
- Urban green spaces and ecological architecture promote biodiversity and benefit human well-being.
- Integrating biodiversity strategies into the built environment contributes to sustainable cities and communities.
By recognizing the link between the built environment, biodiversity, and the SDGs, we can create sustainable, nature-friendly cities that support ecological balance and the well-being of both humans and the environment.
The Built Environment’s Role in Biodiversity Restoration and Urban Development
The built environment has the potential to contribute to both biodiversity conservation and urban development in Lithuania. By adopting sustainable construction practices, incorporating green spaces, and promoting the restoration and enhancement of biodiversity, the built environment can create a positive impact on ecosystems.
One of the key strategies is the integration of biodiversity strategies in the design and management of construction sites. By implementing measures such as preserving existing habitats, creating wildlife corridors, and incorporating native plant species, construction projects can support biodiversity and provide a habitat for a variety of plant and animal species.
Add to this the preservation of natural habitats within urban areas. By incorporating green infrastructure such as parks, gardens, and rooftop gardens, the built environment can provide valuable urban green spaces that support biodiversity. These spaces not only enhance the aesthetic quality of urban areas but also create opportunities for wildlife habitat and contribute to a healthier environment.
“The built environment plays an instrumental role in biodiversity restoration and urban development. Sustainable construction practices, the incorporation of green spaces, and the integration of biodiversity strategies can create a positive impact on ecosystems.”
Furthermore, the adoption of green infrastructure in the built environment can help support biodiversity. Green roofs, rain gardens, and permeable pavements are just a few examples of green infrastructure elements that can support biodiversity by reducing stormwater runoff, improving air quality, and creating additional wildlife habitats.
To understand the impact of the built environment on biodiversity restoration and urban development in Lithuania, the following table highlights key elements and their contributions:
Elements | Contributions |
---|---|
Sustainable construction practices | Reduces environmental impact, minimizes habitat destruction, and promotes the use of renewable resources |
Green spaces and urban green spaces | Supports wildlife habitats, improves air quality, provides recreational areas for communities |
Green infrastructure | Reduces stormwater runoff, enhances biodiversity, improves urban microclimate |
Biodiversity strategies | Preserves existing habitats, creates wildlife corridors, incorporates native plant species |
By considering the role of the built environment in supporting biodiversity restoration and urban development, Lithuania can strive towards a more sustainable and ecologically balanced future. The efforts made by stakeholders, policymakers, and the construction industry are crucial in achieving these goals, ensuring the long-term protection of Lithuania’s rich biodiversity while creating vibrant and resilient urban landscapes.
Conclusion
Lithuania’s rich biodiversity and the built environment are intricately connected, with both positive and negative impacts arising from the construction industry and urban development. The challenges posed by land degradation, wetland loss, and invasive species cannot be overlooked. However, Lithuania is actively undertaking measures to preserve and restore biodiversity by establishing protected areas, adopting sustainable practices, and implementing green infrastructure.
Integration of biodiversity conservation into the built environment and the implementation of sustainable urban planning initiatives are vital for Lithuania to embrace a more resilient and ecologically balanced future. Collaboration among stakeholders, policymakers, and the construction industry is instrumental in achieving sustainable development goals and ensuring the long-term protection of Lithuania’s unique and diverse natural heritage.
As Lithuania strives toward sustainable urban development, the careful consideration of ecological conservation practices, such as the creation of urban green spaces and the incorporation of ecological architecture, will be crucial. By employing these strategies, Lithuania can not only safeguard its biodiversity but also enhance the quality of life for its residents and create a thriving, sustainable society.