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How can capitalism save us? Put a price on pollution!

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Presentation on theme: "How can capitalism save us? Put a price on pollution!"— Presentation transcript:

1 How can capitalism save us? Put a price on pollution!

2 Three possible solutions Voluntary approaches: “Give a hoot, don’t pollute.” Mandatory “command-and-control” approaches: Fuel economy standards, government-funded R&D (research and development), etc. Mandatory “market-based” approaches: Make polluting expensive.

3 Three possible solutions Voluntary approaches: “Give a hoot, don’t pollute.” Problem: Voluntary approaches often don’t work very well because of the Tragedy of the Commons. Clean Dirty CleanDirty (Good, Good) (Bad, Bad)(Best, Worst) (Worst, Best)

4 Three possible solutions Mandatory “command-and-control” approaches: Fuel economy standards, government-funded R&D (research and development), etc. Problem: These can work, but often they are unnecessarily costly (i.e., inefficient). And do you really want the government picking winners? (Consider corn ethanol.)

5 Three possible solutions Voluntary: “Give a hoot, don’t pollute.” Mandatory “command-and-control.” Mandatory “market-based” approaches: Make polluting expensive.

6 Which idea was not discussed in the reading? 1.Carbon taxes 2.Carbon offsets 3.Cap-and-trade permits

7 Three possible solutions Mandatory “market-based” approaches: Make polluting expensive. This is the best idea since sliced bread. Market approaches use the power of the free market to protect the environment. Two varieties of sliced bread: –Taxes –Cap-and-trade permits

8 Both act as a surrogate for missing market prices/incentives Pollution creates negative externalities. The resulting “external costs” are not included in market prices. The invisible hand breaks down, leading to the tragedy of the commons. We can use taxes or cap-and-trade to “internalize” those external costs. These policies “heal” the invisible hand!

9 Story #1: Paper Before 1998, it was free for students to print at the computer labs on campus. More correctly, it was “free”: the money came from student tech fees rather than individual students. The result: 35,000 pages printed per day, 1000s of those pages unclaimed, $25,000 per month for paper and toner…

10 Price of printing Quantity of printing Demand curve: At different prices, how many pages do students want to print? $0.10 $0.20 BAC Which point (A, B, or C) shows how many pages were printed when printing was “free”? When printing was $0.10 per page?

11 Which point shows how many pages were printed when printing was “free”? 1.Point A 2.Point B 3.Point C

12 Which point shows how many pages were printed when printing was $0.10? 1.Point A 2.Point B 3.Point C

13 Price of printing Quantity of printing Demand curve: At different prices, how many pages do students want to print? $0.10 $0.20 BAC Supply and demand: X marks the spot!

14 Charging for printing is most similar to which idea from the reading? 1.Carbon tax 2.Auctioned cap- and-trade 3.Grandfathered cap-and-trade

15 Story #2: Sulfur dioxide (SO 2 ) Under Title IV of the 1990 Clean Air Act Amendments, a “cap and trade” program was created for SO 2 from power plants. Any firm wanting to emit SO 2 needed to turn in 1 permit for each ton of emissions. In 1980, emissions were 20m tons, but by 2000 the government only gave out 10m tons’ worth of permits. (Cut pollution in ½!) Allocations based on historic emissions.

16 This example is most similar to which idea from the reading? 1.Carbon tax 2.Auctioned cap- and-trade 3.Grandfathered cap-and-trade

17 Source: Pew Center on Global Climate Change

18 Price of sulfur Quantity of sulfur Demand curve: At different prices, how much sulfur do utilities want to emit? B A 20m10m Which point (A, B, or C) shows the “price” of emissions before the cap-and-trade? What about with a cap of 10m ton? C

19 Which point (A, B, or C) shows the “price” of emissions before the cap-and-trade? 1.Point A 2.Point B 3.Point C

20 Which point (A, B, or C) shows the “price” of emissions with a cap of 10m tons? 1.Point A 2.Point B 3.Point C

21 Price of sulfur Quantity of sulfur Demand curve: At different prices, how much sulfur do utilities want to emit? B A 20m10m C Supply and demand: X marks the spot! 5m

22 Lesson #1: Taxes and cap-and- trade systems are very similar A tax is a “price” instrument and cap-and- trade is a “quantity” instrument, but the demand curve tells us that price and quantity are related to each other!

23 Price of sulfur Quantity of sulfur $100 $200 10m5m15m

24 Lesson #1: Taxes and cap-and- trade systems are very similar A tax is a “price” instrument and cap-and- trade is a “quantity” instrument, but the demand curve tells us that price and quantity are related to each other! If we know what the demand curve looks like, I can tell you the quantity of emissions from a given tax, or I can tell you the “price” of emissions from a given cap.

25 Price of sulfur Quantity of sulfur $100 $200 10m5m15m

26 Price of sulfur Quantity of sulfur $100 $200 10m5m15m

27 Complication #1: We don’t know what the demand curve looks like exactly. So we can’t say exactly how much carbon reductions will come from a $100/ton tax on CO2. And we can’t say exactly what the “price” of carbon will be with a cap-and-trade that reduces carbon emissions to 1990 levels by 2020 and 50% below 1990 by 2050. Still, don’t forget Lesson #1.

28 What is Lesson #1? 1.Taxes and cap- and-trade are very similar. 2.Taxes and cap- and-trade are totally different.

29 Lesson #2: It’s all about the money. The best way to think about cap-and-trade is to think about its price equivalent, even if we don’t know exactly what that price equivalent will be. Example: Any auctioned cap-and-trade system is equivalent to some tax. What about grandfathered cap-and-trade?

30 Lesson #2: It’s all about the money. Grandfathering permits to existing firms is equivalent to giving them money. Exactly equivalent. Give them permits, and they can sell them for money. Give them money, and they can buy permits.

31 Is it a good idea to give companies a bunch of money? 1.Yes 2.No 3.I’m not sure

32 What else could we do with money from a carbon tax or auctioned cap-and-trade? Fund R&D into clean energy. Give rebates for energy efficient appliances. Reduce existing taxes. BC is implementing a revenue-neutral tax shift that will generate $600 million per year from a carbon tax and “spend” the revenue on tax cuts and rebate checks.

33 Charles Krauthammer [Fox News]: “For 25 years… I have been advocating… a U.S. energy tax as a way to curtail consumption and keep the money at home [by recycling it back into tax reductions].” George Will [Washington Post]: “A carbon tax would be a clear and candid incentive to adopt energy-saving and carbon-minimizing technologies… [and produce] a commensurate reduction of other taxes.” Who wants a tax shift?

34 Al Gore: “It's important to change the light bulbs, but it's much more important to change the laws… Tax what we burn, not what we earn.” William Nordhaus [Yale economist]: “To a first approximation, raising the price of carbon is a necessary and sufficient step for tackling global warming.” Who wants a tax shift?

35 What’s so great about a tax shift? Right now we tax “goods” (things we want more of: employment, saving, investment) and don’t tax “bads” (things we want less of: carbon, pollution, traffic congestion). This is like pouring your wine out on the carpet and drinking out of the toilet bowl. Taxing “bads” instead of “goods” is smart economically and smart environmentally.

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