Disentangling social networks from spatiotemporal dynamics: the temporal structure of a dolphin society

Social networks are static illustrations of dynamic societies, within which social interactions are constantly changing. Fundamental sources of variation include ranging behaviour and temporal demographic changes. Spatiotemporal dynamics can favour or limit opportunities for individuals to interact, and then a network may not essentially represent social processes. We examined whether a social network can embed such nonsocial effects in its topology, whereby emerging modules depict spatially or temporally segregated individuals. To this end, we applied a combination of spatial, temporal and demographic analyses to a long-term study of the association patterns of Guiana dolphins, Sotalia guianensis. We found that association patterns are organized into a modular social network. Space use was unlikely to reflect these modules, since dolphins' ranging behaviour clearly overlapped. However, a temporal demographic turnover, caused by the exit/entrance of individuals (most likely emigration/immigration), defined three modules of associations occurring at different times. Although this factor could mask real social processes, we identified the temporal scale that allowed us to account for these demographic effects. By looking within this turnover period (32 months), we assessed fission-fusion dynamics of the poorly known social organization of Guiana dolphins. We highlight that spatiotemporal dynamics can strongly influence the structure of social networks. Our findings show that hypothetical social units can emerge due to the temporal opportunities for individuals to interact. Therefore, a thorough search for a satisfactory spatiotemporal scale that removes such nonsocial noise is critical when analysing a social system. (C) 2012 The Association for the Study of Animal Behaviour. Published by Elsevier Ltd. All rights reserved.

Consolidation of international guidelines for the management of canine populations in urban areas and proposal of performance indicators

Consolidation of international guidelines for the management of canine populations in urban areas and proposal of performance indicators The objective of this study is to propose a generic program for the management of urban canine populations with suggestion of performance indicators. The following international guidelines on canine population management were revised and consolidated: World Health Organization, World Organisation for Animal Health, World Society for the Protection of Animals, International Companion Animal Management Coalition, and the Food and Agriculture Organization. Management programs should cover: situation diagnosis, including estimates of population size; social participation with involvement of various sectors in the planning and execution of strategies; educational actions to promote humane values, animal welfare, community health, and responsible ownership (through purchase or adoption); environmental and waste management to eliminate sources of food and shelter; registration and identification of animals; animal health care, reproductive control; prevention and control of zoonoses; control of animal commerce; management of animal behavior and adequate solutions for abandoned animals; and laws regulating responsible ownership, prevention of abandonment and zoonoses. To monitor these actions, four groups of indicators are suggested: animal population indicators, human/animal interaction indicators, public service indicators, and zoonosis indicators. The management of stray canine populations requires political, sanitary, ethologic, ecologic, and humanitarian strategies that are socially acceptable and environmentally sustainable. Such measures must also include the control of zoonoses such as rabies and leishmaniasis, considering the concept of "one health," which benefits both the animals and people in the community.

Predicting the connectivity of primate cortical networks from topological and spatial node properties

Abstract Background The organization of the connectivity between mammalian cortical areas has become a major subject of study, because of its important role in scaffolding the macroscopic aspects of animal behavior and intelligence. In this study we present a computational reconstruction approach to the problem of network organization, by considering the topological and spatial features of each area in the primate cerebral cortex as subsidy for the reconstruction of the global cortical network connectivity. Starting with all areas being disconnected, pairs of areas with similar sets of features are linked together, in an attempt to recover the original network structure. Results Inferring primate cortical connectivity from the properties of the nodes, remarkably good reconstructions of the global network organization could be obtained, with the topological features allowing slightly superior accuracy to the spatial ones. Analogous reconstruction attempts for the C. elegans neuronal network resulted in substantially poorer recovery, indicating that cortical area interconnections are relatively stronger related to the considered topological and spatial properties than neuronal projections in the nematode. Conclusion The close relationship between area-based features and global connectivity may hint on developmental rules and constraints for cortical networks. Particularly, differences between the predictions from topological and spatial properties, together with the poorer recovery resulting from spatial properties, indicate that the organization of cortical networks is not entirely determined by spatial constraints.

Spatio-temporal credit assignment in population learning

Learning by reinforcement is important in shaping animal behavior, and in particular in behavioral decision making. Such decision making is likely to involve the integration of many synaptic events in space and time. However, using a single reinforcement signal to modulate synaptic plasticity, as suggested in classical reinforcement learning algorithms, a twofold problem arises. Different synapses will have contributed differently to the behavioral decision, and even for one and the same synapse, releases at different times may have had different effects. Here we present a plasticity rule which solves this spatio-temporal credit assignment problem in a population of spiking neurons. The learning rule is spike-time dependent and maximizes the expected reward by following its stochastic gradient. Synaptic plasticity is modulated not only by the reward, but also by a population feedback signal. While this additional signal solves the spatial component of the problem, the temporal one is solved by means of synaptic eligibility traces. In contrast to temporal difference (TD) based approaches to reinforcement learning, our rule is explicit with regard to the assumed biophysical mechanisms. Neurotransmitter concentrations determine plasticity and learning occurs fully online. Further, it works even if the task to be learned is non-Markovian, i.e. when reinforcement is not determined by the current state of the system but may also depend on past events. The performance of the model is assessed by studying three non-Markovian tasks. In the first task, the reward is delayed beyond the last action with non-related stimuli and actions appearing in between. The second task involves an action sequence which is itself extended in time and reward is only delivered at the last action, as it is the case in any type of board-game. The third task is the inspection game that has been studied in neuroeconomics, where an inspector tries to prevent a worker from shirking. Applying our algorithm to this game yields a learning behavior which is consistent with behavioral data from humans and monkeys, revealing themselves properties of a mixed Nash equilibrium. The examples show that our neuronal implementation of reward based learning copes with delayed and stochastic reward delivery, and also with the learning of mixed strategies in two-opponent games.

Spatio-temporal credit assignment in population learning

Learning by reinforcement is important in shaping animal behavior. But behavioral decision making is likely to involve the integration of many synaptic events in space and time. So in using a single reinforcement signal to modulate synaptic plasticity a twofold problem arises. Different synapses will have contributed differently to the behavioral decision and, even for one and the same synapse, releases at different times may have had different effects. Here we present a plasticity rule which solves this spatio-temporal credit assignment problem in a population of spiking neurons. The learning rule is spike time dependent and maximizes the expected reward by following its stochastic gradient. Synaptic plasticity is modulated not only by the reward but by a population feedback signal as well. While this additional signal solves the spatial component of the problem, the temporal one is solved by means of synaptic eligibility traces. In contrast to temporal difference based approaches to reinforcement learning, our rule is explicit with regard to the assumed biophysical mechanisms. Neurotransmitter concentrations determine plasticity and learning occurs fully online. Further, it works even if the task to be learned is non-Markovian, i.e. when reinforcement is not determined by the current state of the system but may also depend on past events. The performance of the model is assessed by studying three non-Markovian tasks. In the first task the reward is delayed beyond the last action with non-related stimuli and actions appearing in between. The second one involves an action sequence which is itself extended in time and reward is only delivered at the last action, as is the case in any type of board-game. The third is the inspection game that has been studied in neuroeconomics. It only has a mixed Nash equilibrium and exemplifies that the model also copes with stochastic reward delivery and the learning of mixed strategies.

Investigation of Rudimentary Meta-Cognition in Lion-Tailed Macaques and Tufted Capuchins

Meta-cognition, or "thinking about thinking," has been studied extensively in humans, but very little is known about the process in animals. Although great apes and rhesus macaques (Macaca mulatta) have demonstrated multiple apparently meta-cognitive abilities, other species have either been largely ignored or failed to convincingly display meta-cognitive traits. Recent work by Marsh, however, raised the possibility that some species may possess rudimentary or partial forms of meta-cognition. This thesis sought to further investigate this possibility by running multiple comparative experiments. The goal of the first study was to examine whether lion-tailed macaques, a species that may have a rudimentary form of meta-cognition, are able to use an uncertainty response adaptively, and if so, whether they could use the response flexibly when the stimuli for which the subjects should be uncertain changed. The macaques' acquisition of the initial discrimination task is ongoing, and as such there were not yet data to support a conclusion either way. In the second study, tufted capuchins were required to locate a food reward hidden beneath inverted cups that sat on a Plexiglas tray. In some conditions the capuchins were shown where the food was hidden, in others they could infer its location, and in yet others they were not given information about the location of the food. On all trials, however, capuchins could optionally seek additional information by looking up through the Plexiglas into the cups. In general, capuchins did this less often when they were shown the food reward, but not when they could infer the reward's location. These data suggest capuchins only meta-cognitively control their information seeking in some conditions, and thus, add support to the potential for a rudimentary form of meta-cognition. In convergence with other studies, these results may represent early models for rudimentary meta-cognition, although viable alternative explanations still remain.

Origins of the word "phenology"

Observing and documenting life cycle stages of plants and animals have been tradition and necessity for humans throughout history. Phenological observations—as called by their modern scientific name—were key to successful hunting and farming because the precise knowledge of animal behavior and plant growth, as well as their timing with changing seasons, was critical for survival. In today's context of environmental awareness and climate change research, phenological observations have become prime indicators of documenting altered life cycles due to environmental change in disciplines from biology to climatology, geography, and environmental history. Observations on the ground, from space, and from models of different complexity describe intra-annual and interannual changes of life cycles at individual, pixel, or grid box scale.

Dissection of floral pollination syndromes in petunia

Animal-mediated pollination is essential in the reproductive biology of many flowering plants and tends to be associated with pollination syndromes, sets of floral traits that are adapted to particular groups of pollinators. The complexity and functional convergence of various traits within pollination syndromes are outstanding examples of biological adaptation, raising questions about their mechanisms and origins. In the genus Petunia, complex pollination syndromes are found for nocturnal hawkmoths (P. axillaris) and diurnal bees (P. integrifolia), with characteristic differences in petal color, corolla shape, reproductive organ morphology, nectar quantity, nectar quality, and fragrance. We dissected the Petunia syndromes into their most important phenotypic and genetic components. They appear to include several distinct differences, such as cell-growth and cell-division patterns in the basal third of the petals, elongation of the ventral stamens, nectar secretion and nectar sugar metabolism, and enzymatic differentiation in the phenylpropanoid pathway. In backcross-inbred lines of species-derived chromosome segments in a transposon tagging strain of P. hybrida, one to five quantitative trait loci were identified for each syndrome component. Two loci for stamen elongation and nectar volume were confirmed in introgression lines and showed large allelic differences. The combined data provide a framework for a detailed understanding of floral syndromes from their developmental and molecular basis to their impact on animal behavior. With its molecular genetic tools, this Petunia system provides a novel venue for a pattern of adaptive radiation that is among the most characteristic of flowering plants.

Play in Rats: Association across Contexts and Types , and Analysis of Structure.

Play has been proposed as a promising indicator of positive animal welfare. We aimed to study play in rats across contexts (conspecific/heterospecific) and types (social: pinning, being pinned; solitary: scampering), and we investigated its structure using behavioral sequence analysis. Group-housed (three per cage) adolescent male Lister Hooded rats (n = 21) were subjected to a Play-In-Pairs test: after a 3 hour isolation period, a pair of cage-mates was returned to the home cage and both social and solitary play were scored for 20 min. This procedure was repeated for each pair combination across three consecutive days, and individual play scores were calculated. Heterospecific play was measured using a Tickling test: rats were individually tickled by the experimenter through bouts of gentle, rapid finger movements on their underside, and the number of positive 50 kHz frequency modulated vocalizations and experimenter-directed approach behaviors were recorded. Both of the above tests were compared with social play in the home cage. While conspecific play in both the Play-In-Pairs test and home cage were correlated, both seemed to be unrelated to heterospecific play in the Tickling test. During the Play-In-Pairs test, although both solitary and social play types occurred, they were unrelated, and solitary locomotor play of one rat did not predict the subsequent play behavior of its cage mate. Analysis of play structure revealed that social play occurred more often in bouts of repeated behaviors while solitary play sequences did not follow a specific pattern. If play is to be used as an indicator of positive welfare in rats, context, type and structure differences should be taken into account.

Ahead of the Game: Middle and Upper Palaeolithic Hunting Behaviors in the Southern Caucasus

Over the past several decades a variety of models have been proposed to explain perceived behavioral and cognitive differences between Neanderthals and modern humans. A key element in many of these models and one often used as a proxy for behavioral “modernity” is the frequency and nature of hunting among Palaeolithic populations. Here new archaeological data from Ortvale Klde, a late Middle–early Upper Palaeolithic rockshelter in the Georgian Republic, are considered, and zooarchaeological methods are applied to the study of faunal acquisition patterns to test whether they changed significantly from the Middle to the Upper Palaeolithic. The analyses demonstrate that Neanderthals and modern humans practiced largely identical hunting tactics and that the two populations were equally and independently capable of acquiring and exploiting critical biogeographical information pertaining to resource availability and animal behavior. Like lithic techno-typological traditions, hunting behaviors are poor proxies for major behavioral differences between Neanderthals and modern humans, a conclusion that has important implications for debates surrounding the Middle–Upper Palaeolithic transition and what features constitute “modern” behavior. The proposition is advanced that developments in the social realm of Upper Palaeolithic societies allowed the replacement of Neanderthals in the Caucasus with little temporal or spatial overlap and that this process was widespread beyond traditional topographic and biogeographical barriers to Neanderthal mobility.

Minimum size limit for useful locomotion by free-swimming microbes

Formulas are derived for the effect of size on a free-swimming microbe’s ability to follow chemical, light, or temperature stimuli or to disperse in random directions. The four main assumptions are as follows: (i) the organisms can be modeled as spheres, (ii) the power available to the organism for swimming is proportional to its volume, (iii) the noise in measuring a signal limits determination of the direction of a stimulus, and (iv) the time available to determine stimulus direction or to swim a straight path is limited by rotational diffusion caused by Brownian motion. In all cases, it is found that there is a sharp size limit below which locomotion has no apparent benefit. This size limit is estimated to most probably be about 0.6 μm diameter and is relatively insensitive to assumed values of the other parameters. A review of existing descriptions of free-floating bacteria reveals that the smallest of 97 motile genera has a mean length of 0.8 μm, whereas 18 of 94 nonmotile genera are smaller. Similar calculations have led to the conclusion that a minimum size also exists for use of pheromones in mate location, although this size limit is about three orders of magnitude larger. In both cases, the application of well-established physical laws and biological generalities has demonstrated that a common feature of animal behavior is of no use to small free-swimming organisms.

Variação sazonal do metabolismo energético no primeiro ciclo anual de lagartos teiú Tupinambis merianae: correlatos com atividades diárias, adiposidade e proteção antioxidante

Lagartos teiú eclodem no verão e enfrentam o desafio de crescer e armazenar substratos em um curto período de tempo, antes do início do período de jejum e depressão metabólica (≈80%) a temperaturas amenas durante o inverno (≈17 °C). No despertar, o aumento do metabolismo e a reperfusão de órgãos favoreceriam a ocorrência de estresse oxidativo. Na primeira parte do presente estudo investigou−se os ajustes que compatibilizam as demandas em teiús neonatos, especialmente na pré-hibernação, por meio da gravação do comportamento em vídeo e da análise da massa dos corpos gordurosos abdominais e do nível plasmático de corticosterona (CORT) durante o primeiro ciclo anual. No início do outono a massa corpórea dos teiús foi 27 g e o comprimento rostro−cloacal 9,3 cm e aumentaram 40% e 20%, respectivamente, ao longo do outono, enquanto que as taxas diminuíram progressivamente até atingirem o valor zero no início do inverno. Na primavera, a massa corpórea dos teiús aumentou 80% em relação ao despertar e dobrou em relação ao final do verão; o comprimento acumulou um aumento de 27% em relação ao final do verão. A massa relativa dos corpos gordurosos foi 3,7% no início do outono e diminuiu nos meses subsequentes; no despertar, este estoque acumulou uma perda de 63% da sua massa. No início do outono 74% dos teiús estavam ativos por 4,7 h e permaneceram 2 h assoalhando diariamente; ao longo do outono o número de animais ativos e o tempo em atividade diminuíram até que todos se tornaram inativos. Na primavera 83% dos teiús estavam ativos por 7 h e permaneceram 4 h assoalhando. Um padrão sazonal similar foi observado na atividade locomotora e na alimentação. No outono, a alimentação cessou antes da atividade diária e os teiús tornaram−se afágicos algumas semanas antes da entrada em hibernação. Os maiores níveis de CORT foram observados no início do outono, reduzindo progressivamente até valores 75 e 86% menores na dormência e despertar, respectivamente; na primavera os níveis de CORT foram 32% menores em comparação com o início do outono. Este padrão sugere um papel da CORT nos ajustes que promovem a ingestão de alimento e a deposição de substratos energéticos no outono. A redução da atividade geral no final do outono contribuiria para a economia energética e manutenção da massa corpórea, apesar da redução da ingestão de alimento. O curso temporal das alterações fisiológicas e comportamentais em neonatos reforça a ideia de que a dormência sazonal nos teiús é o resultado da expressão de um ritmo endógeno. Na segunda parte do estudo foi investigada a hipótese de que ocorreriam ajustes das defesas antioxidantes durante a hibernação, em antecipação ao despertar. Foram analisados marcadores de estresse oxidativo e antioxidantes em vários órgãos de teiús em diferentes fases do primeiro ciclo anual. A CS, um indicador do potencial oxidante, não variou no fígado e foi menor no rim e no pulmão na hibernação. As enzimas antioxidantes revelaram (1) um efeito abrangente de redução das taxas na hibernação e despertar; por exemplo, GR e CAT foram menores em todos órgãos analisados e a GST tendeu a diminuir no fígado e no rim, embora constante no coração e no pulmão. A G6PDH no fígado e no rim não variou. (2) No fígado, a GST, a Se−GPX e o teor de TBARS foram maiores na atividade de outono em relação à primavera e a Se−GPX permaneceu elevada na hibernação. (3) No fígado, a SOD foi maior na hibernação e despertar em relação ao outono e a Mn−SOD seguiu este padrão. Em contraste, no rim, coração e pulmão a SOD foi menor na hibernação e as taxas se recuperaram no coração e pulmão no despertar. A Mn−SOD seguiu este padrão no pulmão. A concentração e o estado redox da glutationa não variaram no fígado, rim e coração; no pulmão o teor de Eq−GSH e GSH foi menor na hibernação, com tendência à recuperação no despertar. O teor de PC no rim foi maior na hibernação e diminuiu no despertar. No fígado, as alterações no jejum se assemelham às sazonais, como sugerem a inibição da CAT e GR e aumento da Se−GPX. Os efeitos do jejum na primavera no rim diferem dos efeitos sazonais, como sugerem a redução do teor de Eq−GSH e GSH e o aumento da razão GSSG:GSH, a redução da G6PDH e o aumento de PC. No conjunto, houve um efeito predominante de redução das taxas enzimáticas na hibernação e no despertar, exceto pelas taxas aumentadas da SOD e Se−GPX no fígado e pela recuperação da SOD no coração e da GR, SOD e Mn−SOD no pulmão no despertar. As elevadas taxas das enzimas antioxidantes no teiú em comparação a outros ectotermos e a ausência de evidências de estresse oxidativo no despertar sugerem que a atividade enzimática remanescente é suficiente para prevenir danos aos tecidos face às flutuações do metabolismo

Comportamento e desempenho sexual de suínos reprodutores criados em ambientes enriquecidos

Este trabalho buscou avaliar o comportamento e o desempenho sexual de suínos machos de linhas puras e cruzadas, criados com e sem a utilização de enriquecimento ambiental, na fase de crescimento. A pesquisa foi dividida em duas etapas, que compreenderam a fase de crescimento dos animais e o treinamento para coleta de sêmen. Na fase de crescimento, 128 machos foram alojados em ambientes enriquecidos ou estéreis. Utilizou-se como enriquecimento ambiental correntes suspensas, galão de cinco litros suspenso e um galão de 50 litros solto no piso. Esses objetos foram oferecidos de forma alternada e cada um ficou disponível na baia por um período de 30 dias. Na primeira etapa foram registrados o comportamento dos animais, os escores de lesão e a massa corporal. Após a fase de crescimento, foram escolhidos aleatoriamente 32 animais aprovados na seleção genética para serem avaliados durante o treinamento para coleta de sêmen. O treinamento ocorreu durante seis dias consecutivos e cada animal foi treinado por três vezes em dias alternados. Durante o treinamento para a coleta de sêmen, o comportamento animal, as relações humano-animal, o volume do ejaculado e os níveis de testosterona e cortisol foram registrados. Como respostas na fase de crescimento, verificou-se que, mesmo utilizando uma combinação de objetos, os suínos se habituaram rapidamente a eles e a frequência de manipulação diminuiu após o primeiro período para todos os objetos. Observamos que o ambiente enriquecido foi eficaz na redução dos comportamentos agonísticos e mordedura de cauda e orelha para os animais puros e cruzados, e isso consequentemente reduziu a quantidade e severidade de lesões de pele. Na fase de treinamento para coleta de sêmen, os resultados demonstraram que o comportamento sexual dos animais foi influenciado pelas linhas genéticas, sendo assim, observou-se que os machos de linha cruzada tiveram maior facilidade durante o treinamento para coleta de sêmen e apresentaram maior média do escore de libido, diferindo das linhas puras (P<0,001). Verificou-se que não houve diferença na média do escore de libido entre os tratamentos com e sem enriquecimento ambiental (P=0,276), porém, os tratamentos com enriquecimento tiveram o menor número de animais treinados. Dessa forma, os resultados indicam que o ambiente enriquecido com uma combinação de enriquecimentos pontuais (objetos) é uma estratégia eficaz para aumentar o comportamento exploratório e reduzir os comportamentos agonísticos e anormais na fase de crescimento. Mas, por outro lado, os animais criados em ambientes enriquecidos tiveram um pior desempenho sexual durante o treinamento para coleta de sêmen.

Infecção concomitante experimental de Rattus norvegicus por Toxocara canis e Toxoplasma gondii: estudo comportamental e histopatológico

A hipótese de \"manipulação comportamental\" supõe que um parasito pode alterar o comportamento de seu hospedeiro visando aumentar a probabilidade de completar seu ciclo evolutivo. Tais alterações aumentariam a taxa de transmissão hospedeirohospedeiro, assegurando ao parasito ou a seus propágulos o encontro de novo hospedeiro. A possibilidade de infecções parasitárias provocarem mudanças comportamentais em seus hospedeiros e a elevada frequência com que o acometimento de seres humanos por larvas de Toxocara e cistos de Toxoplasma ocorre, têm chamado à atenção de pesquisadores interessados no estudo das relações hospedeiro-parasita. Na infecção por Toxoplasma gondii e Toxocara canis, cistos e larvas estão presentes em diversos locais anatômicos incluindo musculatura, coração, pulmões, olhos e cérebro. A presença de parasitos no cérebro dá oportunidade de manipulação do comportamento do hospedeiro. Entretanto, não se sabe qual ou quais mecanismos estão envolvidos no processo de manipulação do comportamento. Os objetivos do presente estudo foram verificar alterações na ansiedade, medo, memória e aprendizagem de Rattus norvegicus experimentalmente infectados por Toxocara canis e/ou Toxoplasma gondii em dois períodos após infecção, bem como a localização das larvas e cistos e presença de placas beta amiloide ( A) na região do hipocampo no tecido cerebral desses roedores corado pela técnica de Hematoxilina e Eosina (HE), e Vermelho de Congo, respectivamente. Foram utilizadas 40 exemplares fêmeas da espécie Rattus norvegicus, com seis a oito semanas. Os animais foram divididos em quatro grupos: Toxocara - 10 ratos infectados com 300 ovos de Toxocara canis, Toxoplasma -10 ratos infectados com 10 cistos de Toxoplasma gondii, Infecção dupla - 10 ratos infectados com 300 ovos de Toxocara canis e 10 cistos de Toxoplasma gondii, e controle - 10 ratos sem infecção. Nos dias 40, 41, 70 e 71 após a infecção, os animais dos grupos infectados e controle foram submetidos à avaliação no Labirinto em Cruz Elevado e Campo aberto. Aos 120 após infecção foi feita avaliação da memória, aprendizado e aversão a urina de gato dos animais no Labirinto de Barnes. No final das análises comportamentais os animais foram levados a eutanásia para retirada do cérebro e confecção dos cortes histológicos preparados em HE e Vermelho de Congo. Os resultados mostraram efeito ansiolítico para ambas as infecções, principalmente para Toxoplasma gondii. Não houve comprometimento da memória e aprendizado no LB, porém os animais infectados por Toxocara canis ou Toxoplasma gondii apresentaram menor tempo para encontrar a toca com urina e entrar nela. A leitura dos cortes histológicos corados com HE mostraram larvas de Toxocara canis e cistos de Toxoplasma gondii em regiões do sistema nervoso central dos animais relacionadas com memória e aprendizado. As lâminas coradas com Vermelho de Congo apresentaram placas beta amiloides ( A) em metade dos animais infectados por Toxoplasma gondii. Conclui-se que a infecção por ambos os parasitos apresenta efeito ansiolítico quando ocorre infecção única. Quando a Infecção ocorre concomitantemente há modulação no comportamento. Além disso, ratas infectadas com infecção única apresentam-se menos aversivas à urina de gatos.