Alternative mating tactics and acoustic behaviour in the grass goby Zosterisessor ophiocephalus: a behavioural analysis of the interaction between the parasitic and the bourgeois male
Identifieur interne : 005C03 ( Istex/Corpus ); précédent : 005C02; suivant : 005C04Alternative mating tactics and acoustic behaviour in the grass goby Zosterisessor ophiocephalus: a behavioural analysis of the interaction between the parasitic and the bourgeois male
Auteurs : S. Malavasi ; M. Lugli ; P. Torricelli ; D. MainardiSource :
- Journal of Fish Biology [ 0022-1112 ] ; 2003-12.
English descriptors
- KwdEn :
- 1cardiff school, 1department, 1fisheries research services, 2fisheries research services, Aberrant stickleback, Acipenser ruthenus, Aculeatus, African catfish, Aggressive behaviour, Aggressive mimicry, Alternative mating tactics, Anglia, Animal ecology, Animal sciences, Aquaculture, Aquaculture science, Ashworth laboratory, Atlantic salmon, Atlantic salmon parr, Barbu, Bartram hall, Beaugregory damselfish, Behaviour, Behavioural, Behavioural interaction, Behavioural interactions, Behavioural studies, Better understanding, Biological sciences, Biology, Bitterling, Bitterling population dynamics, Body mass, Body size, British isles, British isles paper abstracts, Brood pouch, Brook, Brook trout, Brook water velocity, Brown trout, Buffer effect, Cannibalism, Cardiff, Cardiff university, Caribbean cleaning gobies, Centre, Cerebellar function, Chaos theory, Charlottelund castle, Chemical communication, Chemical cues, Cleaner wrasses, Cleanerfish mimics, Cleaning gobies, Cleaning interactions, Cleaning stations, Cleaning symbioses, Cognitive ability, Common garden, Conspecific, Coral, Coral colony, Coral reef fishes, Countergradient variation, Crenicichla alta, Cue, Cyprinid fishes, Czech republic, Dalhousie university, Damselfish, Danio rerio, Danish institute, Danube river, Deep water, Different light intensities, Different populations, Different size, Dispersal, Dominance hierarchies, Dominance rank, Dominant fish, Dynamics, Early life history characteristics, East anglia, Ecology, Ectoparasite, Ectoparasite availability, Ectoparasite loads, Edinburgh, Edward llwyd building, Elacatinus evelynae, Electronic data storage tags, Energetic costs, Energy expenditure, Environmental, Environmental conditions, Environmental extremes, European bitterling, Excysted metacercariae, Experimental control, Experimental zoology group, Familiar fish, Familiarity preferences, Feed intake, Female bitterling, Female quality, Fertilization, Field data, Filial cannibalism, First evidence, Fish, Fish behaviour, Fish biology, Fish cognition, Fish movements, Fish species, Fish stocks, Fish welfare, Fisheries research, Fisheries society, Fishery, Flow regions, Focal fish, Food availability, Food resources, Foraging, Foraging behaviour, Freshwater, Freshwater laboratory, Freshwater mussels, Functional response, Future studies, Gadus morhua, Gasterosteus, Gasterosteus aculeatus, Genetic basis, Genetic differences, Gill chamber, Girardinichthys multiradiatus, Goby, Greater numbers, Growth rate, Guppy, Habitat, Habitat choice, Habitat preference, Hatchery, Hatchery fish, Helsinki, Homing behaviour, Honest signal, Host behaviour change, Important fish species, Individual differences, Individual fish, Internal fertilization, Intraspecific variability, Isle, Juvenile atlantic salmon, Juvenile sticklebacks, Karlskrona archipelago, Knipowitschia panizzae, Kyoto japan, Kyoto university, Laboratory experiments, Laboratory studies, Lake tana, Large males, Larger males, Larval dispersal, Late afternoon, Leeds, Life cycle, Light environments, Light intensities, Light intensity, Littoral zone, Louis compton miall building, Lowestoft, Lowestoft laboratory, Main building, Male, Male competition, Male mating success, Male sticklebacks, Marine biology, Marine ecology, Marine science, Marine species, Mating success, Mating system, Mating systems, Migratory behaviour, Model species, Model system, Mosquito fish, Mussel, Natural populations, Natural resources, Neighbour, Nemachilus angorae, Nest opening, Network theory, Nocturnal foraging excursions, Normal distribution model, Normal stickleback males, Norwich, Nova scotia, Olfactory, Olfactory cues, Olfactory sensitivity, Original group, Other fish families, Other guppies, Other hand, Oviposition, Oviposition choices, Oviposition decisions, Oxygen levels, Pakefield road, Paper abstracts, Parablennius tentacularis, Paralichthys olivaceus, Parasite, Parasitic, Park place, Parr, Physiological condition, Piscivorous barbus, Plaice, Poecilia reticulata, Pool habitat, Population biology, Population densities, Population differences, Population dynamics, Population structure, Predation, Predator, Predator attack, Predator inspection, Predator inspection behaviour, Present data, Present study, Prey, Prey selection, Prey size, Putative prey, Queen mary, Recent work, Reproductive, Reproductive behaviour, Reproductive success, Resource competition, Results show, Rhodeus sericeus, River discharge, Salmo salar, Salmo trutta, Salmon, Salmon parr, Salmonid, Same time, Secondary males, Several species, Sexual selection, Shallow waters, Shoal, Shoaling, Shoaling behaviour, Shoaling tendency, Significant differences, Single males, Small groups, Sneaker males, Social behaviour, Social interactions, Social networks, Southern population, Species ranges, Sperm, Sperm cloud, Sperm competition, Sperm competition dynamics, Sperm expenditure, Sponge substrata, Stickleback, Stickleback gasterosteus aculeatus, Stream transport, Substrate embeddedness, Succursale centre ville, Testis, Tidal, Tidal streams, Trait, Transport mechanism, Trout, Turbot, Unfamiliar fish, Unfamiliar groups, Unknown individuals, Vertebrate, Vertebrate models, Vertebrate zoology, Visual cues, Visual isolation, Wageningen institute, Wales aberystwyth, Water flow rate, Water temperature, Water velocity, Wavelength spectrum, West mains road, Western australia, Wide range, Wild populations, Yellow stingray, Yellowfin shiner, Yugoslav part, Zoology, Zooplankton, Zooplankton density.
- Teeft :
- 1cardiff school, 1department, 1fisheries research services, 2fisheries research services, Aberrant stickleback, Acipenser ruthenus, Aculeatus, African catfish, Aggressive behaviour, Aggressive mimicry, Alternative mating tactics, Anglia, Animal ecology, Animal sciences, Aquaculture, Aquaculture science, Ashworth laboratory, Atlantic salmon, Atlantic salmon parr, Barbu, Bartram hall, Beaugregory damselfish, Behaviour, Behavioural, Behavioural interaction, Behavioural interactions, Behavioural studies, Better understanding, Biological sciences, Biology, Bitterling, Bitterling population dynamics, Body mass, Body size, British isles, British isles paper abstracts, Brood pouch, Brook, Brook trout, Brook water velocity, Brown trout, Buffer effect, Cannibalism, Cardiff, Cardiff university, Caribbean cleaning gobies, Centre, Cerebellar function, Chaos theory, Charlottelund castle, Chemical communication, Chemical cues, Cleaner wrasses, Cleanerfish mimics, Cleaning gobies, Cleaning interactions, Cleaning stations, Cleaning symbioses, Cognitive ability, Common garden, Conspecific, Coral, Coral colony, Coral reef fishes, Countergradient variation, Crenicichla alta, Cue, Cyprinid fishes, Czech republic, Dalhousie university, Damselfish, Danio rerio, Danish institute, Danube river, Deep water, Different light intensities, Different populations, Different size, Dispersal, Dominance hierarchies, Dominance rank, Dominant fish, Dynamics, Early life history characteristics, East anglia, Ecology, Ectoparasite, Ectoparasite availability, Ectoparasite loads, Edinburgh, Edward llwyd building, Elacatinus evelynae, Electronic data storage tags, Energetic costs, Energy expenditure, Environmental, Environmental conditions, Environmental extremes, European bitterling, Excysted metacercariae, Experimental control, Experimental zoology group, Familiar fish, Familiarity preferences, Feed intake, Female bitterling, Female quality, Fertilization, Field data, Filial cannibalism, First evidence, Fish, Fish behaviour, Fish biology, Fish cognition, Fish movements, Fish species, Fish stocks, Fish welfare, Fisheries research, Fisheries society, Fishery, Flow regions, Focal fish, Food availability, Food resources, Foraging, Foraging behaviour, Freshwater, Freshwater laboratory, Freshwater mussels, Functional response, Future studies, Gadus morhua, Gasterosteus, Gasterosteus aculeatus, Genetic basis, Genetic differences, Gill chamber, Girardinichthys multiradiatus, Goby, Greater numbers, Growth rate, Guppy, Habitat, Habitat choice, Habitat preference, Hatchery, Hatchery fish, Helsinki, Homing behaviour, Honest signal, Host behaviour change, Important fish species, Individual differences, Individual fish, Internal fertilization, Intraspecific variability, Isle, Juvenile atlantic salmon, Juvenile sticklebacks, Karlskrona archipelago, Knipowitschia panizzae, Kyoto japan, Kyoto university, Laboratory experiments, Laboratory studies, Lake tana, Large males, Larger males, Larval dispersal, Late afternoon, Leeds, Life cycle, Light environments, Light intensities, Light intensity, Littoral zone, Louis compton miall building, Lowestoft, Lowestoft laboratory, Main building, Male, Male competition, Male mating success, Male sticklebacks, Marine biology, Marine ecology, Marine science, Marine species, Mating success, Mating system, Mating systems, Migratory behaviour, Model species, Model system, Mosquito fish, Mussel, Natural populations, Natural resources, Neighbour, Nemachilus angorae, Nest opening, Network theory, Nocturnal foraging excursions, Normal distribution model, Normal stickleback males, Norwich, Nova scotia, Olfactory, Olfactory cues, Olfactory sensitivity, Original group, Other fish families, Other guppies, Other hand, Oviposition, Oviposition choices, Oviposition decisions, Oxygen levels, Pakefield road, Paper abstracts, Parablennius tentacularis, Paralichthys olivaceus, Parasite, Parasitic, Park place, Parr, Physiological condition, Piscivorous barbus, Plaice, Poecilia reticulata, Pool habitat, Population biology, Population densities, Population differences, Population dynamics, Population structure, Predation, Predator, Predator attack, Predator inspection, Predator inspection behaviour, Present data, Present study, Prey, Prey selection, Prey size, Putative prey, Queen mary, Recent work, Reproductive, Reproductive behaviour, Reproductive success, Resource competition, Results show, Rhodeus sericeus, River discharge, Salmo salar, Salmo trutta, Salmon, Salmon parr, Salmonid, Same time, Secondary males, Several species, Sexual selection, Shallow waters, Shoal, Shoaling, Shoaling behaviour, Shoaling tendency, Significant differences, Single males, Small groups, Sneaker males, Social behaviour, Social interactions, Social networks, Southern population, Species ranges, Sperm, Sperm cloud, Sperm competition, Sperm competition dynamics, Sperm expenditure, Sponge substrata, Stickleback, Stickleback gasterosteus aculeatus, Stream transport, Substrate embeddedness, Succursale centre ville, Testis, Tidal, Tidal streams, Trait, Transport mechanism, Trout, Turbot, Unfamiliar fish, Unfamiliar groups, Unknown individuals, Vertebrate, Vertebrate models, Vertebrate zoology, Visual cues, Visual isolation, Wageningen institute, Wales aberystwyth, Water flow rate, Water temperature, Water velocity, Wavelength spectrum, West mains road, Western australia, Wide range, Wild populations, Yellow stingray, Yellowfin shiner, Yugoslav part, Zoology, Zooplankton, Zooplankton density.
Abstract
In this study the behavioural interaction between the bourgeois and the parasitic male of the grass goby, Zosterissor ophiocephalus, is investigated during spawning in the laboratory. Large grass goby males care for the eggs (bourgeoise males), whereas small males are believed to adopt an alternative mating tactic. The behavioural interaction between one large male spawning inside an artificial nest (a large plastic box buried in the sand provided with two entrance tubes opening on the substrate) and one small male, was investigated in five small male‐large male pairs. The small male performed parasitic activity in four replicates. The main activity of the parasitic male was staying still on the substrate by one nest opening (Waiting), usually followed by one or more attempts to enter the nest. Waiting was performed repeatedly by the parasitic male at both nest openings across the spawning period. The activity of the large male inside the nest consisted mainly of switching between spawning‐related activities (e.g. Upside‐down) and standing still inside one of the two entrance tubes of the nest (Patrolling). The analysis of temporal relationship among behavioural activities showed a positive relationship between the occurrence of Waiting and Patrolling in 3 out of 4 replicates, with Patrolling occurring more frequently at the nest opening at which the parasitic male was Waiting. Only 20% of all the intrusion attempts observed in the five replicates were successful, i.e. the parasitic male entered the burrow and performed egg‐fertilization movements. A significant emission of sounds by the bourgeois male, mostly associated with Patrolling, was documented. The function of the bourgeois male sound production during spawning is discussed.
Url:
DOI: 10.1111/j.1095-8649.2003.216bh.x
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ISTEX:B8B14B519AAF324A4AD9B397335BAF6075D12838Le document en format XML
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Malavasi</name><affiliation><mods:affiliation>(1Dept. of Scienze Ambientali, Università di Venezia, Castello 2737B, 30122 Venezia, Italy;</mods:affiliation></affiliation></author><author><name sortKey="Lugli, M" sort="Lugli, M" uniqKey="Lugli M" first="M." last="Lugli">M. Lugli</name><affiliation><mods:affiliation>2 Dept. of Biologia Evolutiva and Funzionale, Università di Parma, Viale delle Scienze, 1‐43100 Parma, Italy).</mods:affiliation></affiliation></author><author><name sortKey="Torricelli, P" sort="Torricelli, P" uniqKey="Torricelli P" first="P." last="Torricelli">P. Torricelli</name><affiliation><mods:affiliation>(1Dept. of Scienze Ambientali, Università di Venezia, Castello 2737B, 30122 Venezia, Italy;</mods:affiliation></affiliation></author><author><name sortKey="Mainardi, D" sort="Mainardi, D" uniqKey="Mainardi D" first="D." last="Mainardi">D. 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school</term><term>1department</term><term>1fisheries research services</term><term>2fisheries research services</term><term>Aberrant stickleback</term><term>Acipenser ruthenus</term><term>Aculeatus</term><term>African catfish</term><term>Aggressive behaviour</term><term>Aggressive mimicry</term><term>Alternative mating tactics</term><term>Anglia</term><term>Animal ecology</term><term>Animal sciences</term><term>Aquaculture</term><term>Aquaculture science</term><term>Ashworth laboratory</term><term>Atlantic salmon</term><term>Atlantic salmon parr</term><term>Barbu</term><term>Bartram hall</term><term>Beaugregory damselfish</term><term>Behaviour</term><term>Behavioural</term><term>Behavioural interaction</term><term>Behavioural interactions</term><term>Behavioural studies</term><term>Better understanding</term><term>Biological sciences</term><term>Biology</term><term>Bitterling</term><term>Bitterling population dynamics</term><term>Body mass</term><term>Body size</term><term>British isles</term><term>British isles paper abstracts</term><term>Brood pouch</term><term>Brook</term><term>Brook trout</term><term>Brook water velocity</term><term>Brown trout</term><term>Buffer effect</term><term>Cannibalism</term><term>Cardiff</term><term>Cardiff university</term><term>Caribbean cleaning gobies</term><term>Centre</term><term>Cerebellar function</term><term>Chaos theory</term><term>Charlottelund castle</term><term>Chemical communication</term><term>Chemical cues</term><term>Cleaner wrasses</term><term>Cleanerfish mimics</term><term>Cleaning gobies</term><term>Cleaning interactions</term><term>Cleaning stations</term><term>Cleaning symbioses</term><term>Cognitive ability</term><term>Common garden</term><term>Conspecific</term><term>Coral</term><term>Coral colony</term><term>Coral reef fishes</term><term>Countergradient variation</term><term>Crenicichla alta</term><term>Cue</term><term>Cyprinid fishes</term><term>Czech republic</term><term>Dalhousie university</term><term>Damselfish</term><term>Danio rerio</term><term>Danish institute</term><term>Danube river</term><term>Deep water</term><term>Different light intensities</term><term>Different populations</term><term>Different size</term><term>Dispersal</term><term>Dominance hierarchies</term><term>Dominance rank</term><term>Dominant fish</term><term>Dynamics</term><term>Early life history characteristics</term><term>East anglia</term><term>Ecology</term><term>Ectoparasite</term><term>Ectoparasite availability</term><term>Ectoparasite loads</term><term>Edinburgh</term><term>Edward llwyd building</term><term>Elacatinus evelynae</term><term>Electronic data storage tags</term><term>Energetic costs</term><term>Energy expenditure</term><term>Environmental</term><term>Environmental conditions</term><term>Environmental extremes</term><term>European bitterling</term><term>Excysted metacercariae</term><term>Experimental control</term><term>Experimental zoology group</term><term>Familiar fish</term><term>Familiarity preferences</term><term>Feed intake</term><term>Female bitterling</term><term>Female quality</term><term>Fertilization</term><term>Field data</term><term>Filial cannibalism</term><term>First evidence</term><term>Fish</term><term>Fish behaviour</term><term>Fish biology</term><term>Fish cognition</term><term>Fish movements</term><term>Fish species</term><term>Fish stocks</term><term>Fish welfare</term><term>Fisheries research</term><term>Fisheries society</term><term>Fishery</term><term>Flow regions</term><term>Focal fish</term><term>Food availability</term><term>Food resources</term><term>Foraging</term><term>Foraging behaviour</term><term>Freshwater</term><term>Freshwater laboratory</term><term>Freshwater mussels</term><term>Functional response</term><term>Future studies</term><term>Gadus morhua</term><term>Gasterosteus</term><term>Gasterosteus aculeatus</term><term>Genetic basis</term><term>Genetic differences</term><term>Gill chamber</term><term>Girardinichthys multiradiatus</term><term>Goby</term><term>Greater numbers</term><term>Growth rate</term><term>Guppy</term><term>Habitat</term><term>Habitat choice</term><term>Habitat preference</term><term>Hatchery</term><term>Hatchery fish</term><term>Helsinki</term><term>Homing behaviour</term><term>Honest signal</term><term>Host behaviour change</term><term>Important fish species</term><term>Individual differences</term><term>Individual fish</term><term>Internal fertilization</term><term>Intraspecific variability</term><term>Isle</term><term>Juvenile atlantic salmon</term><term>Juvenile sticklebacks</term><term>Karlskrona archipelago</term><term>Knipowitschia panizzae</term><term>Kyoto japan</term><term>Kyoto university</term><term>Laboratory experiments</term><term>Laboratory studies</term><term>Lake tana</term><term>Large males</term><term>Larger males</term><term>Larval dispersal</term><term>Late afternoon</term><term>Leeds</term><term>Life cycle</term><term>Light environments</term><term>Light intensities</term><term>Light intensity</term><term>Littoral zone</term><term>Louis compton miall building</term><term>Lowestoft</term><term>Lowestoft laboratory</term><term>Main building</term><term>Male</term><term>Male competition</term><term>Male mating success</term><term>Male sticklebacks</term><term>Marine biology</term><term>Marine ecology</term><term>Marine science</term><term>Marine species</term><term>Mating success</term><term>Mating system</term><term>Mating systems</term><term>Migratory behaviour</term><term>Model species</term><term>Model system</term><term>Mosquito fish</term><term>Mussel</term><term>Natural populations</term><term>Natural resources</term><term>Neighbour</term><term>Nemachilus angorae</term><term>Nest opening</term><term>Network theory</term><term>Nocturnal foraging excursions</term><term>Normal distribution model</term><term>Normal stickleback males</term><term>Norwich</term><term>Nova scotia</term><term>Olfactory</term><term>Olfactory cues</term><term>Olfactory sensitivity</term><term>Original group</term><term>Other fish families</term><term>Other guppies</term><term>Other hand</term><term>Oviposition</term><term>Oviposition choices</term><term>Oviposition decisions</term><term>Oxygen levels</term><term>Pakefield road</term><term>Paper abstracts</term><term>Parablennius tentacularis</term><term>Paralichthys olivaceus</term><term>Parasite</term><term>Parasitic</term><term>Park place</term><term>Parr</term><term>Physiological condition</term><term>Piscivorous barbus</term><term>Plaice</term><term>Poecilia reticulata</term><term>Pool habitat</term><term>Population biology</term><term>Population densities</term><term>Population differences</term><term>Population dynamics</term><term>Population structure</term><term>Predation</term><term>Predator</term><term>Predator attack</term><term>Predator inspection</term><term>Predator inspection behaviour</term><term>Present data</term><term>Present study</term><term>Prey</term><term>Prey selection</term><term>Prey size</term><term>Putative prey</term><term>Queen mary</term><term>Recent work</term><term>Reproductive</term><term>Reproductive behaviour</term><term>Reproductive success</term><term>Resource competition</term><term>Results show</term><term>Rhodeus sericeus</term><term>River discharge</term><term>Salmo salar</term><term>Salmo trutta</term><term>Salmon</term><term>Salmon parr</term><term>Salmonid</term><term>Same time</term><term>Secondary males</term><term>Several species</term><term>Sexual selection</term><term>Shallow waters</term><term>Shoal</term><term>Shoaling</term><term>Shoaling behaviour</term><term>Shoaling tendency</term><term>Significant differences</term><term>Single males</term><term>Small groups</term><term>Sneaker males</term><term>Social behaviour</term><term>Social interactions</term><term>Social networks</term><term>Southern population</term><term>Species ranges</term><term>Sperm</term><term>Sperm cloud</term><term>Sperm competition</term><term>Sperm competition dynamics</term><term>Sperm expenditure</term><term>Sponge substrata</term><term>Stickleback</term><term>Stickleback gasterosteus aculeatus</term><term>Stream transport</term><term>Substrate embeddedness</term><term>Succursale centre ville</term><term>Testis</term><term>Tidal</term><term>Tidal streams</term><term>Trait</term><term>Transport mechanism</term><term>Trout</term><term>Turbot</term><term>Unfamiliar fish</term><term>Unfamiliar groups</term><term>Unknown individuals</term><term>Vertebrate</term><term>Vertebrate models</term><term>Vertebrate zoology</term><term>Visual cues</term><term>Visual isolation</term><term>Wageningen institute</term><term>Wales aberystwyth</term><term>Water flow rate</term><term>Water temperature</term><term>Water velocity</term><term>Wavelength spectrum</term><term>West mains road</term><term>Western australia</term><term>Wide range</term><term>Wild populations</term><term>Yellow stingray</term><term>Yellowfin shiner</term><term>Yugoslav part</term><term>Zoology</term><term>Zooplankton</term><term>Zooplankton density</term></keywords><keywords scheme="Teeft" xml:lang="en"><term>1cardiff school</term><term>1department</term><term>1fisheries research services</term><term>2fisheries research services</term><term>Aberrant stickleback</term><term>Acipenser ruthenus</term><term>Aculeatus</term><term>African catfish</term><term>Aggressive behaviour</term><term>Aggressive mimicry</term><term>Alternative mating tactics</term><term>Anglia</term><term>Animal ecology</term><term>Animal sciences</term><term>Aquaculture</term><term>Aquaculture science</term><term>Ashworth laboratory</term><term>Atlantic salmon</term><term>Atlantic salmon parr</term><term>Barbu</term><term>Bartram hall</term><term>Beaugregory damselfish</term><term>Behaviour</term><term>Behavioural</term><term>Behavioural interaction</term><term>Behavioural interactions</term><term>Behavioural studies</term><term>Better understanding</term><term>Biological sciences</term><term>Biology</term><term>Bitterling</term><term>Bitterling population dynamics</term><term>Body mass</term><term>Body size</term><term>British isles</term><term>British isles paper abstracts</term><term>Brood pouch</term><term>Brook</term><term>Brook trout</term><term>Brook water velocity</term><term>Brown trout</term><term>Buffer effect</term><term>Cannibalism</term><term>Cardiff</term><term>Cardiff university</term><term>Caribbean cleaning gobies</term><term>Centre</term><term>Cerebellar function</term><term>Chaos theory</term><term>Charlottelund castle</term><term>Chemical communication</term><term>Chemical cues</term><term>Cleaner wrasses</term><term>Cleanerfish mimics</term><term>Cleaning gobies</term><term>Cleaning interactions</term><term>Cleaning stations</term><term>Cleaning symbioses</term><term>Cognitive ability</term><term>Common garden</term><term>Conspecific</term><term>Coral</term><term>Coral colony</term><term>Coral reef fishes</term><term>Countergradient variation</term><term>Crenicichla alta</term><term>Cue</term><term>Cyprinid fishes</term><term>Czech republic</term><term>Dalhousie university</term><term>Damselfish</term><term>Danio rerio</term><term>Danish institute</term><term>Danube river</term><term>Deep water</term><term>Different light intensities</term><term>Different populations</term><term>Different size</term><term>Dispersal</term><term>Dominance hierarchies</term><term>Dominance rank</term><term>Dominant fish</term><term>Dynamics</term><term>Early life history characteristics</term><term>East anglia</term><term>Ecology</term><term>Ectoparasite</term><term>Ectoparasite availability</term><term>Ectoparasite loads</term><term>Edinburgh</term><term>Edward llwyd building</term><term>Elacatinus evelynae</term><term>Electronic data storage tags</term><term>Energetic costs</term><term>Energy expenditure</term><term>Environmental</term><term>Environmental conditions</term><term>Environmental extremes</term><term>European bitterling</term><term>Excysted metacercariae</term><term>Experimental control</term><term>Experimental zoology group</term><term>Familiar fish</term><term>Familiarity preferences</term><term>Feed intake</term><term>Female bitterling</term><term>Female quality</term><term>Fertilization</term><term>Field data</term><term>Filial cannibalism</term><term>First evidence</term><term>Fish</term><term>Fish behaviour</term><term>Fish biology</term><term>Fish cognition</term><term>Fish movements</term><term>Fish species</term><term>Fish stocks</term><term>Fish welfare</term><term>Fisheries research</term><term>Fisheries society</term><term>Fishery</term><term>Flow regions</term><term>Focal fish</term><term>Food availability</term><term>Food resources</term><term>Foraging</term><term>Foraging behaviour</term><term>Freshwater</term><term>Freshwater laboratory</term><term>Freshwater mussels</term><term>Functional response</term><term>Future studies</term><term>Gadus morhua</term><term>Gasterosteus</term><term>Gasterosteus aculeatus</term><term>Genetic basis</term><term>Genetic differences</term><term>Gill chamber</term><term>Girardinichthys multiradiatus</term><term>Goby</term><term>Greater numbers</term><term>Growth rate</term><term>Guppy</term><term>Habitat</term><term>Habitat choice</term><term>Habitat preference</term><term>Hatchery</term><term>Hatchery fish</term><term>Helsinki</term><term>Homing behaviour</term><term>Honest signal</term><term>Host behaviour change</term><term>Important fish species</term><term>Individual differences</term><term>Individual fish</term><term>Internal fertilization</term><term>Intraspecific variability</term><term>Isle</term><term>Juvenile atlantic salmon</term><term>Juvenile sticklebacks</term><term>Karlskrona archipelago</term><term>Knipowitschia panizzae</term><term>Kyoto japan</term><term>Kyoto university</term><term>Laboratory experiments</term><term>Laboratory studies</term><term>Lake tana</term><term>Large males</term><term>Larger males</term><term>Larval dispersal</term><term>Late afternoon</term><term>Leeds</term><term>Life cycle</term><term>Light environments</term><term>Light intensities</term><term>Light intensity</term><term>Littoral zone</term><term>Louis compton miall building</term><term>Lowestoft</term><term>Lowestoft laboratory</term><term>Main building</term><term>Male</term><term>Male competition</term><term>Male mating success</term><term>Male sticklebacks</term><term>Marine biology</term><term>Marine ecology</term><term>Marine science</term><term>Marine species</term><term>Mating success</term><term>Mating system</term><term>Mating systems</term><term>Migratory behaviour</term><term>Model species</term><term>Model system</term><term>Mosquito fish</term><term>Mussel</term><term>Natural populations</term><term>Natural resources</term><term>Neighbour</term><term>Nemachilus angorae</term><term>Nest opening</term><term>Network theory</term><term>Nocturnal foraging excursions</term><term>Normal distribution model</term><term>Normal stickleback males</term><term>Norwich</term><term>Nova scotia</term><term>Olfactory</term><term>Olfactory cues</term><term>Olfactory sensitivity</term><term>Original group</term><term>Other fish families</term><term>Other guppies</term><term>Other hand</term><term>Oviposition</term><term>Oviposition choices</term><term>Oviposition decisions</term><term>Oxygen levels</term><term>Pakefield road</term><term>Paper abstracts</term><term>Parablennius tentacularis</term><term>Paralichthys olivaceus</term><term>Parasite</term><term>Parasitic</term><term>Park place</term><term>Parr</term><term>Physiological condition</term><term>Piscivorous barbus</term><term>Plaice</term><term>Poecilia reticulata</term><term>Pool habitat</term><term>Population biology</term><term>Population densities</term><term>Population differences</term><term>Population dynamics</term><term>Population structure</term><term>Predation</term><term>Predator</term><term>Predator attack</term><term>Predator inspection</term><term>Predator inspection behaviour</term><term>Present data</term><term>Present study</term><term>Prey</term><term>Prey selection</term><term>Prey size</term><term>Putative prey</term><term>Queen mary</term><term>Recent work</term><term>Reproductive</term><term>Reproductive behaviour</term><term>Reproductive success</term><term>Resource competition</term><term>Results show</term><term>Rhodeus sericeus</term><term>River discharge</term><term>Salmo salar</term><term>Salmo trutta</term><term>Salmon</term><term>Salmon parr</term><term>Salmonid</term><term>Same time</term><term>Secondary males</term><term>Several species</term><term>Sexual selection</term><term>Shallow waters</term><term>Shoal</term><term>Shoaling</term><term>Shoaling behaviour</term><term>Shoaling tendency</term><term>Significant differences</term><term>Single males</term><term>Small groups</term><term>Sneaker males</term><term>Social behaviour</term><term>Social interactions</term><term>Social networks</term><term>Southern population</term><term>Species ranges</term><term>Sperm</term><term>Sperm cloud</term><term>Sperm competition</term><term>Sperm competition dynamics</term><term>Sperm expenditure</term><term>Sponge substrata</term><term>Stickleback</term><term>Stickleback gasterosteus aculeatus</term><term>Stream transport</term><term>Substrate embeddedness</term><term>Succursale centre ville</term><term>Testis</term><term>Tidal</term><term>Tidal streams</term><term>Trait</term><term>Transport mechanism</term><term>Trout</term><term>Turbot</term><term>Unfamiliar fish</term><term>Unfamiliar groups</term><term>Unknown individuals</term><term>Vertebrate</term><term>Vertebrate models</term><term>Vertebrate zoology</term><term>Visual cues</term><term>Visual isolation</term><term>Wageningen institute</term><term>Wales aberystwyth</term><term>Water flow rate</term><term>Water temperature</term><term>Water velocity</term><term>Wavelength spectrum</term><term>West mains road</term><term>Western australia</term><term>Wide range</term><term>Wild populations</term><term>Yellow stingray</term><term>Yellowfin shiner</term><term>Yugoslav part</term><term>Zoology</term><term>Zooplankton</term><term>Zooplankton density</term></keywords></textClass></profileDesc></teiHeader><front><div type="abstract" xml:lang="en">In this study the behavioural interaction between the bourgeois and the parasitic male of the grass goby, Zosterissor ophiocephalus, is investigated during spawning in the laboratory. Large grass goby males care for the eggs (bourgeoise males), whereas small males are believed to adopt an alternative mating tactic. The behavioural interaction between one large male spawning inside an artificial nest (a large plastic box buried in the sand provided with two entrance tubes opening on the substrate) and one small male, was investigated in five small male‐large male pairs. The small male performed parasitic activity in four replicates. The main activity of the parasitic male was staying still on the substrate by one nest opening (Waiting), usually followed by one or more attempts to enter the nest. Waiting was performed repeatedly by the parasitic male at both nest openings across the spawning period. The activity of the large male inside the nest consisted mainly of switching between spawning‐related activities (e.g. Upside‐down) and standing still inside one of the two entrance tubes of the nest (Patrolling). The analysis of temporal relationship among behavioural activities showed a positive relationship between the occurrence of Waiting and Patrolling in 3 out of 4 replicates, with Patrolling occurring more frequently at the nest opening at which the parasitic male was Waiting. Only 20% of all the intrusion attempts observed in the five replicates were successful, i.e. the parasitic male entered the burrow and performed egg‐fertilization movements. A significant emission of sounds by the bourgeois male, mostly associated with Patrolling, was documented. The function of the bourgeois male sound production during spawning is discussed.</div></front></TEI><istex><corpusName>wiley</corpusName><keywords><teeft><json:string>predator</json:string><json:string>fish biology</json:string><json:string>fisheries society</json:string><json:string>british isles</json:string><json:string>sperm</json:string><json:string>behavioural</json:string><json:string>paper abstracts</json:string><json:string>stickleback</json:string><json:string>fishery</json:string><json:string>ecology</json:string><json:string>cue</json:string><json:string>biological 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trout</json:string><json:string>zoology</json:string><json:string>freshwater laboratory</json:string><json:string>pakefield road</json:string><json:string>reproductive behaviour</json:string><json:string>light intensity</json:string><json:string>food resources</json:string><json:string>gasterosteus aculeatus</json:string><json:string>european bitterling</json:string><json:string>sperm expenditure</json:string><json:string>juvenile atlantic salmon</json:string><json:string>fish behaviour</json:string><json:string>salmon</json:string><json:string>anglia</json:string><json:string>tidal</json:string><json:string>feed intake</json:string><json:string>cleaning interactions</json:string><json:string>foraging behaviour</json:string><json:string>field data</json:string><json:string>results show</json:string><json:string>atlantic salmon</json:string><json:string>visual isolation</json:string><json:string>dominance rank</json:string><json:string>brook trout</json:string><json:string>water temperature</json:string><json:string>habitat choice</json:string><json:string>social interactions</json:string><json:string>czech republic</json:string><json:string>cardiff university</json:string><json:string>river discharge</json:string><json:string>significant differences</json:string><json:string>lake tana</json:string><json:string>social behaviour</json:string><json:string>fish movements</json:string><json:string>mating success</json:string><json:string>oviposition decisions</json:string><json:string>tidal streams</json:string><json:string>light intensities</json:string><json:string>lowestoft laboratory</json:string><json:string>biology</json:string><json:string>trout</json:string><json:string>vertebrate</json:string><json:string>isle</json:string><json:string>fish</json:string><json:string>dominant fish</json:string><json:string>model system</json:string><json:string>aquaculture science</json:string><json:string>predator inspection behaviour</json:string><json:string>marine science</json:string><json:string>freshwater mussels</json:string><json:string>migratory behaviour</json:string><json:string>mating systems</json:string><json:string>sneaker males</json:string><json:string>aberrant stickleback</json:string><json:string>female quality</json:string><json:string>honest signal</json:string><json:string>flow regions</json:string><json:string>excysted metacercariae</json:string><json:string>male sticklebacks</json:string><json:string>familiar fish</json:string><json:string>wales aberystwyth</json:string><json:string>edward llwyd building</json:string><json:string>marine species</json:string><json:string>cleaning stations</json:string><json:string>population biology</json:string><json:string>behavioural studies</json:string><json:string>main building</json:string><json:string>shoaling behaviour</json:string><json:string>karlskrona archipelago</json:string><json:string>network theory</json:string><json:string>salmo salar</json:string><json:string>cyprinid fishes</json:string><json:string>food availability</json:string><json:string>dominance hierarchies</json:string><json:string>habitat preference</json:string><json:string>growth rate</json:string><json:string>larval dispersal</json:string><json:string>population structure</json:string><json:string>genetic differences</json:string><json:string>common garden</json:string><json:string>cleaning gobies</json:string><json:string>fisheries research</json:string><json:string>danube river</json:string><json:string>individual fish</json:string><json:string>beaugregory damselfish</json:string><json:string>wavelength spectrum</json:string><json:string>functional response</json:string><json:string>body size</json:string><json:string>caribbean cleaning gobies</json:string><json:string>salmo trutta</json:string><json:string>rhodeus sericeus</json:string><json:string>foraging</json:string><json:string>centre</json:string><json:string>trait</json:string><json:string>familiarity preferences</json:string><json:string>olfactory sensitivity</json:string><json:string>2fisheries research services</json:string><json:string>park place</json:string><json:string>chaos theory</json:string><json:string>pool habitat</json:string><json:string>life cycle</json:string><json:string>homing behaviour</json:string><json:string>chemical cues</json:string><json:string>shallow waters</json:string><json:string>original group</json:string><json:string>unknown individuals</json:string><json:string>social networks</json:string><json:string>animal ecology</json:string><json:string>1cardiff school</json:string><json:string>wild populations</json:string><json:string>small groups</json:string><json:string>first evidence</json:string><json:string>unfamiliar groups</json:string><json:string>genetic basis</json:string><json:string>sperm cloud</json:string><json:string>unfamiliar fish</json:string><json:string>greater numbers</json:string><json:string>body mass</json:string><json:string>brood pouch</json:string><json:string>predator attack</json:string><json:string>internal fertilization</json:string><json:string>western australia</json:string><json:string>laboratory experiments</json:string><json:string>succursale centre ville</json:string><json:string>natural populations</json:string><json:string>wide range</json:string><json:string>mosquito fish</json:string><json:string>bartram hall</json:string><json:string>experimental control</json:string><json:string>energetic costs</json:string><json:string>better understanding</json:string><json:string>knipowitschia panizzae</json:string><json:string>juvenile sticklebacks</json:string><json:string>electronic data storage tags</json:string><json:string>stream transport</json:string><json:string>mating system</json:string><json:string>important fish species</json:string><json:string>population dynamics</json:string><json:string>resource competition</json:string><json:string>putative prey</json:string><json:string>large 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population dynamics</json:string><json:string>oviposition choices</json:string><json:string>environmental extremes</json:string><json:string>behavioural interactions</json:string><json:string>yellowfin shiner</json:string><json:string>water velocity</json:string><json:string>cleaner wrasses</json:string><json:string>predator inspection</json:string><json:string>aggressive mimicry</json:string><json:string>cleanerfish mimics</json:string><json:string>nova scotia</json:string><json:string>environmental conditions</json:string><json:string>nocturnal foraging excursions</json:string><json:string>ectoparasite loads</json:string><json:string>dalhousie university</json:string><json:string>chemical communication</json:string><json:string>focal fish</json:string><json:string>individual differences</json:string><json:string>buffer effect</json:string><json:string>elacatinus evelynae</json:string><json:string>sponge substrata</json:string><json:string>energy 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catfish</json:string><json:string>british isles paper abstracts</json:string><json:string>littoral zone</json:string><json:string>future studies</json:string><json:string>recent work</json:string><json:string>fish welfare</json:string><json:string>brook water velocity</json:string><json:string>different populations</json:string><json:string>late afternoon</json:string><json:string>ectoparasite availability</json:string><json:string>intraspecific variability</json:string><json:string>male competition</json:string><json:string>secondary males</json:string><json:string>physiological condition</json:string><json:string>paralichthys olivaceus</json:string><json:string>aggressive behaviour</json:string><json:string>kyoto university</json:string><json:string>kyoto japan</json:string><json:string>parablennius tentacularis</json:string><json:string>girardinichthys multiradiatus</json:string><json:string>population differences</json:string><json:string>acipenser ruthenus</json:string><json:string>yugoslav part</json:string><json:string>cognitive ability</json:string><json:string>fish cognition</json:string><json:string>1fisheries research services</json:string><json:string>normal stickleback males</json:string><json:string>charlottelund castle</json:string><json:string>behavioural interaction</json:string><json:string>nest opening</json:string><json:string>natural resources</json:string><json:string>visual cues</json:string><json:string>same time</json:string><json:string>shoaling tendency</json:string><json:string>different light intensities</json:string><json:string>danish institute</json:string><json:string>vertebrate zoology</json:string><json:string>atlantic salmon parr</json:string><json:string>early life history characteristics</json:string><json:string>species ranges</json:string><json:string>gill chamber</json:string><json:string>other hand</json:string><json:string>nemachilus angorae</json:string><json:string>larger males</json:string><json:string>yellow stingray</json:string><json:string>cerebellar function</json:string><json:string>vertebrate models</json:string><json:string>normal distribution model</json:string><json:string>marine ecology</json:string><json:string>prey</json:string><json:string>parasitic</json:string><json:string>habitat</json:string><json:string>leeds</json:string><json:string>brook</json:string><json:string>environmental</json:string><json:string>dynamics</json:string><json:string>male</json:string><json:string>coral</json:string></teeft></keywords><author><json:item><name>S. Malavasi</name><affiliations><json:string>(1Dept. of Scienze Ambientali, Università di Venezia, Castello 2737B, 30122 Venezia, Italy;</json:string></affiliations></json:item><json:item><name>M. Lugli</name><affiliations><json:string>2 Dept. of Biologia Evolutiva and Funzionale, Università di Parma, Viale delle Scienze, 1‐43100 Parma, Italy).</json:string></affiliations></json:item><json:item><name>P. Torricelli</name><affiliations><json:string>(1Dept. of Scienze Ambientali, Università di Venezia, Castello 2737B, 30122 Venezia, Italy;</json:string></affiliations></json:item><json:item><name>D. Mainardi</name><affiliations><json:string>(1Dept. of Scienze Ambientali, Università di Venezia, Castello 2737B, 30122 Venezia, Italy;</json:string></affiliations></json:item></author><articleId><json:string>JFB216BH</json:string></articleId><arkIstex>ark:/67375/WNG-LLQPH0GT-7</arkIstex><language><json:string>eng</json:string></language><originalGenre><json:string>abstract</json:string></originalGenre><abstract>In this study the behavioural interaction between the bourgeois and the parasitic male of the grass goby, Zosterissor ophiocephalus, is investigated during spawning in the laboratory. Large grass goby males care for the eggs (bourgeoise males), whereas small males are believed to adopt an alternative mating tactic. The behavioural interaction between one large male spawning inside an artificial nest (a large plastic box buried in the sand provided with two entrance tubes opening on the substrate) and one small male, was investigated in five small male‐large male pairs. The small male performed parasitic activity in four replicates. The main activity of the parasitic male was staying still on the substrate by one nest opening (Waiting), usually followed by one or more attempts to enter the nest. Waiting was performed repeatedly by the parasitic male at both nest openings across the spawning period. The activity of the large male inside the nest consisted mainly of switching between spawning‐related activities (e.g. Upside‐down) and standing still inside one of the two entrance tubes of the nest (Patrolling). The analysis of temporal relationship among behavioural activities showed a positive relationship between the occurrence of Waiting and Patrolling in 3 out of 4 replicates, with Patrolling occurring more frequently at the nest opening at which the parasitic male was Waiting. Only 20% of all the intrusion attempts observed in the five replicates were successful, i.e. the parasitic male entered the burrow and performed egg‐fertilization movements. A significant emission of sounds by the bourgeois male, mostly associated with Patrolling, was documented. The function of the bourgeois male sound production during spawning is discussed.</abstract><qualityIndicators><score>10</score><pdfWordCount>17483</pdfWordCount><pdfCharCount>110276</pdfCharCount><pdfVersion>1.4</pdfVersion><pdfPageCount>34</pdfPageCount><pdfPageSize>488 x 703 pts</pdfPageSize><refBibsNative>false</refBibsNative><abstractWordCount>267</abstractWordCount><abstractCharCount>1763</abstractCharCount><keywordCount>0</keywordCount></qualityIndicators><title>Alternative mating tactics and acoustic behaviour in the grass goby Zosterisessor ophiocephalus: a behavioural analysis of the interaction between the parasitic and the bourgeois male</title><genre><json:string>abstract</json:string></genre><host><title>Journal of Fish 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Malden, USA</pubPlace><date type="published" when="2003-12"></date></imprint></monogr></biblStruct></sourceDesc></fileDesc><profileDesc><abstract xml:lang="en" style="main"><p><hi rend="italic">Zosterissor ophiocephalus</hi><hi rend="italic">e.g</hi><hi rend="italic">i.e</hi><:t>In this study the behavioural interaction between the bourgeois and the parasitic male of the grass goby,</:t><:t>, is investigated during spawning in the laboratory. Large grass goby males care for the eggs (bourgeoise males), whereas small males are believed to adopt an alternative mating tactic. The behavioural interaction between one large male spawning inside an artificial nest (a large plastic box buried in the sand provided with two entrance tubes opening on the substrate) and one small male, was investigated in five small male‐large male pairs. The small male performed parasitic activity in four replicates. The main activity of the parasitic male was staying still on the substrate by one nest opening (Waiting), usually followed by one or more attempts to enter the nest. Waiting was performed repeatedly by the parasitic male at both nest openings across the spawning period. The activity of the large male inside the nest consisted mainly of switching between spawning‐related activities (</:t><:t>. Upside‐down) and standing still inside one of the two entrance tubes of the nest (Patrolling). The analysis of temporal relationship among behavioural activities showed a positive relationship between the occurrence of Waiting and Patrolling in 3 out of 4 replicates, with Patrolling occurring more frequently at the nest opening at which the parasitic male was Waiting. Only 20% of all the intrusion attempts observed in the five replicates were successful,</:t><:t>. the parasitic male entered the burrow and performed egg‐fertilization movements. A significant emission of sounds by the bourgeois male, mostly associated with Patrolling, was documented. 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Large grass goby males care for the eggs (bourgeoise males), whereas small males are believed to adopt an alternative mating tactic. The behavioural interaction between one large male spawning inside an artificial nest (a large plastic box buried in the sand provided with two entrance tubes opening on the substrate) and one small male, was investigated in five small male‐large male pairs. The small male performed parasitic activity in four replicates. The main activity of the parasitic male was staying still on the substrate by one nest opening (Waiting), usually followed by one or more attempts to enter the nest. Waiting was performed repeatedly by the parasitic male at both nest openings across the spawning period. The activity of the large male inside the nest consisted mainly of switching between spawning‐related activities (<i>e.g</i>. Upside‐down) and standing still inside one of the two entrance tubes of the nest (Patrolling). The analysis of temporal relationship among behavioural activities showed a positive relationship between the occurrence of Waiting and Patrolling in 3 out of 4 replicates, with Patrolling occurring more frequently at the nest opening at which the parasitic male was Waiting. Only 20% of all the intrusion attempts observed in the five replicates were successful, <i>i.e</i>. the parasitic male entered the burrow and performed egg‐fertilization movements. A significant emission of sounds by the bourgeois male, mostly associated with Patrolling, was documented. The function of the bourgeois male sound production during spawning is discussed.</p></abstract></abstractGroup></contentMeta></header></component></istex:document></istex:metadataXml><mods version="3.6"><titleInfo lang="en"><title>Alternative mating tactics and acoustic behaviour in the grass goby Zosterisessor ophiocephalus: a behavioural analysis of the interaction between the parasitic and the bourgeois male</title></titleInfo><titleInfo type="abbreviated" lang="en"><title>Paper Abstracts</title></titleInfo><titleInfo type="alternative" contentType="CDATA" lang="en"><title>Alternative mating tactics and acoustic behaviour in the grass goby Zosterisessor ophiocephalus: a behavioural analysis of the interaction between the parasitic and the bourgeois male</title></titleInfo><name type="personal"><namePart type="given">S.</namePart><namePart type="family">Malavasi</namePart><affiliation>(1Dept. of Scienze Ambientali, Università di Venezia, Castello 2737B, 30122 Venezia, Italy;</affiliation><role><roleTerm type="text">author</roleTerm></role></name><name type="personal"><namePart type="given">M.</namePart><namePart type="family">Lugli</namePart><affiliation>2 Dept. of Biologia Evolutiva and Funzionale, Università di Parma, Viale delle Scienze, 1‐43100 Parma, Italy).</affiliation><role><roleTerm type="text">author</roleTerm></role></name><name type="personal"><namePart type="given">P.</namePart><namePart type="family">Torricelli</namePart><affiliation>(1Dept. of Scienze Ambientali, Università di Venezia, Castello 2737B, 30122 Venezia, Italy;</affiliation><role><roleTerm type="text">author</roleTerm></role></name><name type="personal"><namePart type="given">D.</namePart><namePart type="family">Mainardi</namePart><affiliation>(1Dept. of Scienze Ambientali, Università di Venezia, Castello 2737B, 30122 Venezia, Italy;</affiliation><role><roleTerm type="text">author</roleTerm></role></name><typeOfResource>text</typeOfResource><genre type="abstract" displayLabel="abstract" authority="ISTEX" authorityURI="https://content-type.data.istex.fr" valueURI="https://content-type.data.istex.fr/ark:/67375/XTP-HPN7T1Q2-R">abstract</genre><originInfo><publisher>Blackwell Science Ltd/Inc</publisher><place><placeTerm type="text">Oxford, UK; Malden, USA</placeTerm></place><dateIssued encoding="w3cdtf">2003-12</dateIssued><copyrightDate encoding="w3cdtf">2003</copyrightDate></originInfo><language><languageTerm type="code" authority="rfc3066">en</languageTerm><languageTerm type="code" authority="iso639-2b">eng</languageTerm></language><physicalDescription><extent unit="figures">0</extent><extent unit="tables">0</extent><extent unit="formulas">0</extent><extent unit="references">0</extent><extent unit="linksCrossRef">0</extent><extent unit="words">0</extent></physicalDescription><abstract lang="en">In this study the behavioural interaction between the bourgeois and the parasitic male of the grass goby, Zosterissor ophiocephalus, is investigated during spawning in the laboratory. Large grass goby males care for the eggs (bourgeoise males), whereas small males are believed to adopt an alternative mating tactic. The behavioural interaction between one large male spawning inside an artificial nest (a large plastic box buried in the sand provided with two entrance tubes opening on the substrate) and one small male, was investigated in five small male‐large male pairs. The small male performed parasitic activity in four replicates. The main activity of the parasitic male was staying still on the substrate by one nest opening (Waiting), usually followed by one or more attempts to enter the nest. Waiting was performed repeatedly by the parasitic male at both nest openings across the spawning period. The activity of the large male inside the nest consisted mainly of switching between spawning‐related activities (e.g. Upside‐down) and standing still inside one of the two entrance tubes of the nest (Patrolling). The analysis of temporal relationship among behavioural activities showed a positive relationship between the occurrence of Waiting and Patrolling in 3 out of 4 replicates, with Patrolling occurring more frequently at the nest opening at which the parasitic male was Waiting. Only 20% of all the intrusion attempts observed in the five replicates were successful, i.e. the parasitic male entered the burrow and performed egg‐fertilization movements. A significant emission of sounds by the bourgeois male, mostly associated with Patrolling, was documented. The function of the bourgeois male sound production during spawning is discussed.</abstract><relatedItem type="host"><titleInfo><title>Journal of Fish Biology</title></titleInfo><genre type="journal" authority="ISTEX" authorityURI="https://publication-type.data.istex.fr" valueURI="https://publication-type.data.istex.fr/ark:/67375/JMC-0GLKJH51-B">journal</genre><identifier type="ISSN">0022-1112</identifier><identifier type="eISSN">1095-8649</identifier><identifier type="DOI">10.1111/(ISSN)1095-8649</identifier><identifier type="PublisherID">JFB</identifier><part><date>2003</date><detail type="volume"><caption>vol.</caption><number>63</number></detail><detail type="supplement"><caption>Suppl. no.</caption><number>s1</number></detail><extent unit="pages"><start>253</start><end>253</end><total>1</total></extent></part></relatedItem><identifier type="istex">B8B14B519AAF324A4AD9B397335BAF6075D12838</identifier><identifier type="ark">ark:/67375/WNG-LLQPH0GT-7</identifier><identifier type="DOI">10.1111/j.1095-8649.2003.216bh.x</identifier><identifier type="ArticleID">JFB216BH</identifier><recordInfo><recordContentSource authority="ISTEX" authorityURI="https://loaded-corpus.data.istex.fr" valueURI="https://loaded-corpus.data.istex.fr/ark:/67375/XBH-L0C46X92-X">wiley</recordContentSource><recordOrigin>Blackwell Science Ltd/Inc</recordOrigin></recordInfo></mods><json:item><extension>json</extension><original>false</original><mimetype>application/json</mimetype><uri>https://api.istex.fr/document/B8B14B519AAF324A4AD9B397335BAF6075D12838/metadata/json</uri></json:item></metadata><serie></serie></istex></record>Pour manipuler ce document sous Unix (Dilib)
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