Slides from seminar. See article for details: http://www.scribd.com/mtotten6756
Summary:
Humanity’s unceasing ingenuity is generating vast economic gain for billions of people with goods unavailable to even kings and queens throughout most of history. Unfortunately, this economic growth has triggered unprecedented se- curity challenges of global and historical magnitude: more absolute poor than any time in human history, the sixth largest extinction spasm of life on earth, climate destabilization with mega-catastrophic consequences, and multi-trillion dollar wars over access to energy. These multiple, inextricably interwoven chal- lenges have low probability of being solved if decision makers maintain the strong propensity to think and act as if life is linear, has no carrying capacity limits, uncertainty is controllable, the future free of surprises, planning is predictable and compartmentalized into silos, and Gaussian distributions are taken as the norm while fat-tail futures are ignored. Although the future holds irreducible uncertainties, it is not fated. The emergence of Internet availability to one-third of humanity and access by most of humanity within a decade has spawned the Web analogue of a ‘Cambrian explosion’ of speciation in knowledge applica- tions. Among the most prodigious have been collaboration innovation networks (COINs) reflecting a diversity of ‘genome’ types, facilitating a myriad of collective intelligence crowd-swarming phenomena (Malone T, Laubacher R, Dellarocas C. The Collective Intelligence Genome. MIT Sloan Management Review, Spring; 2010, Vol. 51). COINs are essential tools for accelerating and scaling transformational solutions (positive tipping points) to the wicked problems confronting humanity. Web COINs enable acceleration of multiple-benefit innovations and solutions to these problems that permeate the nested clusters of linked nonlinear complex adaptive systems comprising the global biosphere and socioeconomy [Raford N. How to build a collective intelligence platform to crowdsource almost anything. Available at: http:news.noahraford.com.
Slides from lectures and seminars given at Singapore universities and business schools (NUS, SMU, INSEAD) on how Asia Pacific region faces mega-catastrophic socio-ecological challenges that can be largely prevented and resolved through aggressive, ambitious pursuit of clean tech, green economic investment opportunities (e.g, end-use efficiency, solar power, wind power).
Design principles for intelligent research investmentriel-presents
A content-rich celebration of an important knowledge legacy
An opportunity to reflect, and to distil key lessons and insights:
- about important knowledge gaps that remain
- about how best to fill such knowledge gaps
A ‘message in a bottle’ for future research investment
Slides from lectures and seminars given at Singapore universities and business schools (NUS, SMU, INSEAD) on how Asia Pacific region faces mega-catastrophic socio-ecological challenges that can be largely prevented and resolved through aggressive, ambitious pursuit of clean tech, green economic investment opportunities (e.g, end-use efficiency, solar power, wind power).
Design principles for intelligent research investmentriel-presents
A content-rich celebration of an important knowledge legacy
An opportunity to reflect, and to distil key lessons and insights:
- about important knowledge gaps that remain
- about how best to fill such knowledge gaps
A ‘message in a bottle’ for future research investment
Ecological Footprint assessment helps to identify what activities are having the biggest impact on nature and opens up possibilities to reduce our impact and live within the means of One Planet. It provides measurement of collective consumption of the population whether they are exceeding the Earth’s ecological limits or not. It is compared with Biocapacity which measures the amount of available bioproductive resources in ecosystem. The introduction of Ecological Footprint has been very necessary for the context of Bangladesh especially in Dhaka as the endless demand and the unplanned consumption pattern of the population here have been producing a very unsustainable situation.
End of project results presentation given to stakeholders in Nidderdale AONB, from the RELU-funded Sustainable Uplands project. Includes new data on the relationship between burning, heather cover and water quality.
National Ecosystem Assessment Follow on special edition BSBEtalk
Built and natural Environment edition looking at applications of research in practice using ecosystem services but guided by the principles of the ecosystem approach.
IARU Global Challenges 2014 Cornell Tracking our declineSarah Cornell
There is growing attention to the global risks - not just local impacts - of present rates of biodiversity loss. It is worth keeping in mind that 'biodiversity loss' actually means the destruction (sometimes irreversible) – by us, people – of living organisms, Earth's 'genetic library', species, ecosystems and habitats. The fact that ecosystems are complex, adaptive, and locally specific means they can't be adequately represented in a single global measure. But without any overarching global perspective on losses, the locally contingent measures are 'untethered' to the real risks of systemic change. Scientists of many kinds are rising to the transdisciplinary challenge of dealing with this complexity in the face of global drivers of change (climate change, development pressures), recognizing that it is a challenge for everyone, not just academia.
Michael P Totten GreenATP: APPortunities to catalyze local to global positive...Michael P Totten
Humanity’s unceasing ingenuity is generating vast economic gain for billions of people with goods unavailable to even kings and queens throughout most of history. Unfortunately, this economic growth has triggered unprecedented se- curity challenges of global and historical magnitude: more absolute poor than any time in human history, the sixth largest extinction spasm of life on earth, climate destabilization with mega-catastrophic consequences, and multi-trillion dollar wars over access to energy. These multiple, inextricably interwoven chal- lenges have low probability of being solved if decision makers maintain the strong propensity to think and act as if life is linear, has no carrying capacity limits, uncertainty is controllable, the future free of surprises, planning is predictable and compartmentalized into silos, and Gaussian distributions are taken as the norm while fat-tail futures are ignored. Although the future holds irreducible uncertainties, it is not fated. The emergence of Internet availability to one-third of humanity and access by most of humanity within a decade has spawned the Web analogue of a ‘Cambrian explosion’ of speciation in knowledge applica- tions. Among the most prodigious have been collaboration innovation networks (COINs) reflecting a diversity of ‘genome’ types, facilitating a myriad of collective intelligence crowd-swarming phenomena (Malone T, Laubacher R, Dellarocas C. The Collective Intelligence Genome. MIT Sloan Management Review, Spring; 2010, Vol. 51). COINs are essential tools for accelerating and scaling transformational solutions (positive tipping points) to the wicked problems confronting humanity. Web COINs enable acceleration of multiple-benefit innovations and solutions to these problems that permeate the nested clusters of linked nonlinear complex adaptive systems comprising the global biosphere and socioeconomy.
Innovation of climate friendly technology in developing countrieslana707
Innovation of climate-friendly technology in developing countries requires policy and equity considerations; scaling-up existing technology and promoting new technologies. Adaptation of agriculture to climate change will be vital.
Presentation covering:
# Greenwash theory and examples
# Main types of greener energy
# Six main energy providers in the UK and their fuel mix
# Criticism to the main six energy providers
# Government policies
# Meeting green expectations
# Consumer perspective
# Conclusion
# Some references
Howard University Sigma Xi talk Biocomplexity Decisionmaking MP Totten 11-10Michael P Totten
Humanity confronts unprecedented challenges of global and historical magnitude, including climate destabilization, ocean acidification, more absolute poor than any time in human history, and species extinction rate 1000 times the natural background rate. Instead of dealing with each problem separately, there are great gains to be made by looking for common solutions to these inextricably interwoven problems. Green economics offers one such perspective to assessment opportunities.
Ecological Footprint assessment helps to identify what activities are having the biggest impact on nature and opens up possibilities to reduce our impact and live within the means of One Planet. It provides measurement of collective consumption of the population whether they are exceeding the Earth’s ecological limits or not. It is compared with Biocapacity which measures the amount of available bioproductive resources in ecosystem. The introduction of Ecological Footprint has been very necessary for the context of Bangladesh especially in Dhaka as the endless demand and the unplanned consumption pattern of the population here have been producing a very unsustainable situation.
End of project results presentation given to stakeholders in Nidderdale AONB, from the RELU-funded Sustainable Uplands project. Includes new data on the relationship between burning, heather cover and water quality.
National Ecosystem Assessment Follow on special edition BSBEtalk
Built and natural Environment edition looking at applications of research in practice using ecosystem services but guided by the principles of the ecosystem approach.
IARU Global Challenges 2014 Cornell Tracking our declineSarah Cornell
There is growing attention to the global risks - not just local impacts - of present rates of biodiversity loss. It is worth keeping in mind that 'biodiversity loss' actually means the destruction (sometimes irreversible) – by us, people – of living organisms, Earth's 'genetic library', species, ecosystems and habitats. The fact that ecosystems are complex, adaptive, and locally specific means they can't be adequately represented in a single global measure. But without any overarching global perspective on losses, the locally contingent measures are 'untethered' to the real risks of systemic change. Scientists of many kinds are rising to the transdisciplinary challenge of dealing with this complexity in the face of global drivers of change (climate change, development pressures), recognizing that it is a challenge for everyone, not just academia.
Michael P Totten GreenATP: APPortunities to catalyze local to global positive...Michael P Totten
Humanity’s unceasing ingenuity is generating vast economic gain for billions of people with goods unavailable to even kings and queens throughout most of history. Unfortunately, this economic growth has triggered unprecedented se- curity challenges of global and historical magnitude: more absolute poor than any time in human history, the sixth largest extinction spasm of life on earth, climate destabilization with mega-catastrophic consequences, and multi-trillion dollar wars over access to energy. These multiple, inextricably interwoven chal- lenges have low probability of being solved if decision makers maintain the strong propensity to think and act as if life is linear, has no carrying capacity limits, uncertainty is controllable, the future free of surprises, planning is predictable and compartmentalized into silos, and Gaussian distributions are taken as the norm while fat-tail futures are ignored. Although the future holds irreducible uncertainties, it is not fated. The emergence of Internet availability to one-third of humanity and access by most of humanity within a decade has spawned the Web analogue of a ‘Cambrian explosion’ of speciation in knowledge applica- tions. Among the most prodigious have been collaboration innovation networks (COINs) reflecting a diversity of ‘genome’ types, facilitating a myriad of collective intelligence crowd-swarming phenomena (Malone T, Laubacher R, Dellarocas C. The Collective Intelligence Genome. MIT Sloan Management Review, Spring; 2010, Vol. 51). COINs are essential tools for accelerating and scaling transformational solutions (positive tipping points) to the wicked problems confronting humanity. Web COINs enable acceleration of multiple-benefit innovations and solutions to these problems that permeate the nested clusters of linked nonlinear complex adaptive systems comprising the global biosphere and socioeconomy.
Innovation of climate friendly technology in developing countrieslana707
Innovation of climate-friendly technology in developing countries requires policy and equity considerations; scaling-up existing technology and promoting new technologies. Adaptation of agriculture to climate change will be vital.
Presentation covering:
# Greenwash theory and examples
# Main types of greener energy
# Six main energy providers in the UK and their fuel mix
# Criticism to the main six energy providers
# Government policies
# Meeting green expectations
# Consumer perspective
# Conclusion
# Some references
Howard University Sigma Xi talk Biocomplexity Decisionmaking MP Totten 11-10Michael P Totten
Humanity confronts unprecedented challenges of global and historical magnitude, including climate destabilization, ocean acidification, more absolute poor than any time in human history, and species extinction rate 1000 times the natural background rate. Instead of dealing with each problem separately, there are great gains to be made by looking for common solutions to these inextricably interwoven problems. Green economics offers one such perspective to assessment opportunities.
the delicate topic of Sustainable Development through a
book which I have co-authored and give to the audience also a perspective on
how Education can sensitively provide support for this framework.
I will participate in my role of affiliate professor of management and behavior
for Grenoble Graduate School of Business, France ( www.ggsb.com)
by mark esposito (m.esposito@ht.umass.edu)
Michael P Totten A Climate For Life Mesh Talk Bioneer Los Angeles 12 09 09Michael P Totten
Positive vision of win-win-win actions to avoid climate catastrophe, end mass poverty, reduce species extinction, by using web-based social collaboration tools and collective intelligence actions.
MDGs and Global Environmental Change - Governance, Innovation and LearningEuforic Services
Presentation by Andreas Rechkemmer (IHDP) during the High Level Policy Forum - After 2015: Promoting Pro-poor Policy after the MDGs - Brussels, 23 June 2009 - http://www.bit.ly/after2015
Arun_Majumdar_Energy_Climate_Sustainability_The_India_Dialog_2024.pptxDr. Amit Kapoor
Presentation done by Arun Majumdar, Dean, Stanford Doerr School of Sustainability on "Energy, Climate and Sustainability" at #TheIndiaDialog on February 29, 2024 at Stanford University. The #TheIndiaDialog was organised by Institute for Competitiveness and US Asia Technology Management Center at Stanford University.
#TheIndiaDialog looks at inviting the world’s leading experts and intellectuals in the areas of economics, business, policy, social development, science, technology, art and culture to provide their perspectives and foster an understanding of India. There would be a series of keynote addresses, panel discussions, and fireside chats during the dialog.
Built for Training - Sustainability Workshop Built for:
Built for Training's Sustainability workshop in Manchester on Thursday 12th May 2011 in partnership with GreenBuild News. For training opportunities at your offices call 01622 623786, email contact@builtfortraining.co.uk or visit www.builtfortraining.co.uk/training.
This is the first lecture for the module FN0449 Corporate Social Responsibility for Multi-Nationals. The module forms part of the MSc Business with International Management at Newcastle Business School
Similar to GreenATP ucla anderson business school mp totten 06 11 (20)
The New Photonomy - offering an exponentially fruitful abundance worldwide, P...Michael P Totten
Elevated solar photovoltaics sited on a fraction of existing cultivated lands, technically referred to as Agrivoltaic microgrids (plus batteries-controls), promises enhanced economic security for farmers, who generate onsite power and export excess power, while continuing to grow crops, pasture grasses and livestock grazing below the solar panels. Energy security is also enhanced as a result of the distributed design, or what the U.S. rural electric cooperatives call the new "agile fractal grid." The model builds upon the U.S. Dept. of Defense decree that all military bases transition to islandable microgrids capable of operation when the grid or pipelines collapse (whether due to physical attacks, cyberterrorism, cybercrime, or climate-triggered catastrophes). Recent analysis found it would only take a couple of percent of existing cultivated lands sited with agrivoltaics to generate nearly 100 of total global energy demand for all purposes. This 84-slide presentation provides both overview and details about this multi-benefits accruing energy service option: collapsing most GHG emissions from the energy sector (which now comprises 3/4th of total global emissions), a dozen other energy-spewed chemical SCARs ("social cost of atmospheric releases), eliminate need for massive land conversion to biofuels and threats to biodiversity destruction, and 90 percent decline in water extraction. All documented with citations and references.
Totten 189 slides on Catalyzing Zero Emission Cities - presentation to Colora...Michael P Totten
189 slides discussing a collaborative information network (COIN) to help citizens catalyze combustion-free, emission-free campuses, cities, and companies, and transition to electrification powered by solar, wind, and efficiency gains.
Michael P Totten Half-Century review Professional HighlightsMichael P Totten
17 pages of professional initiatives I have worked on and am currently focused on in creating Internet-based platform networks promoting collaborative innovation and collective intelligence focused on catalyzing accessible knowledge and resource tools to assist cities, campuses, companies and citizens to transform from a fossil-fuel economy to solar-based economy within the next 25 years.
LEAST-COST-&-RISK LIFECYCLE DELIVERED ENERGY SERVICESMichael P Totten
147-slide deck used in seminar at the Inter-American Development Bank (IDB), Nov. 12, 2014, Energy Training Workshop. Whereas the IDB has skewed investment and financial support to South and Central American and Caribbean nations into large-scale hydrodams, and large-scale fossil fuel projects (power plants, pipelines), this presentation focuses on the superior least-cost-and-risk strategy based on end-use efficiency gains, onsite and distributed microgrids, powered with solar and wind power.
287 slide deck from seminar given to Colorado Yale Association, January 2016 on 1) global ruptures occurring from climate destabilization (eruptions) and ecosystem destruction, 2) innovative technologies, policies and behaviors (disruptions) to address, prevent and solve these wicked problems, and 3) the resistance to such positive changes by legacy industries and politicians (corruptions).
IoN - Human-Centric Internet of Networks - Michael P Totten presentation at H...Michael P Totten
Smart LED Solid-State Lighting (SSL) luminaires with color tunable and dimmable capabilities, linked to the Internet offer enhanced benefits for human well-being, health and productivity. Energy savings of 50 to 80% are one monetary advantage, but these savings are eclipsed by the value accruing from increased productivity and wellness benefits.
As a Presidio Fellow in Sustainability and Sports, at the Presidio Graduate School, San Francisco, CA, [http://www.presidio.edu/academics/presidiopro/certificates/sports- sustainability] I presented a class on energy efficiency and solar in sports stadiums and arenas. It covers related issues of advanced BIM (Building Information Modeling or Building Intelligence Management), Internet of Everything (IoT), continuous commissioning over building lifecycle, LED lighting systems, and more.
pursuing sustainable planetary prosperity chapter 18 US-China 2022Michael P Totten
China and the U.S. are the two largest consuming nations, their combined gross do- mestic products (GDPs) comprising one third of global GDP. The two nations consume one quarter of world natural gas and one third of world oil production, and produce nearly two thirds of world coal. The two nations are also the planet’s largest CO2 emitters, jointly releasing nearly half of the world total.
Business-as-usual scenarios are insufficient to address the acute sustainability challenges that both nations – as well as the community of nations
– are facing. However, collaboration in pursuing solutions through unprecedented statesmanship, leadership and technological advances will simultaneously provide national and global sustainability solutions.
Joint initiatives are in both of our nations’ enlightened self interest – from immediate and sustained economic and environmental gains to long-term well being and prosperity of our peoples – and will make a major, essential contribution to finding global solutions to the devastating risks facing hu- manity and the biosphere.
Great plains win-win-wind strategy 100% renewable US power michael p totten a...Michael P Totten
currently 75% of Great Plains is farmed/ranched, generating 5% of the region's total revenues. Long-term sustainability threatened by increasing frequency severity droughts, heat waves, soil erosion, dust storms - with increasing probability of long-term dust bowl. Placing several million large wind turbines on just three percent of the Great Plains would generate 100% of U.S. current power consumption, while providing farmers/ranchers with royalties twice as large as from ranching/farming. This would enable regenerative restoration of soils and carbon storage by shifting to deep-rooted, drought resistant native prairie grasses. Bison co-evolved with prairie grasses, and offer another source of revenues from healthy meat production. Eco-tourism offers an additional revenue source, given the restoration of migratory bird flyways. And soil carbon storage offers another revenue opportunity. In sharp contrast to business-as-usual, an inevitable Austerity driven future, this win-win-wind strategy is a Prosperity driven future. This is the slide presentation that visualizes an accompanying paper also posted on my slideshare site.
Slides from Michael P Totten TEDx Talk Singapore, April 2012 on need for planetary physicians practitioners network to tackle and resolve multiple mega-catastrophic risks facing the world's citizenry by applying mega-opportunities available in the planet's local communities for promoting health, well-being and prosperous livlihoods for humanity and life on earth now and generations to come.
Michael P Totten DENIN talk "Water in an Uncertain Climate Future" focusing o...Michael P Totten
The DENIN Dialogue Series is a semiannual lecture series sponsored by the Delaware Environmental Institute (DENIN) that brings experts of international renown in environmental research and policy to address the public at UD's Newark campus. Totten's presentation will be podcast on DENIN's iTunes U site following the lecture.
Totten will address the topic “Water in an Uncertain Climate Future.” Billions of people around the world are mired in poverty, are chronically ill, and lack adequate drinking water and basic sanitation services. Efforts to ensure water security now also contend with the impacts of climate change and the uncertainty in water flow and availability.
Water use is pervasive throughout the global economy but concentrated in agriculture (about 75 percent of water withdrawals worldwide) and thermal power plants (48 percent of off-stream use in the U.S.). A core concern is how to
deliver water services for these needs at least cost and risk while addressing issues of social equity and ecological integrity.
Totten will present the case that there are win-win-win pathways in addressing these multiple crises, and he will highlight
some of the evidence and experience to date in using innovative practices, policies and regulations in delivering water and water-related services.
He has nearly three decades of professional experience in promoting ecologically sustainable economic development at the local, national and international levels. At Conservation International's CELB, he engages corporations and public institutions in adopting strategies to shrink and offset the ecological footprints of goods and services throughout their lifecycle. He has given more than 1,500 presentations and written scores of publications.
Totten is the principal co-author of the 2008 book, A Climate for Life: Meeting the Global Challenge, an interdisciplinary perspective on preventing catastrophic climate change and human-triggered species extinction while providing robust
economic growth. He received the Lewis Mumford Prize for Environment in 2000 for pioneering the creation of interactive multimedia and Internet tools for spurring ecologically sustainable development. As senior adviser to U.S. Rep. Claudine Schneider (R-R.I.), he drafted the 1989 Global Warming Prevention Act, cosponsored by one-third of the House of Representatives.
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My presentation at the Washington International Renewable Energy Conference, on the serious problems of biofuel dependency when scaled globally and over this century
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Length: 30 minutes
Session Overview
-------------------------------------------
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- What out-of-the-box solutions are available for real-time monitoring JMeter tests?
- What are the benefits of integrating InfluxDB and Grafana into the load testing stack?
- Which features are provided by Grafana?
- Demonstration of InfluxDB and Grafana using a practice web application
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All of this illustrated with link prediction over knowledge graphs, but the argument is general.
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The IoT and OT threat landscape report has been prepared by the Threat Research Team at Sectrio using data from Sectrio, cyber threat intelligence farming facilities spread across over 85 cities around the world. In addition, Sectrio also runs AI-based advanced threat and payload engagement facilities that serve as sinks to attract and engage sophisticated threat actors, and newer malware including new variants and latent threats that are at an earlier stage of development.
The latest edition of the OT/ICS and IoT security Threat Landscape Report 2024 also covers:
State of global ICS asset and network exposure
Sectoral targets and attacks as well as the cost of ransom
Global APT activity, AI usage, actor and tactic profiles, and implications
Rise in volumes of AI-powered cyberattacks
Major cyber events in 2024
Malware and malicious payload trends
Cyberattack types and targets
Vulnerability exploit attempts on CVEs
Attacks on counties – USA
Expansion of bot farms – how, where, and why
In-depth analysis of the cyber threat landscape across North America, South America, Europe, APAC, and the Middle East
Why are attacks on smart factories rising?
Cyber risk predictions
Axis of attacks – Europe
Systemic attacks in the Middle East
Download the full report from here:
https://sectrio.com/resources/ot-threat-landscape-reports/sectrio-releases-ot-ics-and-iot-security-threat-landscape-report-2024/
State of ICS and IoT Cyber Threat Landscape Report 2024 preview
GreenATP ucla anderson business school mp totten 06 11
1. GreenATP
Green Applications & Tipping Points
Presentation at the
UCLA Anderson School of Business
by
Michael P. Totten
Chief Advisor, Green Economies
Conservation International
June 09-10, 2011
2. WHY?
Collapsing
Mass
Ecosystems
Poverty Mass
Climate Extinction
disasters
6. Species extinction by humans
1000x natural background rate
extinction
Species
Extinctions
Human population
7. Past planetary mass extinctions
Catastrophes
triggered by high CO2 >550ppm
Where we will be by 2100 900ppm
Climate
Parts per Million CO2
TODAY: 387PPM
8. 55 million years since oceans as acidic –
business-as-usual emissions growth
threaten collapse of marine life food web
Acidifying
Oceans
Global Circulation Models (GCM)
Bernie et al. 2010. Influence of mitigation policy on ocean acidification, GRL
9. Negative Tipping Points
Source: Timothy M. Lenton¤y , Hermann Held , Elmar Kriegler , Jim W. Hall , Wolfgang
Lucht , Stefan Rahmstorf and Hans Joachim Schellnhuber, 2007. Tipping elements in
the Earth's climate system, Proceedings of the National Academy of Sciences USA,
www.pnas.org/.
10. Unintended Geo-engineering Consequences
A significant fraction of CO2 emissions remain in the atmosphere,
and accumulate over geological time spans of tens of thousands
of years, raising the lurid, but real threat of extinction of
humanity and most life on earth.
11. human
12 to 16
billion
extinction?
70,000 years
ago humans
down to 2000
2100 ????
12. Cost-Benefit Analysis (CBA) Misleading
… a more illuminating and constructive analysis would be determining
the level of "catastrophe insurance" needed:
"rough comparisons could perhaps be made with
the potentially-huge payoffs, small probabilities,
and significant costs involved in countering
terrorism, building anti-ballistic missile shields, or
neutralizing hostile dictatorships possibly
harboring weapons of mass destruction
Martin Weitzman
…A crude natural metric for calibrating cost estimates of climate-change
environmental insurance policies might be that the U.S. already spends
approximately 3% [~$400 billion in 2010] of national income on the cost
of a clean environment."
MARTIN WEITZMAN. 2008. On Modeling and Interpreting the Economics of Catastrophic Climate Change. REStat FINAL
Version July 7, 2008, http://www.economics.harvard.edu/faculty/weitzman/files/REStatFINAL.pdf.
13. Where the world needs to go:
energy-related CO2 emissions per capita
???
Source: WDR, adapted from NRC (National Research Council). 2008. The National Academies Summit on America’s Energy Future: Summary of a Meeting.
Washington, DC: National Academies Press.based on data from World Bank 2008. World Development Indicators 2008.
14. $1,000 trillion GWP
2 TO 3% Annual Average ~$100,000 per cap
Gross World Product # in poverty?
century growth rate
(~10 to 20x today’s)
$500 trillion GWP
~$50,000 per cap
# in poverty?
$50 trillion GWP
~$7,500 per cap
2+ billion in
poverty?
2005 2105 at 2% 2105 at 3%
16. While non-linear complex
adaptive systems pervade
existence, humans have a
strong propensity to think
and act as if life is linear,
uncertainty is controllable,
the future free of surprises,
and planning is predictable
and compartmentalized
into silos.
Normal distributions are
assumed, fat-tail futures
are ignored.
17. Examples of uncertainties identified in each of 3
knowledge relationships of knowledge
Unpredictability Incomplete knowledge Multiple knowledge frames
Natural system
Technical system
Social system
Brugnach, M., A. Dewulf, C. Pahl-Wostl, and T. Taillieu. 2008. Toward a relational concept of uncertainty: about knowing too little, knowing too
differently, and accepting not to know. Ecology and Society 13(2): 30. [online] URL: http://www.ecologyandsociety.org/vol13/iss2/art30/
18. The adaptive cycle - a theory of the relationship of
transformation to resilience
Stored
Released
Variety Sameness
Source: Resilience Alliance, www.resalliance.org/
32. Institutional level
A change in culture
A change in laws
A change in resource
distribution/availability
Organizational level
A change in strategies
A change in procedures
A change in resource
distribution/availability
Network/Group level
A change in conversation
A change in routine
A change in resource
commitment or influence
Individual level
A change in heart
A change of habits
A change of ambition
36. Adopting Win-Win-Win PORTFOLIOS
Using portfolios of multiple-benefit actions to become
climate positive and revenue positive
Pervasive Information & Communication Technologies Key to Success
Ecosystem
Radical Energy Efficiency Ecological Green Power
Protection
37. Adopting Portfolios of Best Policies
1)RADICAL ENERGY EFFICIENCY
Pursue vigorous, rigorous & continuous
improvements that reap monetary savings, ancillary
benefits, & GHG reductions (same w/ water &
resources)
2)PROTECT THREATENED ECOSYSTEMS
Add conservation carbon offset options to portfolio
that deliver triple benefits (climate protection,
biodiversity preservation, and promotion of
community sustainable development)
3)ECOLOGICAL GREEN POWER/FUELS
Select only verifiable „green power/fuels‟ that are
climate- & biodiversity-friendly, accelerate not slow
poverty reduction, & avoid adverse impacts
38. Half to 75% of all natural resource consumption
becomes pollution and waste within 12 months.
Closing the Loop – Reducing Use of Virgin Resources &
Increasing Reuse of Waste Nutrients
E. Matthews et al., The Weight of Nations, 2000, www.wri.org/
39. Cradle-to-Cradle is an innovative and sustainable industrial model that focuses on
design of products and a production cycle that strives to produce no waste or
pollutants at all stages of the lifecycle.
Source: Braungart and McDonough Cradle-to-Cradle: Remaking the Way We Make Things (2002)
40. Reducing a Product’s Environmental Footprint
Spider diagram is one way to show how a particular product’s environmental
effects or ―footprint‖ are reduced over time through incremental improvements in
sustainable design. This diagram shows the dimensions of the footprint in years
2009, 2025 and 2050.
Source: California Green Chemistry Initiative, Final Report, California EPA and Dept. Toxic Substances Control, December 2008
41. CO2 Abatement potential & cost for 2020
Breakdown by abatement type
• 9 Gt terrestrial carbon (forestry/agriculture)
• 6 Gt energy efficiency
• 4 Gt low-carbon energy supply
Zero net cost counting efficiency savings. Not counting the efficiency savings the
incremental cost of achieving a 450 ppm path is €55-80 billion per year between 2010–2020 for
developing countries and €40–50 billion for developed countries, or less than 1 % of global GDP, or
about half the €215 billion per year currently spent subsidizing fossil fuels.
42. Need to Halt Deforestation & Ecosystem Destruction
Gigatons global CO2 emissions per year
Billion tons CO2 14 million hectares burned each
25 year emitting 5 to 8 billion tons
CO2 per year. More emissions
than world transport system of
20
cars, trucks, trains, planes, ships
15
10 US
GHG
5
levels
0
Fossil fuel emissions Tropical land use
IPCC LULUCF Special Report 2000. Tab 1-2.
43. Outsourcing CO2 reductions to become Climate Positive
Gigatons global CO2 emissions per year
Billion tons CO2 5 to 8 billion tons CO2 per year
25 in mitigation services available in
poor nations, increasing their
revenues by billions of dollars
20
annually ; and saving better-off
nations billions of dollars.
15
10 US
GHG
5
levels
0
Fossil fuel emissions Tropical land use
IPCC LULUCF Special Report 2000. Tab 1-2.
45. Largest Corporate REDD Carbon Project to date
$4 million to protect the Tayna and
Kisimba-Ikobo Community Reserves in
eastern DRC and Alto Mayo conservation
area in Peru.
Will prevent more than 900,000 tons of
CO2 from being released into the
atmosphere.
Using Climate, Community & Biodiversity
Carbon Standards.
46. Geological storage (CCS) vs U.S. fossil Electricity CO2
Ecological storage (REDD) mitigation cost annually
Carbon Mitigation Cost (2.4 GtCO2 in 2007)
$ per ton CO2
Carbon Capture & Storage (CCS)
$50
$45 ~$100 billion
$40 ~3 ¢ per kWh
$35
$30
$25 Reduced Emissions Deforestation
$20 & Degradation (REDD)
$15
$10
~$18 billion
$5
~0.5 ¢ per kWh
$- 0
CCS REDD
Source: Michael Totten, REDD is CCS NOW, December 2008
47. U.S. fossil Electricity in 2007 $7.50 per ton CO2
2.4 billion tons CO2 emissions 1/2 cent per kWh
$18 billion/yr REDD trade
Poverty reduction
Prevent Species loss
A A win-win-win
win-win-win
Tropical Deforestation 2007 outcome
outcome
13 million hectares burned
7 billion tons CO2 emissions
48. 1824 Liters per year 4.8 tons CO2 emissions per
(10.6 km/l x 19,370 km per year) = year
~$48 to Reduce Emissions from Deforestation at $10 per tCO2
Adds 7 cents per gallon
49. Irreversible Loss
In the wake of 14
million hectares of
tropical forests
burned down each
year, some 16 million
species populations
go extinct.
Endemic species
comprising the
natural laboratory of
biocomplexity with
future values yet to
be assessed or
discovered.
50. Bioprospecting biological wealth using
bioinformatic tools from field to lab
One-quarter all medical drugs
used in developed world from
plants.
Cortisone and first oral
contraceptives derived from
Central American yam species
Pacific yew in western US
yielded anti-cancer drug taxol
Vincristine from the Rosy
Periwinkle in Madagascar
Drug to prevent blood clotting
from snake venom
Active ingredient aspirin
synthesized from willow trees.
51. Bioprospecting biological wealth using
biotechnology tools from field to lab
Biomolecules prospected
from different bio-resources
for pesticidal, therapeutic and
other agriculturally important
compounds
Biomolecules for Industrial and
Medicinal Use
Novel Genes/Promoters to
address Biotic and Abiotic
Stress
Genes for Transcription Factors
Metabolic Engineering Pathways
Nutritional Enhancement
Bioavailability of Elements
Microbial Biodiversity
52. Ultra-low Carbon
multi-beneficial
Energy, Mobility &
Utility Service Options
53. Attributes of Green Energy, Mobility &
Utility Energy Services
Dozen Desirable Criteria
1. Economically affordable including poorest of the poor and cash-strapped?
2. Safe through the entire life cycle?
3. Clean through the entire lifespan?
4. Risk is low and manageable from financial and price volatility?
5. Resilient and flexible to volatility, surprises, miscalculations, human error?
6. Ecologically sustainable no adverse impacts on biodiversity?
7. Environmentally benign maintains air, water, soil quality?
8. Fails gracefully, not catastrophically adaptable to abrupt surprises or crises?
9. Rebounds easily and swiftly from failures low recovery cost and lost time?
10. Endogenous learning capacity Intrinsic transformative innovation opportunities?
11. Robust experience curve for reducing negative
externalities & amplifying positive externalities scalable production possibilities?
12. Uninteresting target for malicious disruption off radar of terrorists or military planners?
54. Uninteresting military target
A Defensible Green Robust experience curves
Energy Criteria Scoring Endogenous learning capacity
Rebounds easily from failures
Promote Fails gracefully, not catastro
Environmentally benign
CHP + Ecologically sustainable
biowastes
Resilient & flexible
Secure
Clean
Safe
Economically Affordable
Efficiency BIPV PV Wind CSP CHP Biowaste Geo- Nat Bio- Oil Coal Coal Coal to Tar Oil nuclear
power thermal gas fuels imports CCS no liquids sand shale
CCS
55. Universal symbol for Efficiency
eta
η The best thing
about low-
hanging fruit
is that it keeps
growing back.
SHRINKING footprints through Continuous innovation
56. ELECTRIC MOTOR SYSTEMS
Now use 1/2 global power
50% efficiency savings achievable
90% cost savings
57. $2+ Trillion Global Savings Potential, 59 gigatons CO2 Reduction
Hashem Akbari Arthur Rosenfeld and Surabi Menon, Global Cooling: Increasing World-wide Urban Albedos to Offset CO2, 5th Annual California Climate Change
Conference, Sacramento, CA, September 9, 2008, http://www.climatechange.ca.gov/events/2008_conference/presentations/index.html
59. Beyond Zero Net
Energy Buildings
The Costs and
Financial Benefits
of Green Buildings,
Public library – North Carolina A Report to
California‟s
Sustainable
Building Task
Force, Oct. 2003, by
Greg Kats et al.
$500 to $700 per
m2 net present
value
Oberlin College
Heinz Foundation Ecology Center,
Green Building, PA Ohio
60. Daylighting could displace 100s GWs
Lighting, & AC to remove heat emitted by lights,
consume half of a commercial building
electricity.
Daylighting can provide up to 100% of day-time
lighting, eliminating massive amount of power
plants and saving tens of billions of dollars in
avoided costs.
Some daylight designs integrate PV solar cells.
61. High-E Windows displacing pipelines
Full use of high performance windows in the
U.S. could save the equivalent of an Alaskan
pipeline (2 million barrels of oil per day), as
well as accrue over $15 billion per year of
savings on energy bills.
62. Cost of new delivered electricity (cents per kWh)
CCS
US current
average
nuclear coal CC gas wind farm CC ind bldg scale recycled end-use
cogen cogen ind cogen efficiency
Amory Lovins & Imran Sheikh, The Nuclear Illusion, May 2008, www.rmi.org
63. How much coal-fired electricity can be displaced by investing
one dollar to make or save delivered electricity 2¢ 50
33
25
nuclear coal CC gas wind farm CC ind bldg scale recycled end-use
cogen cogen ind cogen efficiency
Amory Lovins & Imran Sheikh, The Nuclear Illusion, May 2008, www.rmi.org
64. 2¢ 47
Coal-fired CO2 emissions displaced
per dollar spent on electrical services
1¢: 93 kg
CO2/$
32
23
nuclear coal CC gas wind farm CC ind bldg scale recycled end-use
cogen cogen ind cogen efficiency
Amory Lovins & Imran Sheikh, The Nuclear Illusion, May 2008, www.rmi.org
65. Integrated Resource Planning (IRP) & Decoupling sales from
revenues are key to harnessing Efficiency Power Plants
For delivering least-cost & risk electricity, natural gas & water services
USA minus CA & NY
Per Capital
Electricity 165 GW
Consumption Coal
Power
New York Plants
California
[EPPs]
Californian‟s have
net savings of
$1,000 per family
California 30 year proof of IRP value in promoting
lower cost efficiency over new power plants or
hydro dams, and lower GHG emissions.
California signed MOUs with Provinces in China
to share IRP expertise (now underway in Jiangsu).
66. The Stone
Age did
not end
because it
ran out of
stones
The Fossil
CHANGE Fuel Age
won’t end
because it
ran out of
fossils
68. A power source delivered daily and locally everywhere
worldwide, continuously for billions of years, never
failing, never interrupted, never subject to the volatility
afflicting most energy and power sources used in driving
economic activity
Solar Fusion Waste as Earth Nutrients –
1336 Watts per m2 from the Photon Bit stream
69. Annual global energy consumption by humans
Oil SOLAR PHOTONS
Gas ACCRUED IN A MONTH
EXCEED THE EARTH’S
FOSSIL FUEL RESERVES
Coal
ANNUAL Wind
Uranium
Hydro
ANNUAL Solar Energy
Photosynthesis
Source: International Energy Agency, Energy Technology Perspectives, 2008, p. 366. The figure is based on National
Petroleum Council, 2007 after Craig, Cunningham and Saigo.
70. Harnessing 1/7500th of the Sun’s
delivered photons is technically,
economically & financially feasible.
Scientists confident that 10X this
amount can be harnessed this century.
GreenATP can drive transformational
innovations essential for shifting to a
solar powered global economy --
buyers, incentives, financing, training,
R&D, standards, training, policies, etc
71. In the USA, cities and residences cover 56 million hectares.
Every kWh of current U.S. energy requirements can be met simply by
applying photovoltaics (PV) to 7% of existing urban area—
on roofs, parking lots, along highway walls, on sides of buildings, and
in dual-uses. Requires 93% less water than fossil fuels.
Experts say we wouldn’t have to appropriate a single acre of new
land to make PV our primary energy source!
72. Solar Photovoltaics (PV) satisfying 90%
total US electricity from brownfields
90% of America’s current
electricity could be supplied with
PV systems built in the ―brown-
fields‖— the estimated 2+ million
hectares of abandoned industrial
sites that exist in our nation’s
cities.
Cleaning Up
Brownfield
Sites w/
PV solar
Larry Kazmerski, Dispelling the 7 Myths of Solar Electricity, 2001, National Renewable Energy Lab, www.nrel.gov/;
73. Photovoltaics is an Excellent Creator of Jobs
Source: Dave Miller, President, DuPont Electronics & Communications, GW Solar Institute Symposium,
The Critical Role of Materials in the Solar PV Industry, April 19, 2010
75. Solar power beats thermal plants within their
construction lead time—at zero carbon price
Source: Amory Lovins, RMI2009 from Ideas to Solutions, Reinventing Fire, Nov. 2009, www.rmi.org/ citing SunPower analysis
76. China Economics of Commercial BIPV
Building-Integrated Photovoltaics
Net Present Values (NPV), Benefit-Cost Ratios (BCR)
& Payback Periods (PBP) for „Architectural‟ BIPV
(Thin Film, Wall-Mounted PV) in Beijing and
Shanghai (assuming a 15% Investment Tax Credit)
Material Economic
Beijing Shanghai
Replaced Measure
NPV ($) +$18,586 +$14,237
Polished BCR 2.33 2.14
Stone PBP (yrs) 1 1
NPV ($) +$15,373 +$11,024
BCR 1.89 1.70
Aluminum
PBP (yrs) 2 2
SunSlate Building-Integrated
Photovoltaics (BIPV) commercial
building in Switzerland
Byrne et al, Economics of Building Integrated PV in China, July 2001, Univ. of Delaware, Center for Energy and Environmental Policy, Twww.udel.edu/ceep/T]
77. China EconomicsCommercial BIPV
Economics of of Commercial BIPV
Reference costs of facade-cladding materials
BIPV is so economically attractive because it
captures both energy savings and savings from
displacing other expensive building materials.
Eiffert, P., Guidelines for the Economic Evaluation of Building-Integrated Photovoltaic Power Systems, International Energy Agency PVPS Task 7:
Photovoltaic Power Systems in the Built Environment, Jan. 2003, National Renewable Energy Lab, NREL/TP-550-31977, www.nrel.gov/
78. 21GW
Global Cumulative PV Growth 1998-2008
MW
40% annual growth rate
Doubling <22 months
40% annual growth rate through
2030 could provide twice current
total world energy use
Compared to:
Wind power 121,000 MW [158,000 in 2009]
Nuclear power 350,000 MW
Hydro power 770,000 MW
Natural Gas power 1 million MW
Coal power 2 million MW
2009
79. Shifting from a $2500 trillion energy bill
this century, 75% from fossil fuels
To an energy
bill half this
amount, and
75% solar
services.
81. 120 million electric bicycles & scooters in China
Cost of owning and operating an e-bike is the lowest of all
personal motorized transportation in China.
$3 per gallon gasoline is equivalent to 36 cents per kWh –
twice as expensive as solar PV electricity
Source: Jonathan Weinert, Chaktan Ma, Chris Cherry, The Transition to Electric Bikes in China: History and Key Reasons
for Rapid Growth; Alan Durning, Three Trends that favor electric bikes, 12-20-10, www.grist.org/article/charging-up
82. Shifting Government R&D Focus and Funds
Billion $ 2008 constant
90 $85
2
80
Civilian Nuclear Power
70
(1948 – 2009)
60
vs. 50
40
Solar Photovoltaics 30
(1975-2009) 20
10 $4.2
1
0 1 2
PV NUCLEAR
83. What Annual Growth Rate Can Solar PV Sustain this Century?
Rate Largely Driven by Incentives, Finance Innovations, Public Policies & Regulations
200000 Solar PV Growth @ 20% per year 2032
@
180000
40%
>10X total world energy consumption than in 2009
160000
2071
GigaWatts (GW)
140000 @
15%
120000
100000 2103
@
80000 10%
60000
40000
20000
15000 GW total world consumption in 2009
0
2009 2013 2016 2020 2023 2027 2031 2034 2038 2041 2045 2049 2052 2056
84.
85. GIS Mapping the Solar
Potential of Urban Rooftops
100% Total Global Energy Needs -- NO NEW LAND,
WATER, FUELS OR EMISSIONS – Achievable this Century
Germany's SUN-AREA Research Project Uses ArcGIS to calculate the possible solar yield per building for city of Osnabroeck.
86. Catalyzing solar smart poly-grids
Continuous algorithm measures incoming solar radiation, converts to usable energy
provided by solar photovoltaic (PV) power systems, calculates revenue stream based
on real-time dynamic power market price points, cross integrates data with
administrative and financial programs for installing and maintaining solar PV systems.
87. Smart Grid Web-based Solar Power Auctions
Smart Grid design based on digital map algorithms continuously
calculating solar gain. Information used to rank expansion of
urban solar panel locations based on multi-criteria targets.
89. 95% U.S. terrestrial wind resources in Great Plains
Figures of Merit
Great Plains area
1,200,000 mi2
Provide 100% U.S. electricity
400,000 3MW wind turbines
Platform footprint
6 mi2
Large Wyoming Strip Mine
>6 mi2
Total WindFarm spacing area
37,500 mi2
Still available for farming
and prairie restoration
90%+ (34,000 mi2)
CO2 U.S. electricity sector
40% USA total GHG emissions
90. Wind Farm Royalties – Could Double
farm/ranch income with 30x less land area
Although agriculture controls about 70%
of Great Plains land area, it contributes 4
to 8% of the Gross Regional Product.
Wind farms could enable one of the
greatest economic booms in American
history for Great Plains rural
communities, while also enabling one of
world’s largest restorations of native
prairie ecosystems
How?
The three sub-regions of the Great Plains are: Northern Great Plains = Montana, North Dakota,
South Dakota; Central Great Plains = Wyoming, Nebraska, Colorado, Kansas; Southern Great Plains
= Oklahoma, New Mexico, and Texas. (Source: U.S. Bureau of Economic Analysis 1998, USDA 1997 Census of Agriculture)
91. Wind Royalties – Sustainable source of
Rural Farm and Ranch Income
US Farm Revenues per hectare
Crop revenue Govt. subsidy
non-wind farm Wind profits
windpower farm
$0 $50 $100 $150 $200 $250
windpower farm non-wind farm
govt. subsidy $0 $60
windpower royalty $200 $0
farm commodity revenues $50 $64
Williams, Robert, Nuclear and Alternative Energy Supply Options for an Environmentally Constrained World, April 9, 2001, http://www.nci.org/
92. Montana South Dakota
GREAT PLAINS
WIND RESOURCES
in varying stages of digital
Wyoming Nebraska Apps --technical, training
ecological, economic,
financial assessment,
mapping & mashups,
visualization, installation,
Iowa operation & post-
Colorado production options
Oklahoma
New Mexico
Texas
95. China
Opps
Intensive farming
and grazing
practices and
deforestation in
China have led to
more frequent dust
storms, like this one
in 2001 that swept
aerosol particles
into the Great Lakes
region of the US,
and even left a
sprinkling in the
Alps mountains in
Europe.
97. Offshore Wind potential several times greater than total world energy consumption
Announced turbine developments
China Offshore Wind
USA Offshore Wind >7 meters/second Brazil Offshore Wind
98.
99. Area to Power 100% of U.S. Onroad Vehicles
Solar-battery
Wind turbines
ground footprint
Wind-battery
turbine spacing
Cellulosic ethanol
Corn ethanol
Solar-battery and Wind-battery refer to battery storage of these intermittent renewable
resources in plug-in electric driven vehicles
COMPARISON OF LAND NEEDED TO POWER VEHICLES
Mark Z. Jacobson, Wind Versus Biofuels for Addressing Climate, Health, and Energy, Atmosphere/Energy Program, Dept. of Civil & Environmental Engineering, Stanford
University, March 5, 2007, http://www.stanford.edu/group/efmh/jacobson/E85vWindSol
106. Locally diverse algae produce biomass (Biomimicry)
Source: Walter Adey, Director, Marine Systems, Smithsonian Institute, email: ADEYW@si.edu ph: 202 633-0923
107. Nutrient Rich Water Clean water
(Sewage, polluted river water) Lower N P P, higher O2 + pH
ATS
+ atmospheric CO2 Less CO2 in atmosphere
(or power plant stack gases)
ALGAL
CO2 BIOMASS
Biobutanol Solvent
Fermenter Extraction
(Clostridium butylicum
Oil
Ethanol
C. Pasteurianum, etc.)
Acetone C6H12O6 C4H9OH + CO2 + …
Transesterification
Lactic Acid
Acetic Acid
Organic Biodiesel
Fertilizer
Source: Walter Adey, Director, Marine Systems, Smithsonian Institute, email: ADEYW@si.edu ph: 202 633-0923
108. Biofuel Production from Algal
Turf Scrubber Biomass
(50 tons per acre or 125 tons per hectare per year, dry)
Estimated Biofuel Production
gallons per acre [ha per year]
Algae
butanol 1520
+
biodiesel [3,770 gal/ha/yr] 2000
[5,000 gal/ha/yr]
Corn (ethanol) 500 ----
[1,250 gal/ha/yr]
Soy (biodiesel) ---- 100
[250 gal/ha/yr]
Source: Walter Adey, Director, Marine Systems, Smithsonian Institute, email: ADEYW@si.edu ph: 202 633-0923
110. 2 billion people lack safe water
Ashok Gadgil, Global Water Solutions through Technology, Affordable safe drinking water for poor communities in the developing countries, Purdue
Calumet, 10/23/08, www.purdue.edu/dp/energy/events/great_lakes_water_quality_conference/content/Gadgil_Purdue_Global-water%202008.pdf
111. Every hour 200 children under 5 die from drinking
dirty water. Every year, 60 million children reach
adulthood stunted for good.
Ashok Gadgil, Global Water Solutions through Technology, Affordable safe drinking water for poor communities in the developing countries, Purdue
Calumet, 10/23/08, www.purdue.edu/dp/energy/events/great_lakes_water_quality_conference/content/Gadgil_Purdue_Global-water%202008.pdf
112. 4 billion annual episodes of diarrhea exhaust
physical strength to perform labor -- cost billions of
dollars in lost income to the poor
Ashok Gadgil, Global Water Solutions through Technology, Affordable safe drinking water for poor communities in the developing countries, Purdue
Calumet, 10/23/08, www.purdue.edu/dp/energy/events/great_lakes_water_quality_conference/content/Gadgil_Purdue_Global-water%202008.pdf
113. A new water disinfector for the
developing world’s poor
DESIGN CRITERIA
• Meet /exceed WHO & EPA criteria for
disinfection
• Energy efficient: 60W UV lamp disinfects 1
ton per hour (1000 liters, 264 gallons, or 1
m3)
• Low cost: 4¢ disinfects 1 ton of water Dr Ashok Gadgil, inventor
• Reliable, Mature components
• Can treat unpressurized water
• Rapid throughput: 12 seconds
• Low maintenance: 4x per year
• No overdose risk
• Fail-safe
Ashok Gadgil, Global Water Solutions through Technology, Affordable safe drinking water for poor communities in the developing countries,
Purdue Calumet, 10/23/08, www.purdue.edu/dp/energy/events/great_lakes_water_quality_conference/content/Gadgil_Purdue_Global-
water%202008.pdf WaterHealth Intl device
114. WHI’s Investment Cost Advantage vs.
Other Treatment Options
Ashok Gadgil, Global Water Solutions through Technology, Affordable safe drinking water for poor communities in the developing countries, Purdue
Calumet, 10/23/08, www.purdue.edu/dp/energy/events/great_lakes_water_quality_conference/content/Gadgil_Purdue_Global-water%202008.pdf
115. WaterHealth International
The system effectively purifies and disinfects water contaminated with a broad range of
pathogens, including polio and roto viruses, oocysts, such as Cryptosporidium and
Giardia. The standard system is designed to provide 20 liters of potable water per
person, per day, for a community of 3,000 people.
Ashok Gadgil, Global Water Solutions through Technology, Affordable safe drinking water for poor communities in the developing countries, Purdue
Calumet, 10/23/08, www.purdue.edu/dp/energy/events/great_lakes_water_quality_conference/content/Gadgil_Purdue_Global-water%202008.pdf
116. WaterHealth International
Business model reaches underserved by including financing for the purchase and installation of
our systems. User fees for treated water are used to repay loans and to cover the expenses of
operating and maintaining the equipment and facility.
Community members hired to conduct day-to-day maintenance of these “micro-utilities,” thus
creating employment and building capacity, as well as generating entrepreneurial opportunities
for local residents to provide related services, such as sales and distribution of the purified water
to outlying areas.
And because the facilities are owned by the communities in which they are installed, the user
fees become attractive sources of revenue for the community after loans have been repaid.
Ashok Gadgil, Global Water Solutions through Technology, Affordable safe drinking water for poor communities in the developing countries, Purdue
Calumet, 10/23/08, www.purdue.edu/dp/energy/events/great_lakes_water_quality_conference/content/Gadgil_Purdue_Global-water%202008.pdf
119. At the same time, climate-triggered weather disasters are expected
to severely reduce global agricultural yields – by 20 to 40 %.
Projected reductions in yield in some African countries could be as
much as 50% by 2020.
120. Food, Fuel, Species
Tradeoffs?
By 2100, an additional 1700 million ha of
land may be required for agriculture.
Combined with the 800 million ha of
additional land needed for medium growth
bioenergy scenarios, threatens intact
ecosystems and biodiversity-rich habitats.
121. FOOD SECURITY & AGROBIODIVERSITY
Using low-input, high-yield micro-farming methods can
grow complete vegetarian diets on 1 hectare of land
sufficient for 100 people.
Urban food production worldwide is a key climate
mitigation and adaptation strategy, enhancing food security
and system resilience against ever-increasing threat of
sudden supply disruptions and price spikes.
Urban farming for many populations around the world is
literally an insurance hedge against the threat of persistent
hunger.
122. Currently, 15% of food is grown in urban areas. Many cities
could grow complete food diets on 10% of urban land area.
124. WILD DIVERSITY & HEIRLOOM SEEDS
There are more than 20,000 known species of edible plants in the world and yet, today, less than
20 species of plants now supply most of our plant foods; just four plant species – corn, wheat,
rice and potatoes – feed more people than the next 26 plant species combined
125. Using Green Apps & Tipping Points for
Growing Food for Self, Family, and Income
129. Handhelds can enable &
enoble citizens,
consumers, families,
neighborhoods,
communities, regions,
nations and the world
human society towards
practical wisdom
133. Characteristics of crowdsourcing processes
19 distinct process types identified from46 crowdsourcing
examples. Subsequent cluster analysis shows general patterns
among these types and indicates a link to certain applications of
crowdsourcing. 96 theoretically possible process types (for the
current dimensions) have been identified so far.
Source: David Geiger et al, Managing the Crowd: Towards a Taxonomy of Crowdsourcing Processes, Proceedings of the
Seventeenth Americas Conference on Information Systems, Detroit, Aug. 4th-7th 2011
134. The Collective Intelligence Genome
THE LEADING QUESTION
How can you get crowds to do what your business needs done?
FINDINGS
Collective Intelligence (CI) has already been proven to work, and CI
systems can be designed and managed to fit specific needs.
CI building blocks, or “genes,” can be recombined to create the right
kind of system.
Thomas Malone, Robert Laubacher, Chrysanthos Dellarocas, The Collective Intelligence Genome, MIT Slow
Mgnt Review, Spring 2010, vol. 51, No. 3
137. Thomas Malone, Robert Laubacher, Chrysanthos Dellarocas, The Collective Intelligence Genome, MIT Slow
Mgnt Review, Spring 2010, vol. 51, No. 3
138. When the Crowd gene is useful
The Crowd gene is most useful in situations where the resources
and skills needed to perform an activity are distributed widely or
reside in places that are not known in advance.
140. Thomas Malone, Robert Laubacher, Chrysanthos Dellarocas, The Collective Intelligence Genome, MIT Slow
Mgnt Review, Spring 2010, vol. 51, No. 3
141. Thomas Malone, Robert Laubacher, Chrysanthos Dellarocas, The Collective Intelligence Genome, MIT Slow
Mgnt Review, Spring 2010, vol. 51, No. 3
142. Thomas Malone, Robert Laubacher, Chrysanthos Dellarocas, The Collective Intelligence Genome, MIT Slow
Mgnt Review, Spring 2010, vol. 51, No. 3
143. Thomas Malone, Robert Laubacher, Chrysanthos Dellarocas, The Collective Intelligence Genome, MIT Slow
Mgnt Review, Spring 2010, vol. 51, No. 3
144. Thomas Malone, Robert Laubacher, Chrysanthos Dellarocas, The Collective Intelligence Genome, MIT Slow
Mgnt Review, Spring 2010, vol. 51, No. 3
145. Flowchart for the design of a CI system
Developing a detailed decision tree
This approach then asks a series of sequential,
logical questions, the answers of which form
specific guidelines for all CI systems:
1. Can activities be divided into pieces? Are
necessary resources widely distributed or in
unknown locations?
2. Are there adequate incentives to
participate?
3. What kind of activity needs to be done?
4. Can the activity be divided into small,
independent pieces?
5. Are only a few good (best) solutions
needed?
6. Does the entire group need to abide by the
same decision?
7. Are money or resources required to
exchange hands or motivate decision?
Source: Noah Radford, How to Build a Collective Intelligence Platform to Crowdsource
Almost Anything, August 21, 2010, http://news.noahraford.com
146. Noah Raford, When Collective
Intelligence Genes are Useful,
2010, www.noahraford.com
147. Noah Raford, When Collective Intelligence Genes are Useful, 2010, www.noahraford.com
150. How much is a unique visitor
worth on the Internet?
Depends on who you are. Amazon (e-commerce) is generating $189 per user. Google
(search) is generating $24 per user. Facebook (social networking) is only generating $4
per user according to this chart from JP Morgan's Imran Khan.
151. Potential Growth Scenarios
1 hour of 2% TOTAL
Site Green TOTAL
Volunteer Service service
END USER Product Service
time/week @ earnings earnings+
ENGAGEMENT Purchases Earnings Outcomes?
$9/hour value on volunteer
SCENARIOS (million $ only (million
(million $ per purchases time (million
per year) $ per year)
year) (million $) $ per year)
WILD
100,000,000 $ 46,800 $ 10,000 $ 1,000 $ 47,800 $ 1,000 SUCCESS
VIRAL
10,000,000 $ 4,680 $ 1,000 $ 100 $ 4,780 $ 100 SUCCESS
1,000,000 $ 468 $ 100 $ 10 $ 478 $ 10 SUCCESS
BUDGET
100,000 $ 47 $ 10 $ 1$ 48 $ 1 SURPLUS
BUDGET
10,000 $ 5$ 1 $ 0$ 5$ 0.1 DEFICIT
INKIND assumes 1 hour of Volunteer time per week per end user valued at $9/hr
PRODUCT purchases assumes $100 per end user per year
SERVICE transaction earnings assumes 2 percent of Product purchases
152. Green
ATP
Michael P. Totten, mtotten@conservation.org