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Fisheries Management

Explore the complexities of sustainable fisheries management, including issues with maximum sustainable yield concepts, underfishing, overfishing, and data inaccuracies. Learn about the Schaefer and Beverton-Holt models and the impact of fishing on fish populations. Discover why fishing below MSY can be necessary due to recruitment variability, resource mismatch, competitors, and economic factors.

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Fisheries Management

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  1. Fisheries Management T Review of Maximum Sustainable Yield Concepts and Problems

  2. Reasons to Fish Below the MSY I. Inaccurate Information A. I Fish Therefore I Lie (Schaefer Model) B. Not Enough Biological Data (Beverton-Holt Model) II. Variable Recruitment • Resource Mismatch • Presence of Competitors • Stock Stability • Economics (Law of Diminishing Returns) • T

  3. Reasons to Fish Below the MSY I. Inaccurate Information A. I Fish Therefore I Lie (Schaefer Model) B. Not Enough Biological Data (Beverton-Holt Model) II. Variable Recruitment • Resource Mismatch • Presence of Competitors • Stock Stability • Economics (Law of Diminishing Returns) • T

  4. Schaefer Model Underfishing Overfishing (hours)

  5. Schaeffer Model Requirements: Measurement of Fish Caught Measurement of Fishing Effort

  6. Schaeffer Model Fish Caught per Unit of Fishing Effort: A PROXY for Population Size

  7. Schaefer Model Overfishing Underfishing (pounds/hour)

  8. Beverton-Holt Model Requirements: Measurement of Fish Caught Knowledge of Fish Biology Population Size (Tagging) Age (Otoliths) Reproductive Biology

  9. Beverton-Holt Model F

  10. Beverton-Holt Model: Application to a Resource-Limited Population Mortality declines with fishing because: Caught fish don’t die a natural death; A fished population is a younger population, with a lower death rate; 3. Individuals in a fished population have access to more resources, so they are healthier and have a lower death rate. F Gross Production declines with fishing less rapidly than M declines because: 1. Individuals in a fished population have access to more resources, so they grow faster and have higher fecundity.

  11. Reasons to Fish Below the MSY I. Inaccurate Information A. I Fish Therefore I Lie (Schaefer Model) B. Not Enough Biological Data (Beverton-Holt Model) II. Variable Recruitment • Resource Mismatch • Presence of Competitors • Stock Stability • Economics (Law of Diminishing Returns) • T

  12. Percentage contribution of year classes of Norwegian spring spawn herring to the adult stock from 1954 through 1962. The very good year class of 1950 began first appearing in significant numbers in 1954 and dominated the adult stock throughout this period.

  13. Reasons to Fish Below the MSY I. Inaccurate Information A. I Fish Therefore I Lie (Schaefer Model) B. Not Enough Biological Data (Beverton-Holt Model) II. Variable Recruitment • Resource Mismatch • Presence of Competitors • Stock Stability • Economics (Law of Diminishing Returns) • T

  14. Reasons to Fish Below the MSY I. Inaccurate Information A. I Fish Therefore I Lie (Schaefer Model) B. Not Enough Biological Data (Beverton-Holt Model) II. Variable Recruitment • Resource Mismatch • Presence of Competitors • Stock Stability • Economics (Law of Diminishing Returns) • T

  15. Reasons to Fish Below the MSY I. Inaccurate Information A. I Fish Therefore I Lie (Schaefer Model) B. Not Enough Biological Data (Beverton-Holt Model) II. Variable Recruitment • Resource Mismatch • Presence of Competitors • Stock Stability • Economics (Law of Diminishing Returns) • T

  16. Stock Stability (Population Resilience) Fishing at 15% of MSY Fishing at 75% of MSY Fishing at 100% of MSY

  17. Stock Size

  18. Fishing Stock Size

  19. Good Recruitment Stock Size

  20. Good Recruitment Stock Size

  21. Bad Recruitment Stock Size

  22. Bad Recruitment Stock Size

  23. Low Stock Size Stock Size

  24. Low Stock Size Stock Size

  25. ENSO Stock Size

  26. ENSO Stock Size

  27. Low Stock Size High Stock Size Stock Size

  28. Low Stock Size High Stock Size Stock Size

  29. Low Stock Size High Stock Size Stock Size

  30. Fishing at 15% of MSY Fishing at 75% of MSY Fishing at 100% of MSY

  31. Reasons to Fish Below the MSY I. Inaccurate Information A. I Fish Therefore I Lie (Schaefer Model) B. Not Enough Biological Data (Beverton-Holt Model) II. Variable Recruitment • Resource Mismatch • Presence of Competitors • Stock Stability • Economics (Law of Diminishing Returns) • T

  32. ECONOMICS

  33. The Canadian Cod Example: Fished to Commercial Extinction Before Establishment of a Moratorium: No Recovery of the Stock, No Recovery of the Fishery

  34. During the 1980s cod catches remained steady but that was because larger, more powerful and sophisticated vessels were chasing the few remaining fish.

  35. During the 1980s cod catches remained steady but that was because larger, more powerful and sophisticated vessels were chasing the few remaining fish. Working harder and harder, to catch the few remaining cod.

  36. "In normal years we'd get 200,000 pounds of cod, but that year it was more like 70,000 pounds. Then all of a sudden they just crashed." Fisheries scientists concluded that quotas had to be more than halved in order to prevent this stock's collapse. Politicians were appalled; the proposed quotas would have caused economic chaos throughout Eastern Canada. So the politicians compromised what could not be compromised. Quotas were cut by only 10 percent. Fishermen tried as hard as they could, but could only catch 122,000 of the 190,000-ton cod quota for 1991. The estimated combined weight of the adult cod population was a mere 1.1 percent of its historic levels of the early 1960s.

  37. ECONOMICS Law of Diminishing Returns

  38. Reasons to Fish Below the MSY I. Inaccurate Information A. I Fish Therefore I Lie (Schaefer Model) B. Not Enough Biological Data (Beverton-Holt Model) II. Variable Recruitment • Resource Mismatch • Presence of Competitors • Stock Stability • Economics (Law of Diminishing Returns) • T

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