Book contents
- Frontmatter
- Contents
- 1 Introduction
- 2 World fisheries: some basic facts
- 3 Aquaculture
- 4 Elementary fisheries economics
- 5 Natural fluctuations of fish stocks
- 6 The 200-mile zone: a sea change
- 7 International fisheries management: cooperation or competition?
- 8 Fisheries management
- 9 Conclusion
- References
- List of figures and tables
- Index
4 - Elementary fisheries economics
Published online by Cambridge University Press: 21 December 2023
- Frontmatter
- Contents
- 1 Introduction
- 2 World fisheries: some basic facts
- 3 Aquaculture
- 4 Elementary fisheries economics
- 5 Natural fluctuations of fish stocks
- 6 The 200-mile zone: a sea change
- 7 International fisheries management: cooperation or competition?
- 8 Fisheries management
- 9 Conclusion
- References
- List of figures and tables
- Index
Summary
The FAO database for captures of marine species contains no fewer than 1,700 species (FAO 2020: 10). The Peruvian anchovy is the top one in terms of quantity; the captures were more than 7 million tonnes in 2018, even if this was just an average year for the anchovy (see Figure 2.6). Second comes the Alaska pollock, with catches of almost 4 million tonnes in 2018 (see Figure 2.2). At the other end there are many species with catches of less than a tonne. Most fish species consist of “stocks”, populations that are separated in space and with little or no interaction between them. This is the basic unit of analysis in fisheries science. Atlantic cod, for example, consists of several stocks with little or no interaction: Northeast Arctic cod, Baltic cod, Icelandic cod, North Sea cod, Northern cod of Newfoundland, and more. Some fisheries scientists think there may be subpopulations of these that could be identified as stocks in their own right.
An economic analysis of fisheries must start with some basic facts about the productivity of nature. The most basic premises are that no fish produce no fish and that fish populations would not grow without limit if left untouched by humans. Furthermore, we know that some fish stocks have been exploited for thousands of years and yet not become extinct. It makes sense, therefore, to assume that a surplus growth will be generated if stocks are reduced below the upper limit set by nature. This surplus growth can sustain fishing for ever without endangering the continued existence of the fish population; the fishery would take only whatever the population does not need to maintain itself.
Several factors may lie behind the phenomenon of surplus growth. Fishing changes the age composition of fish stocks towards younger, faster-growing cohorts. Fewer fish could mean less competition for a limited food supply (this phenomenon is likely to be stronger in confined lakes than in the openended ecosystems of the ocean). Older fish often eat younger individuals of the same species, so the survival of young cohorts could improve as older cohorts are depleted through fishing.
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- Information
- The Economics of Fishing , pp. 63 - 94Publisher: Agenda PublishingPrint publication year: 2021