AN OCEAN OF POTENTIAL: THE PROMISE AND PERIL OF RENEWABLE ENERGY

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1 AN OCEAN OF POTENTIAL: THE PROMISE AND PERIL OF RENEWABLE ENERGY April 25, 2013 Susan Avery, Woods Hole Oceanographic Institution

and related planetary systems Significant

advances in marine technology and engineering More

million annual operating budget and 750 active

2 What is WHOI? More than 80 years experience studying the ocean and related planetary systems Significant discoveries in all areas of oceanography and major advances in marine technology and engineering More than 450 scientific and technical staff $201 million annual operating budget and 750 active grants and contracts Three ships, multiple underwater vehicles and sensors National Deep Submergence Facility

3 How does WHOI work? : Putting the pieces together

4 Water: A limited resource

5 Ecosystem services

6 Ocean heating greater than landatmosphere ice heating Source: Church et al., 2011 (right)

7 In seawater, dissolved CO 2 forms carbonic acid, which makes the water more acidic Source: Doney et al., 2009

8 Demanding more from the ocean: Fisheries U.S. ex-vessel revenue ~$4 Billion/year Source: FAO, 2012 (left); Cooley & Doney, 2009 (right)

9 How healthy is the ocean? The Ocean Health Index Source: Halpern et al., 2012

Marine renewables potential 3000 2500 2000 TWhr/year 1500

10 Marine renewables potential TWhr/year Offshore Wind Offshore wind Offshore wind Wave Tidal and Stream Ocean Current OTEC m 30-60m <30m Source: Thresher and Musial, 2010

11 Challenges for marine renewable energy Ocean is a difficult, highly variable work environment High energy and dynamics of wind, waves, currents impacts resiliency and longevity of infrastructure Costly, difficult access for installation, maintenance Corrosion, biofouling, pressure a constant threat Unknown impacts on habitats and ecosystems Noise generation Energy removal and transfer (esp. coastal dynamics) EMF effects on benthic biology and behavior Conflicts with other ocean resources and ecosystem services

12 U.S. offshore wind potential Source: NREL

Lack of data drives up costs of offshore wind development

wind projects to the point where financing charges account

DOE (2011), A National Offshore Wind Strategy: Creating an

13 Lack of data drives up costs of offshore wind development [The] lack of data drives up the costs of financing offshore wind projects to the point where financing charges account for roughly half of the cost of offshore wind energy. DOE (2011), A National Offshore Wind Strategy: Creating an Offshore Wind Energy Industry in the United States Source: Dept. of the Interior

14 Marine renewable energy development needs to consider the potential noise and habitat impacts Source: Trends in Ecology & Evolution (left); Centre for Intelligent Monitoring Systems (right)

15 Obtaining baseline information at wind farm sites: Soundscape at Cape Wind project 6 0 Frequency (khz) 0 A Boat noise 0 Time (min) B Fish sounds 0 Time (seconds) 2.6 Source: WHOI (left); Stellwagen Bank National Marine Sanctuary (right)

16 Hydrokinetic: Wave potential Source: NREL

17 Hydrokinetic: Tidal and Current Source: Georgia Institute of Technology (left); NOAA (right)

18 Site specific knowledge crucial Source: J. Churchill, WHOI

19 Understanding coastal dynamics Sources: National Park Service Submerged Resource Center (left); WHOI (right)

Turbines on Circulation and Sediment Transport in Muskeget Channel, MA,

20 Sediment redistribution Sources: Courtesy of Aradea R. Hakim (U. Mass. Dartmouth), from Hakim, Cowles and Churchill, The Impact of Tidal Stream Turbines on Circulation and Sediment Transport in Muskeget Channel, MA, submitted to Marine Technology Society Journal (left); Ocean Renewable Power Company (right)

21 Biofuels potential Source: Chisti, 2007

22 Hypoxia and dead zones

23 Local sources of acidification create additional impacts in coastal regions Source: Kelly et al., 2011 (left);

24 Framing the environmental effects Source: Boehlert and Gill, 2010

25 Ocean Observatories Initiative

26 Integrating observation with production

27 Monitoring capabilities of AUVs

28 Environmental monitoring & crisis response Sources (l to r): Oceaneering; Tom Kleindinst, WHOI; Bob Nelson, WHOI Source: WHOI

29 Under ice the next energy frontier Sources: NSIDC, 2010 (left); The Politic, 2011 (right)

30 Relevant ocean science for marine renewable energy Physical, chemical, biological context for site selection, construction, operation, maintenance activity Toxicology, physiology, and behavior of marine organisms Ecological structure of marine communities and systems Vehicles, instruments, sensors, and methods for surface and sub surface engineering Feedbacks among multiple stressors