Difference between revisions of "Atlantic Bluefin Tuna Population"
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− | Bluefin tuna (thunnus thynnus) is found in the Pacific and Atlantic Oceans. Tunas can live up to 40 years and grow over 4 m and weight more than 600 kg, yet typical specimen is half that size. In the Atlantic the species is divided into two stocks - Eastern and Western. It is estimated that the bluefin tuna | + | Bluefin tuna (thunnus thynnus) is found in the Pacific and Atlantic Oceans. Tunas can live up to 40 years and grow over 4 m and weight more than 600 kg, yet typical specimen is half that size. In the Atlantic the species is divided into two stocks - Eastern and Western. It is estimated that the bluefin tuna population has fallen by 80 % since 1970s [1]. Bluefin tuna is extremely popular especially in Japanese cuisine. This has caused a huge decline in the Pacific Bluefin Tuna species; it is estimated that only around 13 to 20 000 tonnes remain in the Pacific Ocean. Therefore, various organisations are attempting to take measures to prevent this tuna species to die out. |
+ | |||
+ | It is thought that Atlantic Bluefin Tuna (or BFT for short) might face the same fate soon, if nothing is done and the species will continue to be overexploited. BFTs are referred to as “pandas of the ocean”. Their survival is crucial to provide reassurance and hope that the humankind is able to pull the worldwide sustainability crisis back from the brink of collapse [2]. | ||
=Problem definition= | =Problem definition= | ||
− | It is thought that the numbers of tuna populations have plummeted due to overfishing. Yet some studies claim, that overfishing is not the main cause of the tuna population reduction. Christelle Ravier and Jean-Marc Fromentin in their paper "Long-term fluctuations in the eastern Atlantic and Mediterranean bluefin tuna population" came to the conclusion that the bluefin tuna population may be influenced by biotic and environmental factors more than by overexploitation. Therefore, the aim of this simulation is to create a model based on available data to answer the question, whether overfishing is truly the only reason of tuna population decline. | + | It is thought that the numbers of tuna populations have plummeted due to overfishing. |
+ | Yet some studies claim, that overfishing is not the main cause of the tuna population reduction. Christelle Ravier and Jean-Marc Fromentin [3] in their paper "Long-term fluctuations in the eastern Atlantic and Mediterranean bluefin tuna population" came to the conclusion that the bluefin tuna population may be influenced by biotic and environmental factors more than by overexploitation. | ||
+ | |||
+ | In this study [4] the researchers came to the conclusion, that about 1/3 of the fisheries located in the eastern Atlantic and the Mediterranean are overfished. The Mediterranean is also one of the main areas for the BFT. As BFTs are warm-blooded fish, they spawn in warm waters. Also, from the historic point of view, there is data available on fishery overexploitation even from the 16th century. | ||
+ | |||
+ | Therefore, the aim of this simulation is to create a model based on available data to answer the question, whether overfishing is truly the only reason of tuna population decline. | ||
=Method= | =Method= | ||
− | papers, | + | == Research == |
+ | As a first step, an extensive research was conducted to gather the most relevant papers, articles and other sources, concerning BFT population, farming, quotas, statistics, environment and fishing. | ||
− | + | The most relevant appeared to be: | |
+ | *The impact of massive fishing of juvenile Atlantic bluefin tunas on the spawning population (1949-2010) – by José L. Cort and Pablo Abaunza [5] | ||
+ | *Atlantic bluefin tuna: population dynamics, ecology, fisheries and management – by Jean-Marc Fromentin and Joseph E. Powers [3] | ||
+ | *Bluefin tuna (Fisheries – European Comission) [1] | ||
+ | *Consequences of variations in carrying capacity or migration for the perception of Atlantic bluefin tuna (Thunnus thynnus) population dynamics – by Jean-Marc Froemntin and Laurence T. Kell [6] | ||
+ | *Forty years of fishing: changes in age structure and stock mixing in northwestern Atlantic bluefin tuna (Thunnus thynnus) associated with size-selective and long-term exploitation – by Siskey et al. [7] | ||
+ | *Long-term fluctuations in the eastern Atlantic and Mediterranean bluefin tuna population – by C. Ravier [4] | ||
+ | *Report of the standing committee on research and statistics – by ICCAT [8] | ||
+ | *Science-based management will ensure a healthy future – by Richard Herrmann [9] | ||
+ | *Sustainability of Atlantic Bluefin Tuna Stocks: The Problem of Overfishing – by Erini Lemos [2] | ||
+ | *The spectre of uncertainty in management of exploited fish stocks: The illustrative case of Atlantic bluefin tuna – by Jean-Marc Fromentin et al. [10] | ||
− | = | + | == Data Acquisition == |
+ | Most data are available only in a relative notation (usually in metric tonnes), due to the fact that the actual numbers of BFT are not known and the population is (guess)estimated based on the BFT caught, tagging initiatives and BFT catching for scientific purposes. Yet it is a stated fact, that the BFT is an endangered species by the World Wildlife Fund (WWF) [11]. | ||
− | + | According to [10]: „..ABFT population structure is likely to be more complex than the current two stocks hypothesis, with probably at least two populations within the Mediterranean. If this is confirmed, ICCAT might need to change the current two stock management framework to avoid the risk of eroding the Mediterranean bluefin tuna sub-populations,…„. For the purposes of this assignment, the BFT is divided only to two groups – Eastern and Western. | |
− | = | + | === Current state === |
+ | In [4] indexes are introduced to hep to determine whether the BFT population displays any signs of being overfished or of overfishing. The biomass index presents {Current biomass (B) \over B producing MSY (B_MSY)} and fishing mortality index presents {current fishing moratility (F) \over F producing MSY (F_MSY)}. MSY stands for maximal sustainable yield. | ||
+ | When B < B_MSY it signals of the species being overfished, when F > F_MSY it signals overfishing. {2 \over 4} | ||
− | = | + | {|class="wikitable" |
− | + | | Tuna Stock || Biomass Index || Fishing mortality index | |
+ | |- | ||
+ | | Western BFT || 0.48 || 0.85 | ||
+ | |- | ||
+ | | Eastern BFT || 1.73 || 0.24 | ||
+ | |- | ||
+ | | median || 1.12 || 0.81 | ||
+ | |}Table 1. Source [4]. Indexes were produced by using 10 000 random trees an data from the last 10 years. The results show, that even though there are no sign of overfishing, the BFT is being overfished. |
Revision as of 11:53, 20 January 2020
Bluefin tuna (thunnus thynnus) is found in the Pacific and Atlantic Oceans. Tunas can live up to 40 years and grow over 4 m and weight more than 600 kg, yet typical specimen is half that size. In the Atlantic the species is divided into two stocks - Eastern and Western. It is estimated that the bluefin tuna population has fallen by 80 % since 1970s [1]. Bluefin tuna is extremely popular especially in Japanese cuisine. This has caused a huge decline in the Pacific Bluefin Tuna species; it is estimated that only around 13 to 20 000 tonnes remain in the Pacific Ocean. Therefore, various organisations are attempting to take measures to prevent this tuna species to die out.
It is thought that Atlantic Bluefin Tuna (or BFT for short) might face the same fate soon, if nothing is done and the species will continue to be overexploited. BFTs are referred to as “pandas of the ocean”. Their survival is crucial to provide reassurance and hope that the humankind is able to pull the worldwide sustainability crisis back from the brink of collapse [2].
Problem definition
It is thought that the numbers of tuna populations have plummeted due to overfishing. Yet some studies claim, that overfishing is not the main cause of the tuna population reduction. Christelle Ravier and Jean-Marc Fromentin [3] in their paper "Long-term fluctuations in the eastern Atlantic and Mediterranean bluefin tuna population" came to the conclusion that the bluefin tuna population may be influenced by biotic and environmental factors more than by overexploitation.
In this study [4] the researchers came to the conclusion, that about 1/3 of the fisheries located in the eastern Atlantic and the Mediterranean are overfished. The Mediterranean is also one of the main areas for the BFT. As BFTs are warm-blooded fish, they spawn in warm waters. Also, from the historic point of view, there is data available on fishery overexploitation even from the 16th century.
Therefore, the aim of this simulation is to create a model based on available data to answer the question, whether overfishing is truly the only reason of tuna population decline.
Method
Research
As a first step, an extensive research was conducted to gather the most relevant papers, articles and other sources, concerning BFT population, farming, quotas, statistics, environment and fishing.
The most relevant appeared to be:
- The impact of massive fishing of juvenile Atlantic bluefin tunas on the spawning population (1949-2010) – by José L. Cort and Pablo Abaunza [5]
- Atlantic bluefin tuna: population dynamics, ecology, fisheries and management – by Jean-Marc Fromentin and Joseph E. Powers [3]
- Bluefin tuna (Fisheries – European Comission) [1]
- Consequences of variations in carrying capacity or migration for the perception of Atlantic bluefin tuna (Thunnus thynnus) population dynamics – by Jean-Marc Froemntin and Laurence T. Kell [6]
- Forty years of fishing: changes in age structure and stock mixing in northwestern Atlantic bluefin tuna (Thunnus thynnus) associated with size-selective and long-term exploitation – by Siskey et al. [7]
- Long-term fluctuations in the eastern Atlantic and Mediterranean bluefin tuna population – by C. Ravier [4]
- Report of the standing committee on research and statistics – by ICCAT [8]
- Science-based management will ensure a healthy future – by Richard Herrmann [9]
- Sustainability of Atlantic Bluefin Tuna Stocks: The Problem of Overfishing – by Erini Lemos [2]
- The spectre of uncertainty in management of exploited fish stocks: The illustrative case of Atlantic bluefin tuna – by Jean-Marc Fromentin et al. [10]
Data Acquisition
Most data are available only in a relative notation (usually in metric tonnes), due to the fact that the actual numbers of BFT are not known and the population is (guess)estimated based on the BFT caught, tagging initiatives and BFT catching for scientific purposes. Yet it is a stated fact, that the BFT is an endangered species by the World Wildlife Fund (WWF) [11].
According to [10]: „..ABFT population structure is likely to be more complex than the current two stocks hypothesis, with probably at least two populations within the Mediterranean. If this is confirmed, ICCAT might need to change the current two stock management framework to avoid the risk of eroding the Mediterranean bluefin tuna sub-populations,…„. For the purposes of this assignment, the BFT is divided only to two groups – Eastern and Western.
Current state
In [4] indexes are introduced to hep to determine whether the BFT population displays any signs of being overfished or of overfishing. The biomass index presents {Current biomass (B) \over B producing MSY (B_MSY)} and fishing mortality index presents {current fishing moratility (F) \over F producing MSY (F_MSY)}. MSY stands for maximal sustainable yield. When B < B_MSY it signals of the species being overfished, when F > F_MSY it signals overfishing. {2 \over 4}
Tuna Stock | Biomass Index | Fishing mortality index |
Western BFT | 0.48 | 0.85 |
Eastern BFT | 1.73 | 0.24 |
median | 1.12 | 0.81 |
Table 1. Source [4]. Indexes were produced by using 10 000 random trees an data from the last 10 years. The results show, that even though there are no sign of overfishing, the BFT is being overfished.