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Developing an Ocean and Climate Literate Society Natural Resources Leadership Institute 10 December 2009 Miami, FL Mike Spranger, PhD Associate Director for Florida Sea Grant Extension Associate Dean, Environmental & Natural Resources University of Florida IFAS Extension IPPC, 4th Assessment • Climate is warming and will continue in future • Humans are accelerating this warming trend • There are major impacts on every segment of society The Greenhouse Effect Some solar radiation is reflected by the Earth and the atmosphere Solar radiation passes through the clear atmosphere Some of the infrared radiation passes through the atmosphere, and some is absorbed and re-emitted in all directions by greenhouse gas molecules. The effect of this is to warm the Earth’s surface and the lower atmosphere. Infrared radiation is emitted from the Earth’s Surface Most radiation is absorbed by the Earth’s surface and warms it Temperature Change and CO2 Concentrations 750 700 600 500 Temperature Change (oC) 400 Current Level Level 4 2 0 -2 -4 -8 300 250 200 Current Current Level 150 100 50 0 Thousands of years ago CO2 concentration in the atmosphere (Antarctic Ice Core)) Temperature changes compared to the present temperature Potential Climate Change Impacts Health Impacts Weather-related Mortality Infectious Diseases Air Quality-Respiratory Illnesses Agriculture Impacts Climate Changes Temperature Precipitation Sea Level Rise Crop yields Irrigation demands Forest Impacts Change in forest composition Shift geographic rangeof forests Forest Health and Productivity Water Resource Impacts Changes in water supply Water quality Increased competion for water Impacts on Coastal Areas Erosion of beaches Inundate coastal lands Costs to defend coastal communities Species and Natural Areas Shift in ecological zones Loss of habitat and species Global Warming Six America’s - Audience Alarmed 18% Concerned 33% Cautious 19% Disengaged 12% Doubtful 11% Dismissive 7% Why People Do or Don’t Worry About Climate Change Broad, 2009 Lay Projection of Impacts Broad, 2009 New Emphasis on Climate Change Growing interest and discussions 0n climate change issues: • IPCC (Intergovernmental Panel on Climate Change) 4 • Al Gore (Book and Movie) • Governors Office in Florida • Changing markets - biofuels and ethanol production • Carbon credits and markets • Sustainability “Governor Crist is passionate about government leading by example… Three Executive Orders represent the Governor’s commitment to addressing global climate change.” David Zierden, State Climatologist for Florida, Director, Florida Climate Center, FSU 2009 Human Impacts vs. Natural Variability Influencing Florida AMO ENSO PDO Atlantic Multi-decadal Oscillation El Nino-Southern Oscillation Pacific Decadal Oscillation Considered in modeling used to forecast seasonal weather, especially rainfall, for South Florida water management (See Appendix 2.3 in 2007 South Florida Environmental Report) Sun spots, volcanic activity and other factors create more variation in local weather on shorter time scales Garth 2009 Trends of Concern for Florida Climate Changes – – – – – – – Fewer cold days & nights More frequent hot days & nights Warm spells/heat waves Heavy precipitation events Increased droughts Increased tropical cyclones Increased extreme high sea level Sea Level Rise Sea Level Rise Projections Challenge for Decision-Makers: Dealing with Uncertainty *Projections from CERP-CGM, NRC, Miami-Dade Task Force, FSU, and IPCC Garth 2009 Enveloping Curves More Recent Findings* Lesser known green gases appear important Methane, nitrogen trifluoride (electronics) Ice melting is rapid and may have a positive feedback on ocean temperatures Evidence for widespread temperature increases is mounting * Since last IPCC 4 Report More Recent Findings* • Sea level rise may be faster • Precipitation projected to decrease & evaporation increase in subtropics • Frequency of Atlantic storm activity *Since IPCC 4 report World Ocean Conference Focus on climate and ocean issues Climate Change How will Florida be affected? Florida is vulnerable • 1,200 miles of coastline • Much of the state only 20 ft or less above sea level • 18 million residents live within 60 miles of Atlantic or Gulf coasts • $25 billion in ocean economy,with $562 billion in coastal economy Potential Impacts to Florida’s Infrastructure • Water, power, telecommunications, transportation, and buildings constructed to last at least 75 years. • Infrastructure longevity was based on past environmental design criteria and specifications. • Many of these criteria have been exceeded already by aspects of climate change. Potential Impacts to Human Health • In other regions of the world, changes in climate have had negative effects on human health. • Results – illness, injury or death due to severe heat waves, intensified hurricanes and floods • With increased rainfall, greater storm water discharges carry more contaminants into coastal waters. • Results – unsafe beaches and shellfish beds • Potential increase in mosquito and waterborne illness Potential Economic Impacts • Climate change will affect Florida’s economy. • Some costs will be offset by taking adaptive actions. • Negative impacts will outweigh benefits for most sectors that provide goods and services. • Hugh strains will occur on public sector budgets. • Secondary impacts may include higher prices, reduced incomes, job losses, qualify of life impacts. Economic Impacts (Cont’d) In a study of Florida impacts by Tufts University: • Cost of inaction ranged from $27 billion by 2025 to $354 billion in 2100 • Included economic activity in tourism, hurricanes, electric power, and real estate. • Did not consider losses in agriculture, fisheries, insurance, transportation, water systems, and ecosystem damages, so estimates likely are low. Florida Has Rapid Climate Zone Transitions (<300 km) What happens when species shift northward? After Chrisman 2009 Drivers of Climate Change • Increasing greenhouse gases • Increasing air and water temperature • Increasing sea level Effects of Climate Change • Ocean acidification • Altered rainfall and runoff • Increased intensity of hurricanes • Increased coral bleaching • More frequent harmful algal blooms • More widespread Hypoxia • Tidal wetland losses • Beach loss and coastal erosion • Impacts to coastal water supply Increasing Green House Gases • Earth’s temperature is rising because gases such as CO2 that retain atmospheric heat are increasing. • Largely a consequence of human activities that use energy( burning of fossil fuels such as oil and coal). • Green house gases are absorbed by the ocean water Driver: Increasing Green House Gases Effect: Ocean Acidification Ocean Acidification • As levels of CO2 in ocean waters increase, the oceans become more acidic. • Normal pH of the ocean is about 8.3, (alkaline). • A drop of 0.1 pH unit = 30% increase in acidity. • Small changes can have a large impact on organisms living in the sea such as corals. Ocean Acidification What we Know: • Average world’s oceans pH has fallen by 0.1 pH unit since 1750. • Marine organisms with calcium carbonate shells or skeletons, such as corals and clams, are adversely affected by decreased pH. • Ocean chemistry is changing at least 100 times faster today than at any time during the 650,000 years prior to the industrial era. Ocean Acidification What is Probable: • The ocean’s pH is continuing to decrease. • Some marine organisms will not be able to tolerate decreases in pH of the ocean. • Animals with calcium carbonate shells or skeletons (clams, oysters, corals), will grow less rapidly and/or dissolve as pH decreases. Ocean Acidification What is Possible: • Average ocean pH will decrease by 0.1 to 0.4 pH units over the next 90 years. • This acidification will cause major changes in marine ecosystems, such as a replacement of coral reefs with algae. • Those changes will have major impacts on fisheries and other economically important ocean services. Increasing Temperature • The oceans and atmosphere are tightly coupled. • As temperature of one rises or falls, so does the other. • As air temperature rises, so does its capacity to hold water vapor and form clouds. • Clouds can have a cooling or heating effect, and this is a cause of uncertainty in climate change projections. Driver: Increasing Temperature Effects: • Altered Rainfall and Runoff • Change in Frequency and Intensity of Hurricanes • Increased Harmful Algal Blooms • Increased Coral Bleaching Altered Rainfall and Runoff • Rainfall and runoff of water from land to sea are highly variable in the Florida peninsula. • Climate change, land use change and other factors may result in greater variation in current seasonal and yearto-year patterns. • Identifying how climate will affect rainfall and runoff in Florida is a critical research need. Altered Rainfall and Runoff What we Know: • Annual rainfall in Florida is highly variable and is affected by tropical storms and multi-year climate cycles. • Human alterations to freshwater inflow to estuaries, such as increased flow caused by urbanization or decreased flow due to water use, have changed salinity and patterns of animal and plant occurrence in Florida estuaries. Altered Rainfall and Runoff What is Probable: • Since 1979 there have been more frequent heavy rainfall events in the tropics. • If the frequency of extreme rainfall events increases in Florida it will exacerbate already altered conditions in estuaries. Altered Rainfall and Runoff What is Possible: • Increased runoff of freshwater to estuaries, and associated increased delivery of sediments and nutrients, could further stress the plants and animals in those coastal ecosystems. • One possible response is increased eutrophication (nutrient enrichment) with associated increased blooms of algae. Altered Frequency and Intensity of Hurricanes • Development of hurricanes depends on sea-surface temperature, water vapor, and many other factors. • Recent examples of rapid hurricane intensification were associated with storms passing over warm ocean pools and lack of wind shearing. • There is considerable uncertainty about how climate change will affect intensity and frequency of hurricanes. Hurricanes and Climate Change What we Know: • There is no clear long-term trend in number of tropical storms. • There are natural cycles – we now are in an active phase. • Intense hurricanes and active seasons have occurred in the past regardless of trends in sea-surface temperature. Hurricanes and Climate Change What is Probable: • The frequency of hurricanes may decrease with increasing seasurface temperature. • This reflects the view that wind shear may increase in a warming planet. Hurricanes and Climate Change What is Possible: • The intensity of hurricanes could increase (due to warmer seasurface temperatures), decrease (due to increased shear stress), or not change as a result of future climate change. • As noted, this is a highly uncertain effect. Harmful Algal Blooms • Harmful algal blooms (HABs) are caused by microscopic algae in freshwater, estuaries and the coastal ocean. • Red tides, caused by a type of algae called a dinoflagellate, are the most commonly known HAB. • The algae producing HABs sometimes produce toxins that are harmful to fish, people and other organisms. • Some HABs occur on the bottom and can smother coral. HABs and Climate Change What we Know: • Environmental factors including light, temperature and nutrients set the upper limit on buildup of biomass of algae. • The algae that cause HABs are favored over other algae when water temperature is high. • HABs have been reported throughout Florida’s coastal marine and estuarine waters. HABs and Climate Change What is Probable: • If climate change results in increased runoff of nutrients from the land to the coastal waters, this could stimulate more HABs. • If sea-surface temperature increases, HABs probably will become more frequent and intense in Florida coastal waters. HABs and Climate Change What is Possible: • The increased frequency, intensity and toxicity of HABs could result in disruption of marine food webs, more frequent fish kills and adverse impacts to human health, quality of life, and the coastal economy. Coral Reefs • Reefs are made up of millions of individual corals interconnected by a calcium skeleton • Corals already live near to their upper temperature range. • Corals contain algae that provide them with energy. • Corals bleach, or whiten, when they lose their algae. • In the 1980s, during a massive coral bleaching event, increased coral disease also was documented. Coral Reefs and Climate Change What we Know: • Florida coral reefs are now 1 to 1.5 degrees closer to their maximum temperature tolerance than 100 years ago. • Corals stressed by temperature and bleaching are more vulnerable to disease. • Coral disease has increased substantially in the FL Keys due to an increase in sea-surface temperature. Coral Reefs and Climate Change What is Probable: • The thermal tolerance of corals will be surpassed. • Coral bleaching events will become more frequent and severe. • Certain coral species will be lost. • At impacted coral reef sites there will be increases in algae blooms, coral disease, and diseases of other coral-dwelling organisms. Coral Reefs and Climate Change What is Possible: • There will be major changes in the structure and function of coral reef communities, with substantial loss of biodiversity and a shift from corals to bottom-dwelling algae. • These changes will impact fisheries, ecotourism, and the economic and protective attributes of coral reefs for Florida coastal communities. Rising Sea Level • The rate of sea level rise is equally important as how much it rises. • Around Florida sea level has been rising at a slow and constant rate of about 1 inch or less per decade. • A persistent upturn in the rate of sea level rise may have recently begun. Driver: Rising Sea Level Effects: • Loss of tidal wetlands • Beach and coastal erosion • Impacts to public water supply Loss of Tidal Wetlands • Because Florida is so low and flat, mangrove and other tidal wetlands cover large areas of the coast. • These wetlands provide critical habitat for fish, birds, clams, oysters and other organisms. • These same wetlands are sensitive to sea level rise and could perish if sea level rise exceeds their capacity to adapt by migrating upward in the landscape. Tidal Wetlands and Climate Change What we Know: • Many tidal wetlands are keeping pace with sea level rise by migrating upslope. The rate of future change in sea level will be critical to determining their response. • Even at a constant rate of sea level rise, some tidal wetlands will eventually ‘pinch out’ where their upslope migration is prevented by upland defenses such as seawalls and other natural and man-made structures. Tidal Wetlands and Climate Change What is Probable: • More lowland coastal forests will be lost during the next one to three centuries as wetlands expand across low-lying areas. • Major changes in wetland communities, including invasions of exotic species, will occur. • Mangrove habitat will migrate northward with increasing water temperature, displacing salt marshes. • Tidal wetlands in areas of low freshwater and sediment in put will be lost where they cannot migrate upland. Tidal Wetlands and Climate Change What is Possible: • 50% +of Florida’s salt marshes will be lost during the 21st century. • Recreational and commercial fish that depend on shallow water or intertidal habitats will be at risk. • The loss of tidal wetlands will result in dangerous loss of buffering of the coast against storm impacts. Increased Coastal Erosion • Beaches, inlets and barrier islands are products of sediment deposition, erosion and transport. • These processes are strongly affected by changes in sea level and storm events. • It is a challenge to separate out the effects of sea level rise from effects of storms and human activities such as dredging and beach re-nourishment. Coastal Erosion and Climate Change What we Know: • Shoreline retreat due to ongoing erosion and over-wash is occurring now along the Florida coast. • There has been an increase in recent decades in the frequency of barrier island dissection events, in which islands are eroded by wind and waves. Coastal Erosion and Climate Change What is Probable: • Continued sea level rise is expected to exacerbate erosion. • Barrier islands will continue to erode, migrate landward, and be reduced in elevation. • Coastal transportation infrastructure will be impacted. Coastal Erosion and Climate Change What is Possible: • There will be increasing over wash, breaching of coastal roads, and dissection of inhabited barrier islands – particularly when storms occur at higher sea level. • Low barrier islands will vanish, exposing marshes and estuaries now lying behind them to direct ocean waves. Impacts to Water Supply • Coastal well fields that supply water to millions of residents are at risk from salt water intrusion. • Sea levels in Florida are expected to rise to the degree that salt water intrusion will pose a greater threat to these coastal well fields. • The problem will be exacerbated if there is an increase in Florida’s coastal population size and water use. Water Supply and Climate Change What we Know: • Shallow coastal aquifers already experience saltwater intrusion. • The South Florida Water Management District already spends millions of dollars a year to prevent Miami’s Biscayne aquifer from becoming brackish. Water Supply and Climate Change What is Probable: • A sea level rise of about 6 inches would require greater cutbacks in water use by developed coastal regions in order to prevent saltwater intrusion. • The Pensacola and Miami-Palm Beach corridors are especially vulnerable to saltwater intrusion into community water supplies with rising sea levels. Water Supply and Climate Change What is Possible: • Eventually if sea levels continue to rise, surficial aquifers around the entire Florida coast will be threatened by salt water intrusion. Responding to Climate Change Some effects will be accepted. This means that no reasonable options will be found to avoid having to accept an undesirable and detrimental effect. example: Florida may have to accept the loss of its coral reefs. Other effects will be mitigated. This means that in-kind strategies and actions will compensate for some or all of an adverse effect. example: Florida may set aside low uplands so tidal wetlands can migrate as sea level rises. some effects will require adaptations, meaning that our ways of life, infrastructure, or economy will change to continue Florida’s quality of life. example: buildings may need to be designed to new standards or located farther from vulnerable shorelines and roads may need to be relocated. http://www.floridaoceanscouncil.org Ocean and Climate Literacy Initiative Ocean Literacy Initiative Understand the Ocean’s Influence on you Understand your influence on the ocean Ocean Literacy Initiative (2004) Developed through community-wide consensus building process (workshop, online) Partners National Oceanic and Atmospheric Administration National Geographic Society National Marine Educators Association Centers for Ocean Science Education Excellence College of Exploration An Ocean Literacy Person Understands the essential principles and fundamental concepts of the ocean Communicate about the ocean in a meaningful way Make informed decisions regarding the ocean resources Ocean Literacy Principles 1. The Earth has one big ocean with many features 2. The ocean and ocean life shape the features of the earth 3. The ocean is a major influence on weather and climate 4. The ocean makes Earth habitable 5. The ocean supports a diversity of life and ecosystems 6. The ocean and humans are inextricably interconnected 7. The ocean is largely unexplored Climate Change – A New Era? …We have a series of great opportunities disguised as insolvable problems… Climate Change is a major global problem being faced today Thomas Friedman Hot, Flat, and Crowded Climate Literacy Initiative (2007) • Developed through community workshops • Established principles and concepts Partners National Oceanic and Atmospheric Administration American Association for Advancement of Science National Aeronautical and Space Administration US Climate Change Communications Interagency Workgroup An Climate Literacy Person Understands the essential principles and fundamental concepts of the Earth System Gathers information on climate and weather, and can distinguish credible from non-credible scientific information Communicates about climate and climate change in a meaningful way Makes informed decisions and actions that can have impact on climate. Climate Literacy Principles 1. Life on Earth is shaped by, depends on, and affects climate 2. Understanding the climate system is by observation and modeling 3. The sun is the primary source of energy for the climate system 4. Earth’s weather & climate are the result of complex interactions 5. Earth’s weather and climate vary over time and space 6. Evidence shows human activity are impacting the climate system 7. Earth’s climate system is influenced by complex human decisions involving economic costs and social values Ocean and Climate Literacy - Future Need a new future with new sustainable strategies Government Alone will not solve our problems Need active engagement from all sectors of society Need to build capacity in all sectors through research, education and outreach programs Ocean and Climate Literacy The University of Florida response • Interdisciplinary Approaches • Systems Thinking • Partnerships • Multicultural Perspectives • Raise Awareness and Empowerment • Building Capacity University of Florida Responses UF Carbon Resource Science Center UF Climate Institute UF Interdiscplinary Goal Teams In-Service Training Efforts Local Government Planning Efforts State and Local Programs • Center for Ocean Science Education Excellence (Teacher – Scientist Programs) • Adult Workshops and forums • Teacher Training Programs • Youth Programs Ocean and Climate Literacy The Opportunity We have a great opportunity to provide the science-based solutions to our messy and wicked global problems The Importance We do not inherit the earth from our ancestors, we borrow it from our children ~Native American Proverb