yahara 2070 introduction for undergraduate module
TRANSCRIPT
Possible futures for the Yahara Watershed
The Science of Future Thinking
“People are embedded parts of the biosphere and shape it, from local to global scales, from the past to the future. At the same time people are fundamentally dependent on the capacity of the biosphere to sustain human development.” -- Carl Folke, Stockholm Resilience Center
Future thinking is important because…
But sustaining nature and human development is a complex problem:
• Uncertainty is high.• Time frames of environmental change
span many generations.• People will reach different conclusions.• Multiple solutions are “good enough.”
To approach complex problems, we can
• Assume uncertainty is large, changeable, and co-created by people and nature.
• Emphasize the diversity of perspectives.• Stress learning by individuals and groups.• Expect the unexpected.
“While the future is uncertain and much of it is beyond our control, we can control many aspects of it. We choose our future: we create it by what we do or fail to do.”
– Wendy Schultz, futurist
Importantly, we must recognize we can make choices about the future.
TIME
Principle 1: Throughout time, we can make choices that will affect future outcomes.
Principle 2: We can think about what might happen as a result of these choices, highlighting alternative pathways to alternative futures.
Scenarios help us consider these pathways• Scenarios are provocative, plausible stories about the future
with contrasting social and environmental conditions.• They explore questions of “What if?”• They facilitate long-term thinking.• They help us learn ways to address change and vulnerability.
20702010
To 2070
Today
Principle 3: We can anticipate future consequences of the alternatives. Scenarios help us with this, too.
The future is already here; it’s just unevenly distributed.
- William Gibson, speculative fiction writer
Water quality
Groundwater supply
Climate regulationCrop productionFlood regulation
Recreation
Aesthetics
The complex problem:How could changes in land use, climate, and human
demand impact ecosystem services, or natural benefits, for future generations in the Yahara Watershed?
Yahara River Watershed
Long-term Changes and Challenges• Intensification of dairy agriculture
– Trend towards fewer farms and cows but WAY more milk (and manure) per cow
– Main source of water quality impairment
• Increasing demand for biofuels
• Urban development– Increase in impervious surfaces lake flooding– Loss of agricultural land concentration of manure
• Changes in climate– Increase in annual precipitation– More frequent heavy rainfall events
These changes span generations
Major Changes in the Yahara Watershed1800-present
A consequence: persistent water quality problems
Nutrient pollution in lakes and streams
– Multiple non-point sources (manure, agricultural fertilizer, urban, erosion)
– Algal blooms, public health & aesthetics issues
– 33 years of reduction efforts, but undetectable reduction in P-loading to lakes
What futures for water and people are possible, given these long-term challenges?
What is a desirable future, and what solutions can lead us there?
Yahara 2070’s creation story
Two Generations
Stories connect us with future generations.
In the world there are lots of perspectives.
We sampled perspectives from the Yahara Watershed through interviews and workshops,
clustered them into themes,
Illustrations by John Miller
and condensed them into a few stories.
The Stories
Tentative Name:
Nested Watersheds
Abandonment & Renewal
Accelerated Innovation
Connected Communities
Dynamics: Adaptation Transformation Adaptation Transformation Key Factor in Change: Government Inaction Technology Values
Nutshell:
Government intervention
maintains nature’s benefits
Disaster decreases population, leads to
reorganization
Massive growth in technology businesses,
including green tech
Global shift in values toward sustainability
Name:
Each based on a different set of human choices and biophysical events
The “Atoms”
Translations of the stories into numbers that a
biophysical computer model can understand
Models
Narratives
Climate Changes
Nested Watersheds
Landscape Changes
2010 2070
Model results: Ecosystem services in the Yahara
• Food production (for animals and humans)• Biofuel production (grass feedstocks)• Climate regulation (ecosystem carbon storage)• Freshwater supply (groundwater recharge)• Flood regulation (lake levels, flooding extent)• Groundwater quality (nitrate leaching)• Surface water quality (P loading to lakes)
Stories + Atoms = Implications for future human well-being
Accelerated Innovation Nested Watersheds
Connected Communities Abandonment & Renewal
The scenarios illuminate vulnerabilities we should consider preparing for.
Example: Impacts of extreme flooding– The biggest flood
in Abandonment & Renewal, 2031
– Similar to 2008 storm that flooded Lake Delton, WI
The four scenarios together highlight choices and tradeoffs…
What do we want—or need—the watershed to provide?
What is biophysically possible and socially acceptable?
What choices will allow us to handle shocks and build resilience?
Abandonment & RenewalNested Watersheds
Connected Communities Accelerated Innovation
…and present cross-cutting questions for public discussion.
What are the worst threats, and how can we avoid them?
What are the best ideas or results, and how can we achieve them?
What is a desirable future, and how do we get there?
Abandonment & RenewalNested Watersheds
Connected Communities Accelerated Innovation
Ultimately, the scenarios can help stimulate conversations about our vision of a desirable and possible future
“If you want to build a ship, don’t start with collecting wood, cutting the plank and assigning work, but awake in people the longing for the wide and open sea.”
– Antoine de Saint-Exupery (Citadelle)
Yahara2070.org
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yaharawsc.wordpress.com
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