AbstractThe Sustainable Development Goals (SDGs) are ambitious but in deep trouble. Benefit–cost analysis can help. This Special Issue highlights 12 of the most efficient interventions to speed up progress on the SDGs with Benefit–Cost Ratios (BCRs) above 15. The approaches cover tuberculosis, education, maternal and newborn health, agricultural R&D, malaria, e-procurement, nutrition, land tenure security, chronic diseases, trade, child immunization, and skilled migration. Spanning 2023–2030, these policy approaches are estimated to cost an annual average of $41 billion (of which $6 billion is non-financial). They will realistically deliver $2.1 trillion in annual benefits, consisting of $1.1 trillion in economic benefits and 4.2 million lives saved. The pooled benefit–cost ratio of all 12 investments is 52. By prioritizing these high-impact "best buy" interventions, decision-makers can enhance resource allocation and contribute most efficiently to the SDGs.
AbstractThis article investigates the temperature reduction impact of major climate policy proposals implemented by 2030, using the standard MAGICC climate model. Even optimistically assuming that promised emission cuts are maintained throughout the century, the impacts are generally small. The impact of the US Clean Power Plan (USCPP) is a reduction in temperature rise by 0.013°C by 2100. The full US promise for the COP21 climate conference in Paris, its so‐called Intended Nationally Determined Contribution (INDC) will reduce temperature rise by 0.031°C. The EU 20‐20 policy has an impact of 0.026°C, the EU INDC 0.053°C, and China INDC 0.048°C. All climate policies by the US, China, the EU and the rest of the world, implemented from the early 2000s to 2030 and sustained through the century will likely reduce global temperature rise about 0.17°C in 2100. These impact estimates are robust to different calibrations of climate sensitivity, carbon cycling and different climate scenarios. Current climate policy promises will do little to stabilize the climate and their impact will be undetectable for many decades.
Proposes reasons why the Club of Rome's Limits to Growth (1972) doomsday predictions have failed. Criticizes the assumption that the Earth has finite resources that will become depleted over time. Technological advances & economic developments that have offered substitutes for Earth's natural resources are cited, as well as the ability to use & locate these resources more efficiently, as major components that were overlooked in the theory. Modern day ideas of limits to growth, ie, global warming, are faulted because they too overlook technological advances that can offer solutions. I. Sharp