On Climate Change & Institution Ikerne del Valle & Kepa Astorkiza

On Climate Change & Institution Ikerne del Valle & Kepa Astorkiza

On Climate Change & Institutions Ikerne del Valle & Kepa Astorkiza Dept. Applied Economics V University of the Basque Country Workshop Finance and the Macroeconomics of Environmental Policies. Cambridge, 10 April 2014 The Cambridge Trust for New Thinking in Economics Outline 1. From & Beyond the Mainstream 2. Enclosing the 4 Essentials of Climate Policy 3. On the Green Paradox of Climate Policy 4. Climate Change & Growth 5. Main Conclusions 1. From & Beyond the Mainstream: A big problem! Large-scale geophysical climate models (ACIA, IPCC) agree that under BAU

C02 concentrations by 2100 will be 35% higher than during preindustrial levels, implying Global temperature rises [1.5, 6] and an average 3.30C by 2100 The consequences will be global and irreversible, although not homogenously distributed Climate change economics is a real challenge for economics. Key points: Uncertainty (Knightian type) Long time horizon (infinite?) Global nature of the problem collective action solutions Related problems: Energy & Growth ( unemployment) Integration of Economics in the global warming debate Takes off in 90s (Nordhaus, 1990; Hope, 1992; Anthoff and Tol; 1996) High point with Stern review (2006) and its triggered debate Relatively playing down attention with the spread of the financial crisis Reheating: Green Paradox (Sims, 2008, 2012), new thinking around (de-)growth, etc. Still certain dominance of neoclassical economics & rising matter from nonequilibrium approaches (post-Stern). 1. From & Beyond the Mainstream: The Milestone (I)

Stern review (2006) is an essay in persuasion! 3 valuable added points: the framework of the collective decision-making process that it provides giving a central role to the ignored uncertainty (unknown risk) giving economic basis in favour of a radical transformation of attitude towards climate change urgent call of action targets (20C, 50% by 2050) Modelling approach (PAGE2002, Hope(2006)) Integrated economic and geophysical assessment model (IAM) Aggregated simulation model Solow-type growth model (consumption and saving decisions, growth, exogenous) Includes interdisciplinary risk analysis (though Monte Carlo analysis of 31 parameters) Concludes that (under BAU) by 2035 concentration of GHG could reach 560 ppm of CO2e commit the world to 20C by the end of the century high chance to 50C disastrous changes in natural ecosystems and physical geography of the word, unknown territory! global macroeconomic effects (GDP) (for now and forever) 5% GDP /11% GDP (including health and environmental effects)/ 20% GDP (adjusting equity weighting)

Demands urgent action & questions Nordhaus upward-sloping climate policy ramp Emissions stabilization at 550 of ppm of CO2e, which implies 25% global emissions Abatement costs: 1% of annual global GDP by 2050 1. From & Beyond the Mainstream: The Milestone (II) Generates a fruitful debate around 2 main disagreement points The discount rate (r=1.4%) Quantitative result and policy depend heavily on the value of some key parameters. The treatment of the risk and uncertainty Sterns rate (r=1.4%) << than others adopted in IAMs. Near zero rate of pure time preference (d=0.1) + logarithmic utility function (elasticity of consumption (h=1) is not supported by real macroeconomic data (Nordhaus, 2007), Weitzman (2007). d0.1 implies a egalitarian attitude across time dimension, but h=1 implies insufficient concern for the problems of poverty today (Dasgupta, 2007). Proposes: h=[2,4] Uncertainty The uncertainty highlights the need for a social insurance against low probability, catastrophic events that require a precautionary principle.

Dismal Theorem (Weitzman, 2009). The marginal benefit of a reduction in GHG emissions is literally infinite. So, Stern is right to require immediate action, but for the wrong reason! Major emphasis on uncertainty linked to a framing of dangerous climate change rather than a focus on optimal warming policies based on optimization rationale (Baker, 2008; Weitzman, 2009; Barker and Scriecieu, 2010. 2. Enclosing the 4 Essentials of Climate Policy (I) We have simultaneously a climate change problem and an energy problem: Carbon deposits are natural capital, fundamental to guaranty growth (and employment) They may run out in 50 years! But, emissions may take the climate unbearable in huge portion of the planet Thus, the task is to find: The right exploitation pattern of fossil fuel deposits Develop alternative (green) energy sources to fossil fuels Since 2009, create employment! growth Timing?: Related key issues: Growth implications & the cost of delay of actions 3 type of answers: a & b from IAM and c under endogenous technological change

a) Gradualist approach (Nordhaus, 1994, 2007) b) Immediate, strong and permanent interventions (Stern, 2007) c) Depends on substitution possibilities between clean (c) & dirty (d) sectors (Acemoglu, 2012). Changes in relative prices of energy inputs highly influence technological change (endogenous) If substitution possibilities are high, immediate (and temporal) action, because productivity advantage of (d) direct innovation and production to (d) environmental disaster research subsidies to redirect technical change to (c) necessary If the two sectors are complement stop long run growth to avoid environmental disaster 2. Enclosing the 4 Essentials of Policy (II) Preventive actions to tackle the problems? The 4 Essentials 1. Carbon pricing and regulations Lessons from classrooms: Market-based instruments (MBI) single price signal to all countries and sectors (Tirole, 2009) Heterogeneous abatement costs help abatement to the cheapest areas/sector (Sterner, 2003) MBI may also send a price signal to stimulate research to develop new (green) technologies Carbon demand reduction policies: Taxes/subsidies/ trading C02 emission rights/regulations Mixed measures. Not obvious which is which! 2. Mixed Technological Policy (research subsidies, Acemouglu et al. (2012) + Carbon pricing 3. International Collective Action (ICA) Climate change is a global problem

Organisations (UNFCCC), Institutions (Kyoto Protocol) help to create the conditions for collaborative solutions Binding international agreement necessary Institutional development 4. Behavioural evolution Changing peoples preferences though information, discussion & education Local dimension polycentric approach (nor decentralized neither decentralized) (Ostrom, 2009) 3. On the Green Paradox of Climate Policy (I) Evaluating Climate Policy outcomes. Are we doing well? Ad hoc implementation of climate policy A wide array of domestic carbon taxes, subsidies on clean energy, tradable permit systems, regulation Changing over time and differing from country to country Many countries do not even have a GHG reduction policy at all

Can this be effective to face global warming? Increasing evidences of warming (IPCC, 2014) & world GHG emissions accelerations Well-intended policies may have unintended and undesirable consequences! GHG emissions may be increasing as a result of climate policy! Green Paradox (GP) literature, although not new, expands with Sims (2008; 2012) Special attention from: Non-renewable natural resource modelling approach (Hoel, 2010; Gerlagh, 2011), etc. Applied General Equilibrium Models (AGEM) (Paltsev, 2001; Burniaux and Oliveira, 2012) Still no attention from non-equilibrium approaches, neither empirical assessments Theoretical drivers of the Green Paradox? Sub-global actions Gradual greening Implementation lags Innovation feed-backs AGEM & exogenous carbon supply non-renewable resource models & supply reaction Just academic pastime for theorist or real threats to be seriously considered?

3. On the Green Paradox of Climate Policy (II) 1. Sub-global Actions (Paltsev, 2001; Babiker, 2005; Burniaux and Oliverira, 2012) Green policies that fail to cover all the countries Exampe: Kyoto Protocoll Incentives emerge for non-abating (NA) countries to increase their emissions Emissions (NAC) > Emissions abating-countries (AC) Carbon leakage = 100% Emissions (NAC) = Emissions (AC) Carbon leakage has been mostly analysed by multi sector and multi country AGE models Assumption: No supply reaction in the international carbon market 4 Alternative channels for unilateral cutbacks to affect global GHG emissions have been pointed: a) The international energy market channel

b) The channel of of international trade of non-energy goods c) The channel of international trade in production factors d) The channel of technological change and technological spillovers 3. On the Green Paradox of Climate Policy (III) a) The energy market channel Unilateral reduction policies Demand AC internacional price Demand NAC The size of the respond depends on supply and demand elasticities If supply is inelastic carbon leakage =100% Demand responses depend on the degree of market integration b) The channel of international trade of non-energy goods Unilateral carbon prices Cost and P of carbon intensive goods in AC Incentives to substitute towards goods produced in NAC GHG emissions of NAC The leakage degree depends on the elasticity of substitution among goods of different regions The larger the Armington elasticity the easier to switch to goods from cheaper NAC c) The channel of international trade in production factors Cost AC the rate of return of capital in AC capital might flight to NAC Marginal Productivity of polluting inputs in NAC GHG emissions d) The channel of technological change and technological spillovers Leakage <0 (abatement in one country abatement on another country) The GP is not a general conclusion from the AGM literature of carbon leakage Its occurrence depends on specific assumptions

Even some papers have shown the possibility of leakage < 0 The results might change if new data is included (emerging non-abating economies) 3. On the Green Paradox of Climate Policy (IV) Carbon owners may also react as a result of climate policy The might carbon supply carbon prices Increasing credibility of tightening climate policy & Insecurity of property rights Sub-global actions (leakage) + supply reaction carbon prices GHG emissions 3 additional drivers analysed by non-renewable resources model approach Gradual greening Implementation lags Innovation feedbacks 2. Gradual Greening (Hoel, 2010) Steeply rising carbon tax paths The occurrence of GP depends on the model GP is less likely to occur under Heal model (HE) than under Hotelling (HO) Under HE only if the carbon tax (g) grows at a sufficiently higher rate than g>>>r induces a GP Under HO increasing carbon tax expectations increases extraction and hence emissions When including a backstop (HE) the answer depends on marginal extraction costs and the

share of the returns to investment in the clean technology: Investments in the backstop prevent GP when marginal extraction costs are sufficiently low 3. On the Green Paradox of Climate Policy (V) 3. Implementation Lags (Di Maria el al. 2008; Eichner and Pething, 2010) There is a lag between policy announcement and implementation In the interim policy agents are still free to emit and to do it for free The expectation about the green policy may induce the agents to increase extractions 1. Increasing extractions imply lower prices & increases the energy use in the interim phase and 2. Low high carbon reaction: with a cap the scarcity of low carbon fossil fuels increase Low carbon price , it would be optimal to preserve the low carbon for the constrained phase high carbon use in the interim phase. 4. Innovation Feedbacks (Ploeg and Withagen, 2010; Gerlagh, 2011; Hoel, 2011) Green policies aiming fossil fuel demand via subsidies to green energy/support R&I Two effects: 1. the value of the resource in situ price carbon demand 2. Affects the instant of the switch from the fossil fuel to the alternative green energy source GP depends on the model and cost structure of the green backstop technology If marginal costs for the backstop are constant GP arises both under HO and HE models Under Increasing marginal costs for the backstop no GP arises 3. On the Green Paradox of Climate Policy (VI) The evidence for the existence of the Green Paradox is not overwhelming, neither

from AGE, nor from exhaustible models. GP is not a general conclusion from the AGE, it depends on specific assumptions. The simplest theoretical models of non-renewable resources support GP, but more realistic ones (including increasing extraction costs, upward-sloping supply curves for backstop technology) show less likely the emergence of GP. By no means implies that the Green Paradox of climate policy should be banished. Recent data in AGE models might conditioned the results, mainly because of the increasing presence of emerging and non-abating countries in the international channels. The AGE approach lacks the dimension of non-renewable condition of carbon supply Combining the mechanism from different non-renewable natural resource theoretical models may very well lead to new or mutually reinforced unintended policy outcomes. Lack of empirical assessments (econometrics!) to test for its empirical support Attention to: Macroeconomic (uninttended) effects of climate policy via international markets of energy, goods and capital. Attention to the carbon extraction paths, carbon supply, carbon price and GHGs. 4. On Climate Change and Growth (I)

Global warning is one of the results coming from an unidirectional view of economic activity. Climate change is a concern about humans, animals, plants, etc. ... Natural resources are not considered holistically in growth models The imbalances created by economic and human activity over the ecosystem frequently develop different kinds of collapses But economic activity is embedded in the context of an overall ecosystem and it composes a subsystem (Boulding 1978) Conventional macroeconomics searches for full employment of production factors. Natural resources are considered given! The challenge is to reconcile macroeconomic equilibrium with the equilibrium of natural ecosystems The approaches that support self-regulatory capacity of the economic system to coping economy and natural systems by means of market prices carry out many problems to ecosystems

Keynesian macroeconomics can offer new advances to understand and give some answers to global warming and other ecological concerns. 4. On Climate Change and Growth (II) Although Keynesian macroeconomics historically has been just focused on cycles, full employment and growth, it gives a frame to understand different kinds of disequilibrium and to analyze them in combination with other complement approaches Ecological Economics and Institutional Economics dictates can be very useful! The Keynesian aggregated demand (AD = C + I + G + XN) offers an adequate framework to understand some of these concerns. However, notice that: Consumption is a key element of AD Modern societies has taken the adjective of consumer societies The access to welfare is to get greater quantity of material goods and services! At the same time this behaviour solves the problem of growth But: the support of this kind of growth is the consumption of dirty energy global warming

However there are some niches that do not need increased material consumption and they can be produced without fossil fuels Keynesian AD with a selective consumption (environmentally friendly) based on green energy (renewable energy) (Harris, 2010) Private and public investments have a central role to develop investments and technologies that match with a selective consumption 4. On Climate Change and Growth (III) Some Lessons from the Financial Crisis Different scenarios: EU (specially the PIGS): reduction of expenditures + unemployment Decline of GDP (PIGS) with reductions in each component of aggregate expenditures Sharp increase in unemployment and a long stagnation process Impoverishment of the weakest in society (youngest) Emissions reduction USA and NICs: increasing of expenditures + economic growth Increase in private and public consumption reductions in the interest rates to incentive C & I increasing carbon consumption and emissions Amid, underdeveloped countries collect all the negative of each side

Neither EU reduction of expenditures + unemployment nor increasing the expenditures + (this kind) of economic growth is desirable or sustainable 4. On Climate Change and Growth (IV) The Key Role of the Institutional Side The installed rationality of the the prisoners dilemma trap and the tragedy of the commons (Hardin, 1968). EU has addressed unilateral emission reduction by means of rules, mandated technical standards and qualities of the goods and services exchanged in Europe. Imports need respect this standards Competitors have understood that the former are in fact unilateral trade barriers playing the role of protection for the European market, a subterfuge to gain competitive advantage Regulatory Imperialism ( Zaki Laidi 2007; Zielonka 2006) Other players have understood that EU will cooperate with the reductions of emissions in all cases because it is the consistent way to demand the standards. So they can free ride freely! Developing countries defend that they have the historical legitimacy to develop themselves Given these current scenario it is compulsory to design robust institutions to get effective cooperation

Institutional Economics is well adapted to advance research in this domain 5. Concluding Remarks Agreement: Humanity has a big nested and global dilemma! Climate Change Energy Growth (Employment) Mixed Climate Policy Carbon pricing Technological policy (transition) International collective action Education & information (behaviour) Climate Policy & Green Paradox Sub-global action and international markets (energy, goods, capital) Carbon supply reaction (insecure property rights + greening expectations)

Macroeconomics matter! Effective AD model reoriented: changes in the C & I components! Selective C and I Incentives to green investment Green estimulus Institutions (the rules of the game) at the centre of de debate Precautionary Approach International Collective Action. Binding Agreements. Behavioural change! Thank You !

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