Squaring the circle?
It may be that reconciling the goals of conservation and greater yields is less difficult than was previously thought.
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At least, that is what BIO Associate Professor, Jeppe Kolding, and colleagues argue in their 鈥淕hoti鈥 paper: 鈥Squaring the circle: reconciling fishing and conservation of aquatic ecosystems鈥.听
They argue that
- Helps retain the demographic power-law size-structure of natural ecosystems
- Is less likely to destabilize aquatic communities
- Can cause substantial increases in overall biomass yield听
The article takes the discussion into the realm of mathematics and modelling to compare harvesting by balanced harvesting or minimum-size regulations. .听
While the authors conclude that it may not be as difficult as might have been expected to reconcile fishing and conservation, it will, however, require fundamental changes in how fishing takes place.
Kolding brings these results to his work in the , which aims to be involved in 鈥淪trengthening the Knowledge Base for and implementing an Ecosystem Approach to Marine Fisheries in Developing Countries鈥. Kolding is a member of the Capacity Development team in this project.
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Background information:
"Ghoti papers
Ghoti aims to serve as a forum for stimulating and pertinent ideas. Ghoti publishes succinct commentary and opinion that addresses important areas in fish and fisheries science. Ghoti contributions will be innovative and have a perspective that may lead to fresh and productive insight of concepts, issues and research agendas. All Ghoti contributions will be selected by the editors and peer reviewed.
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Etymology of Ghoti
George Bernard Shaw (1856鈥1950), polymath, playwright, Nobel prize winner, and the most prolific letter writer in history, was an advocate of English spelling reform. He was reportedly fond of pointing out its absurdities by proving that 鈥榝ish鈥 could be spelt 鈥榞hoti鈥. That is: 鈥榞h鈥 as in 鈥榬ough鈥, 鈥榦鈥 as in 鈥榳omen鈥 and 鈥榯i鈥 as in palatial." (from Fish and Fisheries)
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Dynamic, size-spectrum models
Flows in a dynamic, size-spectrum model keeps internal account of all biomass through the density of organisms of a range of body sizes over time. Through feeding on smaller organisms, there is an increase in body size of the predator and a decrease of the prey. Such changes to density potentially occur at all body sizes except for the largest, which dies of senescence, and the smallest, where renewal occurs through reproduction from the adults. Food for the smallest organisms in the dynamic spectrum is provided by a fixed plankton spectrum.
