Benefits of Green Infrastructure

Benefits of Green Infrastructure & Nature-Based Solutions — Grow Good Hawaiʻi

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Benefits of
Green Infrastructure

Why Nature-Based Solutions Matter

Green infrastructure and nature-based solutions (NbS) are scalable systems that provide environmental, social, economic, cultural, and public health benefits. They are increasingly used worldwide to improve climate resilience, biodiversity, cooling and canopy shade, public health, food security, stormwater management, and community wellbeing. In Hawaiʻi, we also call them kīpuka — biodiversity islands.

Nature-Based Solutions · Green Infrastructure · Landscape Architecture

What We Mean by Green Infrastructure

Green infrastructure spans everything from a single rain garden to a city-wide urban forest. In Hawaiʻi, it connects to ancestral systems of ahupuaʻa stewardship — managing land and water from mauka (mountain) to makai (sea) for the benefit of all living things.

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Ten Benefits of Urban Forests & Kīpuka

When a community invests in green infrastructure, the returns touch every part of daily life.

🌧️ Stormwater & Flood Reduction Absorb, slow, filter, and infiltrate rainwater 🌡️ Urban Heat Reduction & Cooling Shade, evapotranspiration, reduced heat absorption 🌿 Biodiversity & Habitat Connected corridors for native species 🍠 Food Security & Local Production Urban farms, agroforestry, canoe plants 🧠 Mental Health & Wellbeing Nature access linked to wellbeing and resilience 💨 Air Quality Improvement Trap particulates, absorb pollutants, produce oxygen 💵 Economic Benefits Savings on flooding, cooling, and infrastructure 🌊 Climate Resilience & Adaptation Sea level rise, drought, heat waves, strong storms 🏛️ Cultural & Community Benefits Mālama ʻāina, ʻike kūpuna, ahupuaʻa restoration 🌎 Systems-Level Benefits Mauka-to-makai ecological networks
🌧️

Stormwater &
Flood Reduction

Green infrastructure helps absorb, slow, filter, and infiltrate rainwater into the ground instead of rapidly channeling it into drains and streams.

Especially important in Hawaiʻi: In places like Honolulu and other Hawaiʻi watersheds, intense rain events and impervious surfaces combine to create flash flooding and runoff that damages coral reefs.
Examples
Rain Gardens Shallow landscaped depressions planted with vegetation that captures and absorbs stormwater runoff from roofs, streets, and other surfaces.
Bioswales Vegetated channels designed to slow, filter, and infiltrate stormwater into the ground while reducing flooding and pollution.
Permeable Surfaces Materials such as permeable pavers or ground coverings that allow water to pass through into the soil rather than running off into drains or waterways.
Wetlands Areas where water covers or saturates the soil for long periods, supporting specialized plants and wildlife while filtering water and reducing floods. Can be constructed or natural.
Urban Forests Networks of trees and vegetation (kīpuka or biodiversity islands such as gardens, yards, green roofs, etc.) within cities and towns.
Green Roofs Rooftop systems partially or completely covered with vegetation and growing media that help absorb rainwater, reduce heat, and improve insulation.
Benefits
  • Reduces flooding
  • Lowers stormwater runoff
  • Reduces erosion
  • Recharges groundwater and aquifers
  • Improves water quality
  • Decreases strain on drainage infrastructure
🌡️

Urban Heat
Reduction & Cooling

Vegetation cools cities through shade, evapotranspiration — the combined process by which water evaporates from soil and surfaces and is released into the air by plants through their leaves — and reduced heat absorption.

In Honolulu: Urban Honolulu currently has an estimated tree canopy cover of roughly 20–23%. The City and County has adopted a goal of increasing canopy cover to 35% by 2035 . Canopy coverage is also a question of environmental equity — denser urban and lower-income areas often have far less tree cover.
How Vegetation Cools Cities

Trees and plants cool the urban environment through three primary mechanisms. Shade blocks solar radiation from reaching pavement, buildings, and people, directly reducing surface and air temperatures. Evapotranspiration — essentially plants “sweating” — releases water vapor that cools the surrounding air. And vegetation simply absorbs less heat than asphalt and concrete, which store and re-radiate energy long after sunset.

The urban heat island effect occurs when cities become significantly warmer than surrounding rural areas because buildings, pavement, and other built surfaces absorb and retain heat while vegetation is limited. Urban trees can dramatically cool neighborhoods compared to asphalt-dominated areas.

Benefits
  • Lowers ambient air temperatures
  • Reduces urban heat island effect
  • Makes streets and homes more comfortable
  • Reduces energy demand for air conditioning
  • Improves outdoor walkability and livability

More information: resilientoahu.org/keepcooloahu ↗

🌿

Biodiversity
& Habitat

Green infrastructure can create connected habitat networks for native species across the urban landscape.

Native species supported: ʻElepaio, ʻapapane, and ʻamakihi (birds); Kamehameha and koa butterflies (pollinators); koa bug (insects); native plants; and beneficial organisms. Grow Good Hawaiʻi is working on an initiative to launch strategic backyard conservation in multiple Honolulu neighborhoods.
Examples
Wildlife Corridors Connected natural or vegetated pathways that allow animals, birds, and insects to safely move between fragmented habitats.
Native Landscaping The use of plants indigenous or endemic to a region in designed landscapes to support biodiversity, reduce maintenance, and improve ecological resilience.
Backyard Conservation Managing residential or small-scale properties to support native ecosystems, wildlife habitat, water conservation, and ecological health.
Pollinator Gardens Gardens designed with flowering plants that provide food and habitat for pollinators such as bees, butterflies, moths, and birds.
Benefits
  • Supports declining native species
  • Increases ecological resilience
  • Improves pollination
  • Reconnects fragmented habitats
🍠

Food Security &
Local Food Production

Productive green infrastructure ranges from backyard gardens to city-wide agroforestry systems that reconnect communities with local and traditional food sources.

In Hawaiʻi: Urban food production also reconnects communities with traditional and canoe plant systems — the crops that Polynesian voyagers brought to these islands. Kalo (taro), ʻulu (breadfruit), maiʻa (banana), and other plants anchor both food security and cultural identity.
Types of Productive Green Infrastructure
Urban Farms Working agricultural plots within or adjacent to urban areas that produce food for local communities.
Community Gardens Shared growing spaces that provide access to fresh produce while building neighborhood cohesion and skills.
Agroforestry Integrating trees, shrubs, and crops together to produce food while providing shade, water retention, and habitat.
Edible Landscapes & School Gardens Food-producing plants woven into public, private, and educational spaces — making food visible and accessible in everyday life.
Benefits
  • Increases local food production
  • Improves access to healthy food
  • Reduces dependence on imports
  • Builds community resilience
  • Provides educational opportunities
  • Strengthens cultural food systems
🧠

Mental Health &
Human Wellbeing

Access to nature is strongly linked to improved mental health, concentration, emotional regulation, and social cohesion — a relationship explained by the biophilia hypothesis , which holds that humans have an innate need to connect with other living systems.

Culturally rooted: In Hawaiʻi, the connection between people and land — mālama ʻāina , caring for the land — is itself a form of healing and belonging. Restoration work is often described as profoundly restorative for participants as well.
What Access to Nature Improves
  • Mental health and emotional stability
  • Concentration and cognitive function
  • Emotional regulation
  • Social cohesion and community ties
Benefits
  • Reduces stress and anxiety
  • Encourages physical activity
  • Enhances community gathering
  • Improves child development
  • Strengthens sense of place

Research consistently shows that even short exposure to green space — trees, parks, gardens, and natural areas — significantly reduces physiological stress markers. Urban green infrastructure that is accessible, welcoming, and culturally meaningful multiplies these benefits.

💨

Air Quality
Improvement

Plants trap particulates, absorb pollutants, produce oxygen, and reduce dust — providing measurable air quality improvements at neighborhood and city scales.

Urban forests are especially important along roads and dense urban corridors where vehicle emissions, particulate matter, and dust concentrations are highest. Street trees act as a living filter between traffic and homes, schools, and businesses.
How Plants Clean the Air

Leaves physically intercept and hold fine particulate matter (PM2.5 and PM10) — tiny particles from vehicle exhaust, industrial emissions, and dust that cause respiratory and cardiovascular disease. Stomata on leaf surfaces also absorb gaseous pollutants including nitrogen dioxide, sulfur dioxide, and ground-level ozone.

Trees and plants also sequester carbon dioxide and produce oxygen, contributing to climate stabilization. A mature tree can absorb up to 48 pounds of CO₂ per year.

Benefits
  • Cleaner air
  • Better respiratory health
  • Reduced pollution exposure
  • Carbon sequestration
  • Lower rates of asthma and respiratory illness
  • Reduced dust and allergen levels
💵

Economic
Benefits

Green infrastructure often saves money over time by reducing flooding damage, water use, infrastructure strain, cooling costs, and healthcare burdens — while also generating economic activity.

Lower maintenance costs: With appropriate native plant selection, green infrastructure often requires significantly less water, fertilizer, and maintenance than conventional landscaping — especially once established.
Savings Green Infrastructure Creates
  • Flooding damage costs reduced
  • Lower municipal water use
  • Reduced strain on drainage infrastructure
  • Lower cooling costs for buildings and streets
  • Reduced healthcare burdens from heat and poor air quality
Economic Value Generated
  • Increased property values
  • Reduced municipal infrastructure costs
  • Lower landscape maintenance costs (with appropriate plant selection)
  • Green job creation
  • Eco-tourism and beautification

Studies consistently show that every dollar invested in urban green infrastructure returns multiple dollars in avoided costs and economic activity. In Honolulu, the Kaulunani Urban & Community Forestry Program estimates each urban tree provides approximately $90 in annual environmental benefits .

🌊

Climate Resilience
& Adaptation

Nature-based systems help communities adapt to sea level rise, drought, heat waves, stronger storms, and ecosystem degradation in ways that hard infrastructure alone cannot.

Hawaiʻi’s exposure: As an island state, Hawaiʻi faces compounding climate threats — coastal flooding, coral bleaching, increased wildfire risk, intensifying hurricanes, and freshwater stress. Green infrastructure is among the most cost-effective tools for building resilience at every scale.
Examples
Coastal Restoration Restoring beaches, dunes, reefs, and coastal vegetation to absorb wave energy and protect shorelines from erosion and flooding.
Mangroves & Fishponds Coastal wetlands that buffer storm surge, filter sediment, and support fish populations while sequestering significant carbon.
Urban Forests City-wide tree canopy that absorbs stormwater, reduces heat, and creates climate refugia during extreme weather events.
Agroforestry Systems Diversified food-production landscapes that are far more resilient to drought, pest pressure, and climate variability than monocultures.
Benefits
  • Increased resilience to climate impacts
  • Reduced disaster vulnerability
  • Greater long-term sustainability
  • Carbon sequestration
  • Protection of freshwater supplies
  • Buffering of coastal flooding
🏛️

Cultural &
Community Benefits

In Hawaiʻi especially, green infrastructure is not just environmental — it is cultural restoration. It reconnects communities to their land, their ancestors, and their identity.

Hawaiian values: Mālama ʻāina (caring for the land), ʻike kūpuna (ancestral knowledge), and the ahupuaʻa system of integrated watershed stewardship are living frameworks for community-led green infrastructure.
What Green Infrastructure Can Support in Hawaiʻi
Mālama ʻĀina Caring for the land as a reciprocal relationship — when you care for the land, the land cares for you. Green infrastructure rooted in this ethic creates stewardship communities.
ʻIke Kūpuna Ancestral ecological knowledge — including plant identification, water management, fishing practices, and seasonal cultivation — that is reactivated through hands-on restoration.
Ahupuaʻa Restoration Rebuilding the integrated mauka-to-makai systems that connected mountain forests, loʻi kalo (taro paddies), fishponds, and reefs into a functioning whole.
Intergenerational Learning Young people and elders working side by side in gardens, loʻi, and restoration sites — passing on knowledge, skills, and relationships with the land.
Benefits
  • Stronger cultural identity
  • Community empowerment
  • Place-based education
  • Restoration of relationships between people and ecosystems
  • Community stewardship and leadership
  • Intergenerational knowledge transfer
The Big Picture

🌎 Systems-Level Benefits

At a larger scale, interconnected green infrastructure stops being a collection of individual projects and begins to function as something greater — an integrated ecological network that transforms the city itself.

This is what the ahupuaʻa concept points toward: not isolated green spaces, but a connected system from the mountain ridge to the ocean, managed as a whole.

01

Watershed Restoration

Interconnected plantings, wetlands, and stream corridors that function as a living watershed — filtering water, recharging aquifers, and reducing floods across an entire valley or district.

02

Green-Blue Corridors

Linked networks of vegetation and waterways that allow species to move, water to flow naturally, and communities to connect with nature even within dense urban areas.

03

Ecological Networks

City-scale biodiversity infrastructure — from native gardens and street trees to larger parks and preserves — that together can support viable populations of native Hawaiian wildlife.

04

Climate Adaptation Frameworks

Integrated approaches that layer stormwater management, heat reduction, food security, and coastal protection into a single nature-based strategy for long-term urban resilience.

05

Urban Forest Networks

City-wide tree canopy managed as a shared public resource — sequestering carbon, cooling streets, filtering air, and providing habitat across thousands of private and public properties.

06

Mauka-to-Makai Connectivity

Restoring the ecological and cultural continuity from mountain to sea — so that land, water, food, and community stewardship are once again part of a single integrated system.

Systems-level interconnection enables:

  • Mauka-to-makai connectivity
  • Regional biodiversity
  • Integrated water management
  • Healthier urban ecosystems
  • Community self-sufficiency
  • Cultural continuity

Be Part of the Vision

Want to grow your own kīpuka ? Explore our Go Native! plant guide, register for a free tree if you live in Waimānalo or the Waiʻanae Coast, or support the work of Grow Good Hawaiʻi with a donation.

Go Native! → Strategic Backyard Conservation → Donate →
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