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Oct 1999

Oct 1999. The After Effects of the 1999 fishery: Catch and Discard Rates in the 2000 fisheries in the re-opened closed areas. Bases for Tradeoffs. Habitat and Bycatch Issues Better information on habitat implies less impacts on non-scallop habitats

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Oct 1999

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  1. Oct 1999

  2. The After Effects of the 1999 fishery:Catch and Discard Rates in the 2000 fisheries in the re-opened closed areas

  3. Bases for Tradeoffs • Habitat and Bycatch Issues • Better information on habitat implies less impacts on non-scallop habitats • When total harvest weight is constrained, fishing on higher concentrations of scallops implies less bottom contact time. • Less contact time implies less habitat impact • Less contact time implies less chance of bycatch

  4. Multi-Objective Linear ProgrammingA relatively simple way to compare tradeoffs among objectives Key Elements: Quantifiable Objective, Decision Variables, Constraints Di,j = Decision variable for area i, j where Di,j = 1 if area is open to fishing, else =0 Vs,i,j = Value of species s in area i, j. where Vs,i,j = f(biomass, impact potential, etc…)

  5. Defining Objectives and Constraints Objective Function for the set {E} of species or attributes that are enhanced by fishery, Objective Function for the set {I} of species or attributes that are dimished/degraded/impacted by fishery.

  6. Evaluating Multiple Objectives

  7. Evaluating All Possible Alternatives • It is not necessary to derive the relative value or merit of each objective function component. This is the subject of endless and divisive debate and source of amusement to outsiders. • Instead, one examines the value of the objective function over the full range of relative values of  between 0 and 1. • The resulting set of optimal solutions define the Pareto optimality frontier, a boundary that separates feasible from infeasible solutions, and a benchmark against which specific solutions can be compared. • The solution set corresponding to a point on the Pareto boundary can be used as starting points for the development of a particular solution in which non-quantifiable or difficult to quantify factors are incorporated

  8. Classic Economic Choices: Guns vs Butter—Swords vs Plowshares—Scallops vs Bycatch Infeasible Solutions Optimal Solutions Bycatch Reduction Feasible Solutions Scallop Yield Bycatch Reduction

  9. Solutions that approach the boundary are better than those near the origin because more of one or more of the objectives is attained Infeasible Solutions Best Solution Bycatch Reduction Better Solution Good Solution Poor Solution Scallop Yield Bycatch Reduction

  10. Solutions on the boundary represent the set of possible weighting of the objective function P=1 P=0.7 Infeasible Solutions P=0.5 Bycatch Reduction P=0.2 P=0 Scallop Yield Bycatch Reduction

  11. Solutions on the boundary represent the set of possible weighting of the objective function and a particular pattern of open and closed areas. P=1 P=0.5 Bycatch Reduction P=0 Scallop Yield Bycatch Reduction

  12. Alternative Solutions can be evaluated with respect to the attainment of maximum values that would be possible in the absence of additional objectives. Acceptable solutions are those that are acceptable to all parties Bycatch Reduction Bycatch Reduction Scallop Yield Yield Loss

  13. “Steeper” Solutions on the boundary represent the ideal situation: Both objective functions are near their maximum values and little has to be given up. Bycatch Reduction Bycatch Reduction Scallop Yield Yield Loss

  14. Some Conclusions • Spatial patterns of fishing have important implications for bycatch, habitat, and fishing mortality • Each pattern of fishing has different consequences for each species. • Managing at the margin poses risks to the resources, industry and ecosystem • Tradeoffs are an essential aspect of fisheries resource management.

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