Seaweed as a Resilient Food Solution After a Nuclear War

Jehn, Florian Ulrich; Dingal, Farrah Jasmine; Mill, Aron; Harrison, Cheryl; Ilin, Ekaterina; Roleda, Michael Y.; James, Scott C.; Denkenberger, David

doi:10.1029/2023ef003710

Cited by 7 publications

(3 citation statements)

References 99 publications

Supporting

Mentioning

Contrasting

Order By: Relevance

“…A combination of resilient foods could avoid mass starvation [7,8], but many are at the early stages of development and the ramp rates necessary are challenging during a disaster. A promising candidate resilient food that is appropriate for a low-technology setting and could be ramped up quickly [13] is algae [14] and seaweed [15,16]. Seaweed is an established human food [17]; the Food and Agriculture Organization of the United Nations has been encouraging seaweed production for many years and the seaweed industry has been growing [18].…”

Section: Introductionmentioning

confidence: 99%

“…Seaweed does not compete with land or freshwater and does not use pesticides [19]. Seaweed can maintain good yields in low-tech settings [15,16], and it may be resistant to high UV radiation levels, which is expected from ASRSs [20][21][22]. Remarkably, seaweed can meet all human protein needs [23] and globally 48 million km 2 are suitable for seaweed production [24].…”

Section: Introductionmentioning

confidence: 99%

See 1 more Smart Citation

Open-Source Flexible Material Tensile Testing Apparatus

Woods,

Nauta,

Pearce

2024

Hardware

View full text Add to dashboard Cite

Alternative food sources are essential in both low-resource settings and during emergencies like abrupt sunlight reduction scenarios. Seaweed presents a promising option but requires investigation into the viability of unconventionally sourced ropes for harvesting. In this regard, a low-cost reliable method to test the tensile strength of rope is needed to validate alternative materials for use in harvesting seaweed. Commercial rope testing jigs alone range in price from several thousand to tens of thousands of dollars, so there is interest in developing a lower-cost alternative. Addressing these needs, this article reports on an open-source design for tensile strength rope testing hardware. The hardware design focuses on using readily available parts that can be both sourced from a hardware store and manufactured with simple tools to provide the greatest geographic accessibility. The jig design, which can be fabricated for CAD 20, is two to three orders of magnitude less expensive than commercially available solutions. The jig was built and tested using a case study example investigating denim materials (of 1 5/8”, 3 1/4”, 4 7/8”, 6 1/2”, and 8 1/8” widths) as a potential alternative rope material for seaweed farming. Denim demonstrated strengths of up to 1.65 kN for the widest sample, and the jig demonstrated sufficient strength and stiffness for operations at forces below 4 kN. The results are discussed and areas for future improvements are outlined to adapt the device to other circumstances and increase the strength of materials that can be tested.

show abstract

Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Open-Source Flexible Material Tensile Testing Apparatus

Woods,

Nauta,

Pearce

2024

Hardware

View full text Add to dashboard Cite

show abstract

“…These solutions should be well-suited for contributing to an adequate food supply for the greatest number of people even in the worst scenarios." Numerous promising resilient food solutions have been proposed, such as ramping up seaweed production [5], crop relocation, extracting edible calories from killed leaves, growing mushrooms on dead trees, fishing [1], repurposing paper mills to produce lignocellulosic sugar [6], crop relocation [7], and building methane single cell protein factories [8]. Resilient foods also increase the chance that trade is maintained, which would dramatically increase the number of people fed [7].…”

Section: Graphical Abstract 1 Introductionmentioning

confidence: 99%

Can foraging for earthworms significantly reduce global famine in a catastrophe?

Miller,

Mulhall,

Pfau

et al. 2024

Preprint

View full text Add to dashboard Cite

Earthworms are a resilient group of species that thrive in a variety of habitats through feeding on decaying organic matter, and are therefore predicted to survive an abrupt sunlight reduction scenario, such as a nuclear winter. In this study, the feasibility and cost-effectiveness of foraging earthworms to reduce global famine following a reduction in sunlight with or without global catastrophic loss of infrastructure was considered. Methods for extracting worms were analysed, along with scalability, climate-related barriers to foraging, and pre-consumption processing requirements. Estimations of the global earthworm resource suggest it could provide three years of the protein needs of the current world population, at a median cost of 353 USD·kg−1 dry carbohydrate equivalent or a mean cost of 1200 (90% confidence interval: 32–8500) USD·kg−1 dry carbohydrate equivalent. This is more expensive than other resilient food options and, moreover, earthworms may bioaccumulate heavy metals and other contaminants, presenting a health risk. While costs appear high, there are a number of uncertainties that remain to be addressed. In particular, earthworm biomass distribution may be higher in specific locations. Real-world news reports of earthworm foraging in China and Vietnam detail high yields, suggesting a targeted approach to foraging in the most abundant regions could provide a more feasible application of earthworms as a resilient food source.

show abstract