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Main Author: Richards, Adin
Format: Preprint
Published: 2025
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Online Access:https://arxiv.org/abs/2510.17828
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author Richards, Adin
author_facet Richards, Adin
contents While technology and trade have made modern food systems increasingly resilient to disruptions, it is unknown if human society could survive the most extreme threats to agriculture, such as from severe climate change or nuclear/biological warfare. One way that society could withstand such disruptions is to make food without agriculture. Here, I evaluate the feasibility of rapidly scaling up nonagricultural food production in response to a disaster. I find that even in an idealized worst-case scenario where all current agricultural production ends instantaneously and cannot be restarted, it may be possible for at least some countries to begin producing enough food without agriculture to feed their populations before existing food supplies run out. As a proof of principle, for the US, producing edible bacteria grown on natural gas appears to be one feasible option for quickly making food without agriculture. Feeding the US population this way would require about 16% of US annual natural gas production, 6% of US annual electricity consumption, and $530 billion (1.9% of US GDP) worth of food production facilities. Several key findings from this report remain uncertain, and if a disaster hits at the worst possible time with respect to annual variation in stored food supplies, there may not be enough time to scale up other food production options. However, this report suggests that some countries are close to, or may already be at, the point where they could survive just about any agricultural disaster, as long as modern industry remains intact. I find that there are several interventions that could more thoroughly close this window of vulnerability: designing and piloting alternative food production facilities in advance of a disaster, improving the nutritional quality of alternative foods through research and development, and increasing crop stock levels.
format Preprint
id arxiv_https___arxiv_org_abs_2510_17828
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Society's Resilience to a Total Loss of Agriculture
Richards, Adin
Physics and Society
While technology and trade have made modern food systems increasingly resilient to disruptions, it is unknown if human society could survive the most extreme threats to agriculture, such as from severe climate change or nuclear/biological warfare. One way that society could withstand such disruptions is to make food without agriculture. Here, I evaluate the feasibility of rapidly scaling up nonagricultural food production in response to a disaster. I find that even in an idealized worst-case scenario where all current agricultural production ends instantaneously and cannot be restarted, it may be possible for at least some countries to begin producing enough food without agriculture to feed their populations before existing food supplies run out. As a proof of principle, for the US, producing edible bacteria grown on natural gas appears to be one feasible option for quickly making food without agriculture. Feeding the US population this way would require about 16% of US annual natural gas production, 6% of US annual electricity consumption, and $530 billion (1.9% of US GDP) worth of food production facilities. Several key findings from this report remain uncertain, and if a disaster hits at the worst possible time with respect to annual variation in stored food supplies, there may not be enough time to scale up other food production options. However, this report suggests that some countries are close to, or may already be at, the point where they could survive just about any agricultural disaster, as long as modern industry remains intact. I find that there are several interventions that could more thoroughly close this window of vulnerability: designing and piloting alternative food production facilities in advance of a disaster, improving the nutritional quality of alternative foods through research and development, and increasing crop stock levels.
title Society's Resilience to a Total Loss of Agriculture
topic Physics and Society
url https://arxiv.org/abs/2510.17828