+ Site Statistics
+ Search Articles
+ PDF Full Text Service
How our service works
Request PDF Full Text
+ Follow Us
Follow on Facebook
Follow on Twitter
Follow on LinkedIn
+ Subscribe to Site Feeds
Most Shared
PDF Full Text
+ Translate
+ Recently Requested

Effect of variable fishing strategy on fisheries under changing effort and pressure an agent-based model application



Effect of variable fishing strategy on fisheries under changing effort and pressure an agent-based model application



Ecological Modelling 1(2): 362-369



An agent-based model was used to evaluate the response of a two-species fish community to fishing boat exploration strategies, namely: boats following high-yield boats (Cartesian); boats fishing at random sites (stochast-random); and boats fishing at least exploited sites (stochast-pressure). At low fishing pressure, the stochast-random mode yielded a high average catch per boat while sustaining fish biomass. At high fishing pressure, the Cartesian mode was more effective.

Please choose payment method:






(PDF emailed within 0-6 h: $19.90)

Accession: 034808195

Download citation: RISBibTeXText

DOI: 10.1016/j.ecolmodel.2009.09.019


Related references

A yield-per-recruit model for sequential fisheries and its application in evaluating the management strategy of changing incidental inshore fishing mortality. Aquatic Sciences. 60(2): 130-144, 1998

The influence of vessel size and fishing strategy on the fishing effort for multispecies fisheries in northwestern France. ICES Journal of Marine Science 58(6): 1232-1242, 2001

Enjoying Catch and Fishing Effort The Effort Effect in Recreational Fisheries. Environmental and Resource Economics 57(3): 393-404, 2014

Amazon fisheries ii. variations in the relative abundance of tucunare cichla ocellaris cichla temensis based on catch and fishing effort data of trident fisheries. Amazoniana 10(1): 1-14, 1986

A policy of fisheries management based on continuous fishing effort. Journal of Biological Systems 9(4): 247-254, 2001

Effective fishing effort indicators and their application to spatial management of mixed demersal fisheries. Fisheries Management and Ecology 20(5): 377-389, 2013

Exploring Spatiotemporal Trends in Commercial Fishing Effort of an Abalone Fishing Zone: A GIS-Based Hotspot Model. Plos one 10(5): E0122995, 2015

Application of a habitat-based model to estimate effective longline fishing effort and relative abundance of Pacific bigeye tuna (Thunnus obesus). Fisheries Oceanography 11(3): 143-155, 2002

On the standardization of the fishing effort in demersal fisheries in the East China Sea and the Yellow Sea by gross tonnage of fishing boats, horse power of main engine and hauling method. Bulletin Seikai reg Res. Lab: 73-104, 1975

Linking effort and fishing mortality in a mixed fisheries model Comparing linear versus non-linear assumptions. Fisheries Research 127-128(none): 0, 2012

Fishing effects in northeast Atlantic shelf seas: Patterns in fishing effort, diversity and community structure. II. Trends in fishing effort in the North Sea by UK registered vessels landing in Scotland. Fisheries Research (Amsterdam) 40(2): 107-124, 1999

Interactions among fisheries; Tag-recapture methods for estimating the effect of catches of changing fishing intensity. FAO (Food and Agriculture Organization of the United Nations) Fisheries Technical Paper 0(336 Part 1-2): 92, 1994

A Model-Based Evaluation of Active Management of Recreational Fishing Effort. North American Journal of Fisheries Management 23(4): 94-302, 2003

Fishing strategy development under changing conditions: examples from the French offshore fleet fishing in the North Atlantic. ICES Journal of Marine Science 61(8): 1410-1431, 2004

Establishing fishing effort targets for groundfish fisheries. Canadian Technical Report of Fisheries and Aquatic Sciences 0(2100): 107-116, 1996