This Week: Our Lecture Videos And Project Precedents Present ✓ Solved

This Week Our Lectures Videos And Project Precedents Present Some O

This week, our lectures, videos, and project precedents present some of the different ways that "green infrastructure" can be applied to better deal with environmental or human health challenges. Based on the course content, please respond to at least two of the prompts below.

Lecture & Videos: What are some strategies that landscape architects are using to incorporate green infrastructure into the built environment? What are the benefits? Reflecting on specific strategies, how could these be applied or adapted to your hometown?

Readings: If designing a green roof where would it be? What challenges would it address and what amenities would it provide? Additionally, based on the ESRI storymap and web app, what do you learn about your area's green infrastructure compared to national averages? Which green areas are most important to conserve?

Project Precedents: How did the Metro-Forest Project, Taopu Central Park, and Fontana Urban Greening Master Plan employ green infrastructure? Which was most compelling or successful? How do the green roof projects differ in goals, context, or techniques?

Sample Paper For Above instruction

Green infrastructure is increasingly integral to sustainable urban development, serving as a multifaceted approach to address environmental and human health challenges. Landscape architects employ various strategies to embed green infrastructure within the built environment, enhancing ecological resilience, aesthetic appeal, and community well-being. Among these strategies, green roofs, urban parks, bioswales, and tree corridors stand out as effective means to mitigate urban heat islands, manage stormwater, and promote biodiversity.

One particular strategy highlighted in the videos is the integration of green roofs into commercial and institutional buildings. Green roofs serve multiple benefits, including thermal insulation, air purification, and stormwater runoff reduction. For example, the green roof at Chulalongkorn University in Thailand demonstrates how extensive rooftop gardens can create microclimates, support local flora and fauna, and provide recreational spaces for students and visitors. Adapting such strategies to my hometown—a mid-sized city in the United States—could involve installing green roofs on municipal buildings, libraries, and schools to address urban heat concerns and improve air quality.

In my hometown, which faces challenges related to heat waves, stormwater runoff, and limited green space, green roofs could significantly improve environmental quality. Implementing green roofs on public facilities would not only reduce temperatures but also provide educational opportunities about sustainability. Additionally, incorporating bioswales and urban tree corridors along streets would enhance stormwater absorption and increase habitat connectivity.

The readings on green roofs reveal their vital role in urban sustainability. Designing a green roof for a community center in my area could address multiple challenges, including stormwater management, urban heat mitigation, and recreation. Such a roof could host community gardens, outdoor classrooms, and gathering spaces, fostering social cohesion while addressing environmental concerns. This approach would also support local food production and provide habitat for pollinators, contributing to urban biodiversity.

Analyzing the ESRI storymap for my city shows that the percentage of intact habitat core and street-to-stream ratios are below national averages, indicating a need for increased conservation and green corridors. Key green spaces that deserve protection include urban parks, riparian zones, and ecological corridors that facilitate wildlife movement and improve water quality. Conserving these areas would bolster ecological resilience and provide much-needed recreational spaces for residents.

The Metro-Forest Project exemplifies how ecological regeneration can be achieved through strategically designed green spaces. It emphasizes ecological education by creating outdoor exhibition spaces that promote awareness of local forest ecosystems. Conversely, Taopu Central Park integrates green infrastructure to serve as an ecological and social hub, filtering pollutants and fostering biodiversity within a dense urban setting.

Among these projects, Taopu Central Park appears most successful in balancing ecological function with community engagement. Its design facilitates the movement of water, air, and wildlife while offering recreational amenities. The Fontana Urban Greening Master Plan maximizes scientific data to improve air quality and environmental health at a community scale, demonstrating the importance of integrating scientific research into urban planning.

Furthermore, green roof projects like Yard and Vertical Oasis showcase innovative techniques tailored to diverse climates. Yard's extensive roof coverage manages stormwater and integrates building with landscape, creating a semi-private outdoor space. Vertical Oasis, in an arid environment, employs layered planting systems to sustain greenery in harsh conditions, illustrating how context-specific design can advance sustainability goals.

In conclusion, green infrastructure offers versatile solutions adaptable to various urban contexts. Whether through innovative roof landscapes or expansive parks, these strategies improve environmental resilience, support biodiversity, and enhance quality of life. Learning from successful precedents and integrating scientific insights can guide future urban design efforts towards sustainable, healthy cities.

References

• Jared Green, "Green Infrastructure: A Landscape Approach," The Dirt, 2021.
• Chella Strong, "Garden City, Mega City," The Dirt, 2021.
• ESRI, "Seeing Green Infrastructure," 2022.
• ESRI Story Maps, "Green on Gray," 2022.
• Matt Grubisich, "The Case for Nurturing a City's Other Green Infrastructure—Trees," TED Talk, 2022.
• City of Vancouver, "Shaped by Water: Green Infrastructure in the Netherlands," 2022.
• City of New Orleans, "Green Infrastructure," 2022.
• ASLA, "Taopu Central Park," 2021.
• ASLA, "Yard," 2021.
• Jared Green, "Asia’s Largest Urban Rooftop Farm Is a Model of Integrated Design," The Dirt, 2021.