Global temperature, R&D expenditure, and growth

We shed new light on the macroeconomic and financial effects of rising temperatures. In the data, a shock to global temperature dampens research and development (R&D) expenditure growth. This novel empirical evidence is rationalized within a stochastic endogenous growth model. In the model, temperature shocks undermine economic growth via a drop in R&D expenditure. We examine three theoretical channels of the negative R&D expenditure effect of rising temperatures: the patent obsolescence channel, the labor productivity channel, and the capital quality channel. Temperature risk generates welfare costs of 93.14% of lifetime utility in this benchmark model. Moreover, the government can offset these welfare costs by subsidizing investment with 7.04% or R&D expenditure with 3.81% of total public spending, respectively. Alternatively, it can levy a lump-sum tax on households which finances 6.90% of total public spending, reduce corporate taxes by 3.62 percentage points, or increase labor taxes by 2.80 percentage points.

Automated summary

The study shows that global temperature shocks can slow down R&D expenditure growth and impact economic growth; the model indicates that temperature shocks undermine economic growth by reducing R&D expenditure; the government can offset the welfare costs of rising temperatures by providing subsidies to investment or supporting R&D expenditure financially.