Effect of Fishing Effort on the Catchability of Largemouth Bass

Wegener, Matthew Glenn

11 May 2013

The effect of fishing on the catchability of a population receiving intense angler effort has long been debated but not measured. This study evaluated the effect of fishing effort on catchability of adult largemouth bass Micropterus salmoides and determined whether catchability was affected by a period of no fishing. Eight, 0.5-2.0 ha impoundments were fished once a week for 0.4 angler hours per hectare per week during two successive May-October fishing seasons to evaluate whether catch rates differed between populations fished continuously and populations with the fishing season interrupted by a 2-month period of no fishing. Mixed-model analysis indicated effort significantly decreased catch rate (F 4, 298 = 16.53; P < 0.001). Pair-wise comparisons indicated change in catch rate was not significantly different (t = 1.52; P = 0.13) between the first 8 weeks and the final 8 weeks of fishing for ponds that received a 2-month layoff.

catchability

largemouth bass

Multi-Species Models of Time-Varying Catchability in the U.S. Gulf of Mexico

Thorson, James Turner

03 June 2009

The catchability coefficient is used in most marine stock assessment models, and is usually assumed to be stationary and density-independent. However, recent research has shown that these assumptions are violated in most fisheries. Violation of these assumptions will cause underestimation of stock declines or recoveries, leading to inappropriate management policies. This project assesses the soundness of stationarity and density independence assumptions using multi-species data for seven stocks and four gears in the U.S. Gulf of Mexico. This study also develops a multi-species methodology to compensate for failures of either assumption. To evaluate catchability assumptions, abundance-at-age was reconstructed and compared with catch-per-unit-effort data in the Gulf. Mixed-effects, Monte Carlo, and bootstrap analyses were applied to estimate time-varying catchability parameters. Gulf data showed large and significant density dependence (0.71, s.e. 0.07, p<0.001) and increasing trends in catchability (2.0% annually compounding, s.e. 0.6%, p < 0.001). Simulation modeling was also used to evaluate the accuracy and precision of seven different single-species and multi-species estimation procedures. Imputing estimates from similar species provided accurate estimates of catchability parameters. Multi-species estimates also improved catchability estimation when compared with the current assumptions of density independence and stationarity. This study shows that multi-species data in the Gulf of Mexico have sufficient quantity and quality to accurately estimate catchability model parameters. This study also emphasizes the importance of estimating density-dependent and density-independent factors simultaneously. Finally, this study shows that multi-species imputation of catchability estimates decreases errors compared with current assumptions, when applied to single-species stock assessment data. / Master of Science

Gulf of Mexico

snapper/grouper fisheries

stock assessment

simulation model

time-varying catchability

density dependence

technology creep

multi-species

The phenotypic correlates of individual vulnerability to angling

Klefoth, Thomas Heinfried

31 July 2017

Das Potential evolutionärer Veränderungen von lebensgeschichtlichen Merkmalen durch kommerzielle Fischerei fand in den vergangenen Jahren große Beachtung, wohingegen das evolutionäre Potential selektiver anglerischer Fischentnahme kaum berücksichtigt wurde. Durch intensive Beschreibung individueller Merkmale wie Verhalten, Lebensgeschichte, Morphologie und Physiologie der Fische habe ich die phänotypischen Korrelate der individuellen Angelfangbarkeit entflechtet. Anhand benthivorer und piscivorer Modellarten konnte ich so die Stärke und die Richtung anglerischer Selektion bestimmen. Zudem habe ich die Überlebenswahrscheinlichkeit und den Reproduktionserfolg dieser Fische gemessen, um das evolutionäre Potential anglerischer Fischereisterblichkeit abschätzen zu können. Ich konnte zeigen, dass die Risikofreude im Zusammenhang mit der Nahrungsaufnahme bei benthivoren Fischen dem stärksten Selektionsdruck ausgesetzt ist, während bei piscivoren Arten Aggression die bestimmende Eigenschaft war. Zudem waren Risikofreude und Wachstum positiv korreliert. Die intrinsische Fraßaktivität- und Geschwindigkeit erklärte, warum risikofreudige Fische selbst in Gruppen die höchste Hakwahrscheinlichkeit aufwiesen. Diese besonders leicht fangbaren Individuen wurden zudem mit höherer Wahrscheinlichkeit von Räubern in Teichen und in einem 25 ha großen Natursee gefressen, sodass anglerisch induzierte und natürliche Selektion bei juvenilen Fischen in die gleiche Richtung wiesen. Bei adulten, nestbewachenden Fischen konnte ich zudem zeigen, dass Eigenschaften, die zu einer erhöhten Fangbarkeit führen, auch den Laicherfolg steigern, sodass anglerische Selektion negative Auswirkungen auf den Reproduktionserfolg haben kann. Folglich kann bei hohem Fischereidruck ein anglerisch-induziertes Schüchternheitssyndrom entstehen, wodurch die Fangraten von der Fischbestandsdichte entkoppelt werden. Meine Ergebnisse deuten auf eine hohe Schutzwürdigkeit individueller Verhaltensdiversität hin. / The potential for fishing-induced evolution has been intensively discussed in recent years, but most studies have focused on life-history traits that directly or indirectly determine body size in the context of commercial fisheries. Much less is known about potential evolutionary changes in the context of passive angling fisheries. Using comprehensive phenotypic descriptions covering several behavioral, life-history, morphological, and physiological traits, I disentangled the phenotypic correlates of individual vulnerability to angling gear. Using both, benthivorous and piscivorous model species I identified the strength and direction of selection. I then compared survival and reproductive fitness of vulnerable and invulnerable individuals to predict the evolutionary potential of angling-induced selection. My research showed that boldness in the context of foraging is the most important trait under selection in passive fisheries targeting benthivorous species whereas aggression determines selection in piscivorous species. In addition, growth and boldness were positively correlated. Intrinsically high foraging activity- and speed likely explained why explicitly bold fish were caught more often. These highly vulnerable individuals also faced higher natural mortality at the juvenile stage in ponds and within a 25 ha natural lake. Thus, angling-induced selection and natural selection point into the same direction at the juvenile stage. However, using adult, nest-guarding fish, I also showed that angling-induced selection can severely impact reproductive fitness when behavioral patterns that determine fitness also affect vulnerability to angling gear. As a consequence, an exploitation-induced timidity syndrome can be assumed in highly exploited fish stocks leading to increasing shyness and reduced vulnerability of individual fish. My findings call for a promotion of behavioral diversity within natural fish populations.

Angeln

Fangbarkeit

evolutionäre Veränderung

Wachstum

Verhalten

Selektion

angling

catchability

evolutionary change

growth

behavior

selection

ZD 40000

ZD 43400

ddc:630

Modélisation hiérarchique bayésienne pour l'évaluation des populations de thonidés : intérêts et limites de la prise en compte de distributions a priori informatives / Bayesian state-space modelization for tuna stock assessment : interest and limits of informative priors

Simon, Maximilien

11 December 2012

La modélisation de la dynamique des populations de thons et grands pélagiques pour l'évaluation des stocks est confrontée à deux enjeux majeurs. (1) L'hypothèse forte de proportionnalité entre Captures Par Unité d'Effort de pêche (CPUE) et l'abondance des stocks. Les CPUE des pêcheries commerciales sont en effet les seules mesures relatives de biomasse utilisées pour l'évaluations des stocks de thons et grands pélagiques, malgré leur manque de représentativité de l'abondance de ces populations. (2) Le manque de données informatives pour modéliser la relation Stock-Recrutement (SR) ce qui conduit à utiliser des contraintes sur la "steepness" de cette fonction. Nous examinons comment l'introduction d'informations indépendantes des pêcheries commerciales dans les modèles pour l'évaluation des stocks thoniers permet de lever l'hypothèse de capturabilité constante et de mieux justifier le choix de la steepness de la relation SR. Le cadre statistique bayésien autorise la prise en compte d'informations supplémentaires via des distributions a priori informatives (priors). Cette thèse examine donc les possibilités d'élicitation de priors informatifs pour des paramètres démographiques et des paramètres liés à la capturabilité des engins de pêche, ainsi que l'utilisation de ces priors dans un modèle global. Les cas d'études sont les stocks de thon rouge (Thunnus thynnus) et d'albacore (Thunnus albacares) de l'Atlantique. La grande variabilité naturelle des taux de mortalités pré-recrutement pose des limites à l'utilisation des seuls traits d'histoire de vie pour l'élicitation de priors pour des paramètres démographiques. Par ailleurs, la relation SR pour les thonidés est remise en question par une valeur de steepness proche de 1. Il apparait que des priors informatifs sur la capturabilité dans un modèle hiérarchique global permettent de réduire les incertitudes dans le diagnostic sur l'état d'un stock thonier. Nous montrons ainsi que le diagnostic sur le stock Atlantique d'albacore est plus pessimiste qu'attendu la tendance à la hausse des capturabilités des principaux engins de pêche est prise en compte. L'élicitation de priors présente donc un fort intérêt pour utiliser des informations supplémentaires et extérieures aux CPUE et améliorer la perception de l'état des stock thoniers. / Modelisation of the population dynamics of tunas and tuna like species for stock assessment is facing two issues. (1) The hypothesis of proportionality between Catch Per Unit Effort (CPUE) and abundance (constant catchability). CPUEs from commercial fisheries appear to be the only relative measure of abundance in spite of their lack of representativity of the abundances of the populations. (2) The lack of informative data for the modelisation of the Stock-Recruit (SR) relationship, which leads to constraint this function on its steepness. The introduction of fisheries-independent sources of information is investigated in order to relax the assumption of constant catchability and to provide better justification of steepness choice for the SR relationship. The Bayesian statistical framework allows the consideration of additional information a priori via informative distributions (priors). This work investigate the elicitation of informative priors for demographic parameters and parameters related to the catchability of fishing gear, as well as the use of these priors into a surplus production model. The cases of the Atlantic bluefin tuna (Thunnus thynnus) and of the yellowfin tuna (Thunnus albacares}) were taken as examples. The large natural variability of pre-recruits mortality rates limits the use of life history traits for eliciting priors for demographic parameters. In addition, the SR relationship for tuna is challenged by a steepness value close to 1. It appears that informative priors on catchability parameters, in a hierarchical surplus production model, reduce uncertainties in the diagnosis on the status of tuna stocks. We show that the status of the Atlantic yellowfin tuna stock is more critical taking into account upward trends in the main fishing gears catchabilities. We conclude that prior elicitation is a reliable tool to take into account additionnal information and to improve tunas stock assessment.

Stocks halieutiques

Albacore

Thon rouge

Capturabilité

Prior bayésien

Relation stock-recrutement

Fisheries stock

Yellowfin tuna

Bluefin tuna

Catchability

Bayesian prior

Stock-recruits relationship

639.27783

Hydroacoustic Quantification of Lake Erie Walleye (Sander vitreus)Distribution and Abundance

DuFour, Mark R.

18 October 2017

No description available.

Aquatic Sciences

Biology

Ecology

Environmental Science

Freshwater Ecology

Natural Resource Management

Biostatistics