FRED 2013 this Saturday!

Gearing up for the FRED 2013 conference this Saturday! In gorgeous Riverside, Illinois, we'll be showcasing biomimicry as it applies to communities and landscapes while exploring how "ecotones" influence social interactions in nature. Join us for an interactive workshop and outdoor exploration where we explore answers to the question: "What can ecotones teach us about fostering social interactions?" Register today!

Have you met FRED?

Have you met FRED? If you have an interest in biomimicry and landscape design - check it out next Saturday, September 21st, in Riverside, IL. 

"Join us on Saturday, September 21, 2013 for the FRED, an exciting day of classes, tours and workshops brimming with new ideas for your garden or community. The FRED (Frederick Law Olmsted in Riverside Education and Design) is a unique opportunity to enjoy landscape and garden design in the historic landmark community of Riverside, Illinois."

Biomimicry: (Re)Learning from Nature’s Genius
Amy Coffman Phillips, workshop facilitator

"How can nature inspire us in the design process? Biomimicry is the practice of drawing inspiration from nature to solve the sustainable design challenges we face. By studying nature, we can discover practical and inspired solutions to challenges from product design to community planning. Join Amy as she illustrates how biomimics around the world are learning from nature’s solutions and then explore how to apply them to our communities in an interactive BioBrainstorm session."

Resilient Communities Inspired by Nature

The B-Collaborative's founder Amy Coffman Phillips recently wrote an article on resilient communities inspired by nature for the Great Lakes Bioneers Chicago blog (edit: website no longer functional so article reposted below). Let's start a conversation about local resiliency for our communities by looking to Nature's communities as inspiration.

A lot of attention is being paid to resilience of late. In the wake of Superstorm Sandy, communities across the eastern seaboard and beyond are beginning to plan for disasters associated with climate change or other occurrences beyond our control.

The Rockefeller Foundation, the initiators of the new “100 Resilient Cities Centennial Challenge” define building resilience as “about making people, communities and systems better prepared to withstand catastrophic events – both natural and manmade – and able to bounce back more quickly and emerge stronger from these shocks and stresses.” They see resilience in cities as crucial to the resilience of our global community and they have backed their challenge with funding to provide technical support and resources to select local governments as they plan their urban resilience initiatives.

Chicago and its regional municipalities should explore opportunities to be a part of this initiative. Doing so will leverage our background in cutting-edge sustainability and showcase the need for resilience in America’s heartland.

But why is it so important that our cities embody resilience? And what does it mean to be resilient in the midwest? This is a topic we are exploring in this article and at the Great Lakes Bioneers Conference in Chicago this November 1st through 3rd. Let’s start by having a conversation about and planning for community resilience now, so that we can plan for and address our challenges – before a potential crisis occurs.
The Case for Resilient Cities

Many homeowners realize the need to be prepared and protect their homes from disasters, at varying levels from stockpiling food to purchasing a gas generator. But simply making ourselves more self-sustaining at this micro-scale is a short-term strategy – having enough food and fuel will make little difference if the whole town is on fire. At the other end of the spectrum, the federal government prepares for emergencies through the Federal Emergency Management Agency in affiliation with state agencies, but this macro-level, centralized approach to disaster management is often fraught with inefficiencies and delays.

It is therefore imperative that we address issues of adaptation and resilience at the local level; this middle (meso) scale, from mega-cities like Chicago to its outlying suburbs, large and small, even neighborhoods within a larger community. By embedding resilience into our social, economic and built infrastructure at multiple scales, we can build vibrant, resilient communities that support each other – lessening losses, adapting to changing conditions, and rebounding quicker to save money and lives.
A Resilient Chicago Metropolitan Region

Some may question the need to worry about resilience to the effects of climate change in Chicago when we are located well above sea level and have the largest available freshwater source on the planet in our back yard. It’s true that our location protects us from some of the more severe impacts of climate change and we are in a better position to weather its effects than many coastal communities. But our region is not without its challenges. According to the Chicago Climate Action Plan, it is likely our region will experience:

• Stronger, but infrequent, storms causing wind damage, widespread flooding and/or intermittent drought; 
• Species migrations and extinctions, adversely affecting our local ecology and food production; 
• Dangerous heat waves, resulting in pollution and its health impacts; and 
• Continual draining without recharge of the glacial-remnant Lake Michigan water, leading to lessening availability and pollution of this precious resource. 

The resiliency challenges we face must be planned for and addressed now – prior to them becoming a crisis – in order for our efforts to be effective. Fortunately, we have models we can look to when tackling such seemingly large obstacles. 

Natural Inspiration

In the process of striving to reduce waste and improve the quality of life for our region’s inhabitants, the sustainability movement has prepared us for the resiliency challenge by systematically embedding new and diverse offerings to address the needs of the market. At a systems level, resiliency is born by embedding redundancies and diversities into a system at a variety of scales.

One example of this principle can be seen in alternative transportation options, such as car share and bike share programs along with more robust bicycle infrastructure. By providing alternatives for the daily commute, these market-based programs reduce emissions and fossil fuel use, while at the same time embedding resiliency because they operate at different scales and use different fuel sources.

In this example, if a disturbance affects the electrical grid on a large scale, the electric commuter rail will be affected, but the petroleum fueled cars and caloric body energy fueled bicycles will be able to compensate for this loss and continue to operate through the disturbance. By providing different options to get to work, which work parallel to but operate differently than the existing options, we embed resilience into our communities and their vital infrastructure.

This deep principle of cross-scale embedded redundancy and diversity draws inspiration from nature’s naturally resilient ecosystems. For example, in our native tallgrass prairie, there are many different types of grasses that accomplish the function of photosynthesis. They operate without inefficiencies because they are different from each other in significant ways, such as how much water they need or what temperatures they are able to photosynthesize. These characteristics allow them to respond differently to changing environmental conditions and capture resources at different times. In wetter seasons, or in different microclimates, different types of grass may be dominant versus in dryer seasons, but the systemic function of photosynthesis remains.

Translating the principles found in nature to a human context is the practice of biomimicry. When viewing nature from a systems perspective, we are able to recognize that human systems are a part of natural systems, subject to the same constraints and abundances as the rest of life. By looking at other complex, adaptive systems for inspiration, we are able to translate their lessons into our own context so that we can embed locally-attuned, context specific resiliency strategies for our region. 

Start a Conversation

We think of the Bioneers movement and our upcoming conference as a bridge between sustainability and natural inspiration, providing thought provoking conversation and useful tools to address the challenges we face in our communities. This topic will be explored in detail at the “Community Resilience” session on Friday, November 1st and the “Community Resilience Inspired by Nature” workshop on Sunday, November 3rd.

And we want to hear from you - how do you think we embody resilience in our communities? And how can we as Bioneers add value to this conversation by looking to sources of natural inspiration? Let’s work together to embed resilience into our local communities prior to disturbance, so that our communities are able to not only survive but thrive through adversity. 

About the Author

Amy Coffman Phillips is an architect, MBA, and Certified Biomimicry Professional. She founded The B-Collaborative, an education and design consultancy, to catalyze and facilitate naturally-inspired sustainable design projects. Their flagship product is the "Naturally Resilient" workshop for business and non-profit leaders looking to embed Nature’s resilience strategies into their strategic planning initiatives. She is also a partner and adult educator at Prairie Lab, LLC, a professional development firm, and is co-founder of Biomimicry Chicago, a local resource for naturally inspired sustainable design.
Sources

“100 Resilient Cities Centennial Challenge”

Great Lakes Bioneers Conference

Chicago Climate Action Plan

Biomimicry’s Life’s Principles

BEND’s “Naturally Resilient" Workshop

AskNature

The Prairie Project

by Amy Coffman Phillips

I recently wrote an article on my work with the Prairie Project, a Biomimicry Chicago AskPlace initiative, for the Metropolis blog. I have republished it here, and visit the Metropolis site for the full article.

Have you ever sat in your home or office and wondered what your part of the world looked like before your community was there? What ecosystems and organisms sat where you do now and how did they adapt and thrive through the same challenges that we face today?

Our built environment faces many challenges in adapting to a changing climate, from storm water management and drought tolerance to energy use optimization and eliminating waste. By recognizing that our communities and cities have been built on, and in most cases destroyed, land that was previously occupied we can we learn from our native ecosystems to design more resilient, well-adapted communities.

Biomimicry is the practice of drawing inspiration from nature to solve the sustainable design challenges we face.  This practice is especially relevant when we are challenged with adapting to regional and changing climate conditions.  The Global Biomimicry Network, of which Biomimicry Chicago is a regional node, is co-creating a framework to assist designers, planners, and municipalities with making communities that are well adapted to the climatic and cultural place in which we live. We call this learning from the “Genius of Place.”

Biomimicry Chicago’s “Prairie Project,” named for the city’s native tall grass prairie ecosystem, is dedicated to providing the information and tools necessary for everyone from individual gardeners to businesses and municipal governments to (Re)Connect with nature and our sense of place,(Re)Learn the wisdom of our ancestors, and (Re)Think how we live and design in our bioregion.

"Morphogenesis"

"Morphogenetic" bus by Altair Engineering for the NYT

I recently read a New York Times article on Altair, a company that developed software to emulate bone growth, where software optimizes the relationship between stress and form much like vertibrate bones do.

“During the design process using morphogenesis, coliseums may vaguely resemble rib cages; chairs can look like vines growing up a tree; and motorcycle frames can resemble the shape and strength of a snake’s jaw,” - Altair company prospectus

Image credit: Wikipedia.org

The idea is really nothing new - Leonardo Da Vinci was emulating nature's forms in his inventions in the 1400s.  What is fairly new is our access to powerful computers that allow such technology to exist.  Similar technology was used to create the famous biomimicry case study, the Mecedes Benz Bionic Car, where designers used "Soft Kill Option (SKO)" and "Computer-Aided Optimization (CAO)" software developed at the Karlsruhe Research Centre to analyze stresses and create a form that optimized material use.  This much lighter frame resulted in a 70 mpg efficiency with a conventional (non-hybrid) engine, saving resources not only at the gas pump but also in the production of the car.

“The engineering optimization found in nature is astonishing and often superior to our own innovations. Growth patterns and resource management systems within living organisms can be thought of as found technologies waiting to be understood and re-purposed for industry.” - William Myers, author of a new book Bio Design

What gets me excited about this subject are the possibilities of incorporating this engineering software into software used by architects and structural engineers when designing biomorphic, biophilic, and biomimetic architecture.  By incorporating not only natural algorithms into our buildings but also natural processes that result in natural aesthetics, we can create structures that truly emulate nature at the deepest levels.  We can reconnect ourselves aesthetically and functionally with the beauty and optimization of nature.  And THAT is truly beautiful.

References (in addition to those linked above)
http://www.altair.com/NewsDetail.aspx?news_id=10303&red=yes
http://www.asknature.org/product/99d6740a0a07a9d003480f1c414ee177

On the Creature Trail

We have been coming to Sanibel Island for many years, but it wasn't until I started learning about biomimicry that I really paid attention to the abundant Life that is present on this natural beach.  We took a recent trip to the beach at low tide and came across some fascinating creatures!  I even got other kids involved and one of their moms asked if I was a marine biologist.  I said no, I'm an architect, but I have an amazing instructor in biomimicry that is!  So, this post is a thank you to Biomimicry3.8's Dayna Baumeister.  Everyone involved in design should be lucky enough to learn from her and the amazing creature stories she shares.

Budding Scientists

Learning from Moon Snails

My daughter found this tiny (deceased) moon snail while walking on the beach with her Grandma.  We knew it had died because while the animal was still in the shell, it was floating and didn't retract when touched.  So we had a rare opportunity to look at it more and learn from the moon snail!

Tiny Moon Snail

I first heard of moon snails on my BPro kayaking trip to British Columbia.  We used a large moon snail shell as a "talking stick" for our opening and closing rituals, and one of the amazing biologists we kayaked with showed us the architectural egg casing that the moon snail creates using sand, seawater, and the mucus it secretes.  So when my daughter found this one, I got excited.  I showed her its foot and how it has tiny microscopic serrations that it uses to drill into clam shells, creating the little holes in the shells we used to make a necklace.

Tiny Moon Snail

We looked at the shell's gorgeous spiral shape and purplish color, the spiral a result of how it grows larger and builds its shell.  We think that the snail died because the protective cover on its foot got jammed on a slightly damaged shell edge and couldn't retract.  But this creature's misfortune gave us a chance to look at it closer.  And as the creature dried up and fell out of its shell, we got to examine it in greater detail.