Lethal Concentrations and Detoxification Time of Toxaphene For Goldfish, Gambusia and Rainbow Trout

Workman, Gar W.

01 May 1959

In the past few years the Utah Fish and Game Department, as well as the fish and game departments of other states, has been spending fisheries money for fish eradication on both lakes and streams. The Utah Fish and Game Department recently suggested to the University that research be initiated on the subject of toxaphene as a fish poison. Consequently, a better insight into conditions that exist for a given water type could be developed. To date there is a very small amount of material written on toxaphene. This is due primarily to the fact that toxaphene was not developed until the 19hO's. Toxaphene is used mainly as an insecticide. Such crops as tomatoes, beans, alfalfa, clover and cotton are protected by the use of toxaphene (Hudd and Genelly, 1956).

toxaphene

goldfish

gambusia

rainbow trout

detoxification

Aquaculture and Fisheries

Biology

Environmental Sciences

Improving the success of a translocation of black mudfish (Neochanna diversus)

McDonald, Amy Elizabeth

January 2007

All of New Zealand's five endemic species of mudfish (Neochanna) are threatened, and translocation has been recommended as an option for conservation. This research undertakes a translocation of black mudfish (Neochanna diversus) into wetland margins of Lake Kaituna, in the Waikato region, and addresses research questions applicable to improving translocation success. Results from this research are intended to aid possible future translocations of the more threatened Northland mudfish (Neochanna heleios) and other genetically distinct populations of black mudfish. Captive rearing of juveniles collected from the wild is currently the most feasible option for sourcing translocation stock. Mudfish juveniles (greater than 25 mm T.L.) had greater survival rates, compared to mudfish fry less than 25 mm T.L. Mudfish growth was far greater when fed on a combined diet of brine shrimp (Artemia salina) and white worms (Enchytraeus albidus) than when fed exclusively on brine shrimp. Temperature was found to have a small effect on mudfish growth, with a slightly greater growth in fish at 15 C than those at 10 C. The introduced species Gambusia affinis has been the subject of concern for mudfish conservation and commonly found at wetland sites suitable for mudfish translocation. Found to prey on mudfish fry and eggs in aquaria, it was important to determine the effects of Gambusia density prior to undertaking a translocation to a location where Gambusia were present. Investigations were made into the effect of Gambusia density on black mudfish juveniles in 9 outdoor mesocosms. Increasing Gambusia density was found to have an inhibitory effect on black mudfish growth. This may be due to increased competition for food, a theory supported by analysis of zooplankton communities, where, in the presence of Gambusia, large zooplankton had been removed and smaller rotifers flourished. Monitoring programmes are required to assess any impacts or improvements of mudfish populations, including those created by translocation. A Gee minnow trapping programme in outdoor mesocosms was conducted to test the reliability of traps, finding that water depth, mudfish density, mudfish memory and trap shyness had no effect on the trapability of mudfish. Trap position was found to have the most significant effect, with a greater number of mudfish caught when traps were set overnight at the surface than when set on the bottom of mesocosms. Black mudfish adults and juveniles were translocated into 18 pools (~1 m diameter) on the wetland margins of Lake Kaituna in September 2006, followed by monthly monitoring. Water quality monitoring and an assessment of hydrology and vegetation was undertaken. Habitat characterisation was found to be a key factor, with correlations between water quality data and trapping results finding fewer fish remaining in pools with less suitable characteristics for mudfish (e.g. high turbidity and conductivity). Other species were found to have a large impact, with predation by shortfinned eels (Anguilla australis) thought to have eliminated mudfish from some pools. In addition fewer mudfish were caught in pools with Gambusia, possibly due to increased competition.

black mudfish

Neochanna diversus

translocation

Gambusia density

rearing

Gee minnow traps

New Zealand

Ecosystem Impacts of Consumer Evolution: Intraspecific Variation in the Elemental Phenotype of Aquatic Consumers

January 2017

abstract: Primary production in aquatic ecosystems is often limited by the availability of nitrogen (N) and/or phosphorus (P). Animals can substantially alter the relative availability of these nutrients by storing and recycling them in differential ratios. Variation in these stoichiometric traits, i.e., the elemental phenotype, within a species can link organismal evolution to ecosystem function. I examined the drivers of intraspecific variation in the elemental phenotype of aquatic consumers to test for the generality of these effects. Over a thermal gradient in Panamá, I found that average specific growth grate and body P content of the mayfly Thraulodes increased with environmental temperature, but that these patterns were due to site-specific differences rather than the direct effects of warmer temperature. In a meta-analysis of published studies, I found that in fishes intraspecific variation in dietary N:P ratio had a significant effect on excretion N:P ratio, but only when accounting for consumption. I tested for the effects of variation in consumption on excretion N:P ratio among populations of the fish Gambusia marshi in the Cuatro Ciénegas basin in Coahuila, Mexico. G. marshi inhabits warm groundwater-fed springs where it often co-occurs with predatory fishes and cool runoff-dominated wetlands which lack predators. Using stoichiometric models, I generated predictions for how variation in environmental temperature and predation pressure would affect the N:P ratio recycled by fishes. Adult female G. marshi excretion N:P ratio was higher in runoff-dominated sites, which was consistent with predators driving increased consumption rates by G. marshi. This result was supported by a diet ration manipulation experiment in which G. marshi raised on an ad libitum diet excreted N:P at a lower ratio than fish raised on a restricted diet ration. To further support the impacts of predation on phenotypic diversification in G. marshi, I examined how body morphology varied among habitats and among closely related species. Both among and within species, predation had stronger effects on morphology than the physical environment. Overall, these results suggest that predation, not temperature, has strong effects on these phenotypic traits of aquatic consumers which can alter their role in ecosystem nutrient cycling through variation in consumption rates. / Dissertation/Thesis / Doctoral Dissertation Biology 2017

Ecology

Evolution & development

Ecological Stoichiometry

Evolutionary Ecology

Gambusia

Nutrient Cycling

Phosphorus

Enemy Exacerbation: Effects of Predator Stress on Sulfate Lethality in Freshwater Amphipods (Gammarus minus)

Chapman, Trevor

01 August 2017

Predator cues can influence how aquatic organisms respond to anthropogenic contaminants. This study examined the effects of predator cues on behavior, metabolic rate, and sulfate (as Na2SO4) toxicity in amphipods (Gammarus minus). Predator cues included alarm cue (macerated conspecifics) and kairomone from mosquitofish (Gambusia affinis). Amphipods decreased activity and increased time in refuge when exposed to alarm cue, and increased time in refuge when exposed to kairomone. While median lethal concentrations (96-h LC50) were not influenced by predator cues, analysis of dose response curves indicated that kairomone exposure increased amphipod sensitivity to mid-range concentrations of sulfate (500-1,000 mg/L). Amphipods increased oxygen consumption in response to kairomone but not alarm cue. The influence of predator cues on contaminant lethality can be dependent on the type of cue, and physiological endpoints such as metabolic rate may help explain the basis of observed interactions.

Gammarus minus

kairomone

alarm cue

Gambusia affinis

predator cues

sodium sulfate

Behavior and Ethology

Biology

Toxicology

An Invasive Species Reduces Aquatic Insect Flux to Terrestrial Food Webs

Merkley, Steven S.

11 July 2011

Although it is well documented how introduced species can negatively affect native species, we only poorly understand how they may alter ecosystem functions. We investigated how an invasive fish affected the flux of aquatic insects to terrestrial food webs using mesocosms in a desert spring ecosystem. We compared aquatic insect emergence between alternative community states with monocultures and polycultures of two native species of fish, least chub (Iotichthys phlegethontis) and Utah chub (Gila atraria) plus, introduced western mosquitofish (Gambusia affinis). We tested three hypotheses: (1) aquatic insect biomass will be greater than terrestrial insect biomass and thus, constitute a vital source of energy for terrestrial consumers (2) invasive mosquitofish will negatively impact the biomass of emerging aquatic insects, and (3) terrestrial consumers will negatively respond to decreased emerging aquatic insect biomass. Aquatic insects represented 79% of the flying insect community, and treatments with mosquitofish significantly reduced emergent aquatic insect biomass by 60% relative to the control without mosquitofish. Behavioral traits of invasive species are important, because mosquitofish most heavily affected insects that emerged during the day. Also, spiders that build horizontal webs were negatively correlated with decreasing aquatic insect biomass. Invasive mosquitofish can achieve very dense populations because of their high intrinsic rate of population increase, which can significantly disrupt the flow of energy between aquatic and terrestrial ecosystems, thereby reducing the energy available for terrestrial consumers.

invasive species

ecosystem function

aquatic-terrestrial linkages

insect emergence

desert springs

Gambusia affinis

Biology

Environmental impacts on spawning and survival of fish larvae and juveniles in an upland river system of the Murray-Darling Basin

Peterson, Kylie, n/a

January 2003

Six rivers within the upper Mumbidgee catchment were sampled for larval and juvenile fish. The rivers represented both regulated and unregulated flow regimes and varied widely in size. There was wide variation in the larval fish communities supported by each river, both in terms of the species diversity and total abundance of fish sampled. The highly regulated reach of the Mumbidgee River sampled during this study had the highest numbers of native species and native individuals of any river sampled. In the two rivers selected for further study, the Murmmbidgee and Goodradigbee, there was a high level of inter-annual consistency in the species composition within the reaches sampled, despite considerable change in the temperature and flow regimes of both rivers. This indicates that at least some spawning of those species sampled may occur each year, regardless of environmental conditions. Estimates of the relative abundance of each species sampled changed markedly between years, and it is argued, on the basis of growth information contained in the otoliths, that differential survival of larvae and juveniles was largely responsible for this shift in relative abundance. Otolith microstructure provided information on the date of spawning and early growth patterns of all species sampled in the upper Mumumbidgee catchment. In addition to determining the age and thus 'birth-date' of an individual, the effect of a particular event or series of events has on growth, and subsequent survival, is permanently recorded in the otolith microstructure. This enables accurate back-calculation and correlation to management actions or natural events. No other research tool has this ability to retrospectively assess, on a daily basis, the impacts of management actions on condition and subsequent survival of fish larvae. Species sampled could be separated into three groups based on spawning requirements; those linked with flow, those linked with temperature and generalist species that appear to have river independent cues, such as photoperiod or moon phase. Patterns in growth rate during the early life history stages enabled quantification of the consequences of variation in environmental conditions on the survival and recruitment of various species. Growth was not always highly correlated with water temperature, in fact, for mountain galaxias, high temperatures appear to negatively affect larval condition and subsequent survival. Conversely, carp exhibited a strategy more consistent with common perceptions, with growth and survival increasing with increasing temperature. The study uncovered spawning and growth patterns that were unexpected. Age analysis of western carp gudgeon demonstrated that they had undertaken a mid-winter spawning, when the water temperature in the main channel was far lower than that at which spawning was previously recorded for this species. Redfin perch from the unregulated Goodradigbee River exhibited growth rates exceeding the published upper limits for this and other closely related species. This growth could not be correlated with either temperature or flow, indicating that there are additional factors that dominate growth rates of redfin perch in the Goodradigbee River. The proportion and abundance of native species alone is not necessarily indicative of a 'healthy' or pristine system; some native species may be positively affected by river regulation, at least as juveniles. Comparison of the current larval fish community with likely pre-European fish communities does provide an indication of change to the system. The results of this study suggest that larval fish growth rates can be strongly influenced by environmental conditions, thus providing a powerful tool for monitoring future change and the factors which cause it. This study has demonstrated the value of larval and juvenile fish age and growth information, derived from otolith microstructure techniques, for many aspects of river management. Current river management priorities for which these techniques provide unique information include the determination of environmental flow regimes and the control of undesirable exotic species such as carp.

environmental impact

fish larvae

Murray-Darling Basin

Murrumbidgee River

Goodradigbee River

ecology

mountain galaxias

Galaxias olidus

carp

Cyprinus carpio

redfin perch

Perca fluviatilis

Australian smelt

Retropinna semoni

western carp gudgeon

Hypseleotris klunzingeri

gambusia

Gambusia holbrooki

Mate-copying and personality trait in the two fish species Danio rerio and Gambusia holbrooki / L'imitation du choix du partenaire et personnalité dans deux espèces de poisson Danio rerio et Gambusia holbrooki

Wang, Xiaobo

01 July 2016

Le choix du partenaire sexuel est l'une des décisions les plus importantes auxquelles sont confrontés les animaux au cours de leur vie. Une manière pour un individu de choisir un partenaire sexuel est de copier le choix de ses congénères. Bien que décrit dans différentes espèces de vertébrés et chez la Drosophila, ce processus d'imitation du choix du partenaire reste malgré tout peu compris. L'objectif de ma thèse a été d'étudier la capacité des femelles à choisir leur partenaire sexuel par imitation dans deux espèces de poisson, le poisson zèbre (Danio rerio) et la Gambusie de l'Est (Gambusia holbrooki), et d'étudier si cette capacité des femelles à imiter est corrélée à leur personnalité, plus particulièrement à leur caractère sur l'axe timide-audacieux. Les femelles poisson zèbre et G. holbrooki ont une préférence naturelle pour les grands mâles. Afin d'évaluer leur capacité à imiter, nous avons testé si, comme décrit dans d'autres espèces de poissons, les femelles augmentent leur préférence pour le petit male après avoir observé le grand male seul et le petit mâle en interaction avec une autre femelle. Nous n'avons pas pu mettre en évidence une tendance à imiter le choix de ses congénères chez des femelles poisson zèbre, suggérant que ce modèle n'est pas adapté pour étudier les mécanismes cognitifs sous-tenant le processus d'imitation du choix du partenaire (Article 1, Chapitre 2). Afin d'évaluer leur caractère exploratoire-audacieux, nous avons testé le comportement de ces mêmes femelles poisson zèbre dans un labyrinthe toutes les deux semaines, cinq fois de suite. Bien que nous ayons trouvé une répartition claire des individus le long de l'axe timide-audacieux dans le premier test, nous n'avons cependant pas pu détecter une répétabilité des comportements individuels à travers les tests suivants. Ceci était sans doute du au fait qu'après le premier test de personalité dans le labyrinthe, les femelles avaient appris que ce labyrinthe ne contenait aucun attracteur (alimentation ou congénère), ce qui les conduisaient à bouger de moins en moins dans le labyrinthe. Ainsi, bien que les traits de personnalité doivent persister au fil du temps, nos données suggèrent que la répétabilité des mesures dans un même test pourrait être faussée par l'apprentissage et l'habituation (Article 2, Chapitre 3). Finalement, nos données sur les femelles Gambusie de l'Est suggèrent que la capacité à imiter le choix d'un partenaire sexuel est liée à la personnalité des femelles: comme anticipé, seules les femelles timides, et non les plus audacieuses, montrent une réelle capacité à imiter le choix de leurs congénères femelles. Ce comportement des femelles timides est maximum lorsque la différence de taille entre les mâles est comprise entre 10% et 25%. Enfin, l'imitation du choix du partenaire semble également être affectée par la pression atmosphérique au moment de l'expérience, les femelles étant plus susceptibles d'imiter leurs congénères lorsque la pression de l'air augmente, en prévision de condition climatique favorable. Si nous avions ignoré ces effets confondants (personnalité, différence relative de taille des mâles attracteurs et pression atmosphérique), nous n'aurions pas détecté le comportement d'imitation du choix du partenaire sexuel chez la gambusie. Nous concluons qu'il est important de prendre en compte de tels effets confondants dans l'étude du comportement d'imitation du choix du partenaire social chez les autres espèces (Article 3, Chapitre 4). / Le choix du partenaire sexuel est l'une des décisions les plus importantes auxquelles sont confrontés les animaux au cours de leur vie. Une manière pour un individu de choisir un partenaire sexuel est de copier le choix de ses congénères. Bien que décrit dans différentes espèces de vertébrés et chez la Drosophila, ce processus d'imitation du choix du partenaire reste malgré tout peu compris. L'objectif de ma thèse a été d'étudier la capacité des femelles à choisir leur partenaire sexuel par imitation dans deux espèces de poisson, le poisson zèbre (Danio rerio) et la Gambusie de l'Est (Gambusia holbrooki), et d'étudier si cette capacité des femelles à imiter est corrélée à leur personnalité, plus particulièrement à leur caractère sur l'axe timide-audacieux. Les femelles poisson zèbre et G. holbrooki ont une préférence naturelle pour les grands mâles. Afin d'évaluer leur capacité à imiter, nous avons testé si, comme décrit dans d'autres espèces de poissons, les femelles augmentent leur préférence pour le petit male après avoir observé le grand male seul et le petit mâle en interaction avec une autre femelle. Nous n'avons pas pu mettre en évidence une tendance à imiter le choix de ses congénères chez des femelles poisson zèbre, suggérant que ce modèle n'est pas adapté pour étudier les mécanismes cognitifs sous-tenant le processus d'imitation du choix du partenaire (Article 1, Chapitre 2). Afin d'évaluer leur caractère exploratoire-audacieux, nous avons testé le comportement de ces mêmes femelles poisson zèbre dans un labyrinthe toutes les deux semaines, cinq fois de suite. Bien que nous ayons trouvé une répartition claire des individus le long de l'axe timide-audacieux dans le premier test, nous n'avons cependant pas pu détecter une répétabilité des comportements individuels à travers les tests suivants. Ceci était sans doute du au fait qu'après le premier test de personalité dans le labyrinthe, les femelles avaient appris que ce labyrinthe ne contenait aucun attracteur (alimentation ou congénère), ce qui les conduisaient à bouger de moins en moins dans le labyrinthe. Ainsi, bien que les traits de personnalité doivent persister au fil du temps, nos données suggèrent que la répétabilité des mesures dans un même test pourrait être faussée par l'apprentissage et l'habituation (Article 2, Chapitre 3). Finalement, nos données sur les femelles Gambusie de l'Est suggèrent que la capacité à imiter le choix d'un partenaire sexuel est liée à la personnalité des femelles: comme anticipé, seules les femelles timides, et non les plus audacieuses, montrent une réelle capacité à imiter le choix de leurs congénères femelles. Ce comportement des femelles timides est maximum lorsque la différence de taille entre les mâles est comprise entre 10% et 25%. Enfin, l'imitation du choix du partenaire semble également être affectée par la pression atmosphérique au moment de l'expérience, les femelles étant plus susceptibles d'imiter leurs congénères lorsque la pression de l'air augmente, en prévision de condition climatique favorable. Si nous avions ignoré ces effets confondants (personnalité, différence relative de taille des mâles attracteurs et pression atmosphérique), nous n'aurions pas détecté le comportement d'imitation du choix du partenaire sexuel chez la gambusie. Nous concluons qu'il est important de prendre en compte de tels effets confondants dans l'étude du comportement d'imitation du choix du partenaire social chez les autres espèces (Article 3, Chapitre 4).

Information sociale

Répétabilité

Apprentissage social

Axe timideau-audacieux

Imitation du choix du partenaire

Danio rerio

Personnalité

Gambusia holbrooki

Social information

Social learning

Mate-copying

Personality

Repeatability

Bold-shy axis

Danio rerio

Gambusia holbrooki

Ecological interactions between an invasive fish (Gambusia holbrooki) and native cyprinodonts: the role of salinity

Alcaraz Cazorla, Carles

02 October 2006

Actualment una de les principals amenaces a la biodiversitat és la introducció d'espècies. Revisant 26 variables de les 69 espècies de peixos continental de la Península Ibèrica concloem que la filogènia, variabilitat i els usos de l'home són necessaris per entendre millor les diferències entres les espècies natives i invasores.Entre les especies més afectades per la introducció de peixos es troben els ciprinodontiformes endèmics del Mediterrani. Aportem les primers dades sobre l'ús d'hàbitats ocasionalment inundats i la selecció de preses del fartet (Aphanius iberus), observant un canvi ontogenètic, clarament relacionat amb el microhàbitat.També demostrem que la salinitat influeix en l'èxit invasor de la gamúsia, afectant la seva densitat i biologia reproductiva. Per altra banda, demostrem experimentalment que amb l'increment de salinitat la gambúsia disminueix la seva agressivitat i captura menys preses, reduint la seva eficàcia competitiva respecte dels ciprinodonts natius. / One of the main current threats to biodiversity is the introduction of invasive species. By reviewing 26 life-history and ecological variables of the 69 inland fish species of the Iberian Peninsula we conclude that phylogeny, variability and human use are needed to a better understanding of the differences between native and invasive species.Among the most threatened species by invasive fish are the Mediterranean endemic cyprinodontiform fish. We report the first data on the use of occasionally-inundated habitats ad prey electivity by the Spanish toothcarp (Aphanius iberus). We observed an ontogenetic diet shift clearly linked to a microhabitat change.We also demonstrate that salinity limits the invasive success of mosquitofish (Gambusia holbrooki), affecting density and life history traits. ON the ohter hand, we experimentally demonstrate that mosquitofish decreases its aggresive behavior and capture less prey, reducing its competitive efficiency with salinity increases regarding to native ciprinodonts.

Mosquito fish

Gambusia affinis

Aphanicus iberus

Fartet

Cyprinodontiforms

Ciprinodontiformes

Salinity

Salinidad

Salinitat

Introduced organisms

Especies introducidas

Espècies introduïdes

Philogenesis

filogénesis

Filogènesi

0

504

574

639