Potential effects of triclosan on spatial displacement and local population decline of the fish Poecilia reticulata using a non-forced system

Silva, Daniel C. V. R.; Araújo, Cristiano V.M.; López-Doval, Júlio C.; Neto, Morum Bernardino; Silva, Flávio T.; Paiva, Teresa Cristina Brazil de; Pompêo, Marcelo Luiz Martins

doi:10.1016/j.chemosphere.2017.06.002

Cited by 35 publications

(31 citation statements)

References 40 publications

Supporting

Mentioning

Contrasting

Unclassified

Order By: Relevance

“…Later, Moreira‐Santos et al () improved that system to be used with small fish, and Rosa et al () proposed an alternative static system, with no pump, thus preventing any influence of water flow on the displacement of organisms. This recent alternative of a static linear system has been widely described in studies of contamination‐driven spatial avoidance (Araújo et al , , , 2016b, 2014c; Vasconcelos et al ; Silva et al , ). Compartments forming the linear system can be manually constructed from 2 plastic bottles glued at their cut‐off bases using white silicon and connected at the mouths to create a multicompartmented system, or else borosilicate glass can be used, as described by Silva et al ().…”

Section: Nonforced Multicompartmented Exposure Systemsmentioning

confidence: 99%

“…A laboratory study using the fish P . reticulata showed that an immediate population decline of approximately 40% might occur due to avoidance (with no influence from mortality) at environmentally relevant triclosan concentrations (<2 μg L −1 ; Silva et al ). By using either acute or chronic responses, the integration of both forced and nonforced approaches might improve our understanding of the population decline expected to occur when organisms are exposed to and are able to detect contamination.…”

Section: Integrating Ecological Concepts To Improve Erasmentioning

confidence: 99%

See 1 more Smart Citation

Spatial avoidance as a response to contamination by aquatic organisms in nonforced, multicompartmented exposure systems: A complementary approach to the behavioral response

Araújo¹,

Blasco²

2018

Enviro Toxic and Chemistry

Self Cite

View full text Add to dashboard Cite

The idea that the hazard of contaminants is exclusively related to their toxic effects does not consider the fact that some organisms can avoid contamination, preventing toxicity. Although inferences about avoidance are made in most behavioral ecotoxicology studies, assessment of the real spatial displacement (organisms moving toward another habitat to escape contamination) is difficult due to the type of exposure (confined and mandatory) used in the bioassays: a forced exposure approach. A complementary approach using nonforced exposure systems to assess how contaminants affect the spatial distribution of organisms in a bicompartmented (toxic or nontoxic) environment has long been described. Recently, this nonforced approach has been developed to include a multi compartmented system in which different samples can be simultaneously tested. The aim of the present review was to describe the importance of the nonforced, multicompartmented exposure approach to simulate a gradient or patches of contamination, to describe the 2 main exposure systems, and to highlight the ecological relevance of including spatial avoidance and habitat preference in ecotoxicological studies. The multicompartmentalization of the system makes it possible to simulate more complex scenarios and therefore include new ecological concepts in bioassays. We also contrasted spatial avoidance in the nonforced exposure systems with the behavioral endpoints measured under other exposure systems. Finally, we showed that the nonforced, multicompartmented exposure approach makes it possible 1) to improve environmental risk assessments by adding the dispersion pattern of organisms in a multihabitat scenario, and 2) to integrate ecological concepts such as recolonization of recovering habitats, loss of habitat connectivity, habitat fragmentation, and contamination-driven metapopulation, which have received limited attention in ecotoxicological studies. Environ Toxicol Chem 2019;38:312-320. C 2018 SETAC

show abstract

Section: Nonforced Multicompartmented Exposure Systemsmentioning

confidence: 99%

Section: Integrating Ecological Concepts To Improve Erasmentioning

confidence: 99%

Spatial avoidance as a response to contamination by aquatic organisms in nonforced, multicompartmented exposure systems: A complementary approach to the behavioral response

Araújo¹,

Blasco²

2018

Enviro Toxic and Chemistry

Self Cite

View full text Add to dashboard Cite

show abstract

“…This approach expands the concept of environmental disturbance beyond the traditional one based exclusively on the toxicity (and bioaccumulation) at the organism level. Evidence of contamination-driven spatial displacement (avoidance response) in non-forced exposure systems has been described for many organisms including fish (Moreira-Santos et al, 2008;Araújo et al, , 2018Silva et al, 2017Silva et al, , 2018, amphibians Vasconcelos et al, 2016), and invertebrate species (Lopes et al, 2004; exposed to different contaminants.…”

Section: Introductionmentioning

confidence: 99%

Influence of interspecific interactions on avoidance response to contamination

Silva

Araújo

Marassi

et al. 2018

Science of The Total Environment

Self Cite

View full text Add to dashboard Cite

An increasing number of studies have shown the ability of organisms to escape from toxic effects due to contamination, by moving spatially towards less contaminated habitats. However, this issue has been investigated in monospecific scenarios, without considering possible interactions between species during the contamination avoidance process. It is widely known that the spatial distribution of one species can be affected by another one, in different ways. Therefore, the main question addressed in the present study was as follows: Might interspecific interaction between the freshwater fish Danio rerio (zebrafish) and Poecilia reticulata (guppy) change their behavior patterns in terms of avoidance in the presence of a copper gradient? Zebrafish and guppies exposed to a copper gradient were tested for avoidance responses in a free-choice, non-forced, static, multi-compartmented exposure system, using two distinct approaches: (1) monospecific tests, in which only one species was exposed to the copper gradient, at two different population densities; and (2) multispecific tests, in which both species were tested simultaneously. In the control (with no copper) monospecific tests, both species were randomly distributed; however, in the control multispecific test, P. reticulata tended to aggregate. In the monospecific tests with a copper gradient, both species avoided copper in a similar way, with AC (concentration triggering avoidance in 50% of the exposed population) values between 15 and 18 μg·L, irrespective of the population density. However, in the multispecific tests, P. reticulata displaced D. rerio to previously avoided copper levels, consequently increasing the AC of D. rerio to 75 μg·L. This study shows the importance of understanding the interactions among species in contaminated areas, and the way that one species can prevent the avoidance behavior of another.

show abstract

“…At the same time as it allows the passage of the fish, the reduced opening avoids diffusion between the compartments. The difference between both examples is that in the first one (figure 3-A) there is a renewal of the solution in each chamber through peristaltic pumps, while the second is static (Figure 3 Generally, in aquatic ecosystems, there is dispersion / dilution of the pollutants released (López-Doval et al, 2017), forming a gradient of contamination. That is, avoidance can be estimated in an environment simulating real environmental conditions Rosa et al, 2008;.…”

Section: ~ 6 ~mentioning

confidence: 99%

“…A second problem (besides concentrations) that contributes to the lack of realism in ecotoxicological studies arises when exposure to contaminants is simulated assuming a homogeneous distribution of the contamination. In aquatic systems, contaminants often disperse, forming a dilution gradient, so the induced stress tends to be negatively correlated with the distance from the source of the contamination (Araújo et al, 2016a;López-Doval et al, 2017). In the case of mobile organisms, their displacement to locations distant from the contamination source prevents continuous exposure to contaminants.…”

Section: ~ 42 ~mentioning

confidence: 99%

Effects of aquatic contaminants on the habitat selection and spatial distribution in fish: a complementary approach to traditional ecotoxicological tests

Silva¹

View full text Add to dashboard Cite

Dedicatória Dedico este trabalho aos meus pais, Ângela e Iberê, e à minha esposa e filho, Verónica e Gael, sem os quais eu não teria a inspiração e forças necessárias para chegar onde cheguei! Dedico também ao meu tio Clemente Silva Vieira Filho (in memorian), um dos homems mais humildes e altruístas que já conheci! ~ vi ~ Epígrafe "Let me tell you something you already know. The world ain't all sunshine and rainbows. It's a very mean and nasty place and i don't care how tough you are it will beat you to your knees and keep you there permanently if you let it. You, me, or nobody is gonna hit as hard as life. But it ain't about how hard ya hit. It's about how hard you can get hit and keep moving forward. How much you can take and keep moving forward. That's how winning is done!" Rocky Balboa. Directed by: Sylvester Stallone. Hollywood (U.S.A.): MGM Studios / Columbia Pictures, 2007, DVD. ~ vii ~ Agradecimentos A Deus, ADONAI, por ser minha fonte de forças e energia! Aos meus pais Ângela e Iberê, os quais sempre me apoiaram em toda a minha trajetória. A minha esposa Verónica, minha amada e companheira! Ao meu filho Gael, um menino lindo, que veio trazer inspiração e forças para que eu continuasse lutando! A minha família do Brasil... Roberta, Rodrigo, João Victor, Rafa e Tio Ricardo: A presença de vocês é indispensável para mim! A minha família da Argentina: Os considero como irmãos de sangue! Aos meu querido orientador e co-orientadores: Marcelo Pompêo, Teresa Paiva e Cristiano Araújo, os quais possibilitaram meu crescimento como profissional, me apoiando em todas as decisões científicas e acadêmicas! Vocês foram o pilar de mais essa minha vitória! Aos colegas de pós-graduação do DEBIQ, especialmente ao Douglas, Rodrigo Marassi, Fernanda Sampaio, Patrícia, Lucas e Luiz. As minhas maravilhosas alunas de IC: Thaíse e Amanda. Vocês foram um apoio imprescindível para minhas pesquisas! À Lucinha, minha técnica favorita! Aos pesquisadores e companheiros que me auxiliaram na escrita de meus artigos: Rui Ribeiro (Portugal), Julio Cézar Lopez-Doval (Espanha), Fernanda França, M. Neto (apoio total na reta final) e a querida Sheila Cardoso-Silva.

show abstract

Potential effects of triclosan on spatial displacement and local population decline of the fish Poecilia reticulata using a non-forced system

Cited by 35 publications

References 40 publications

Spatial avoidance as a response to contamination by aquatic organisms in nonforced, multicompartmented exposure systems: A complementary approach to the behavioral response

Spatial avoidance as a response to contamination by aquatic organisms in nonforced, multicompartmented exposure systems: A complementary approach to the behavioral response

Influence of interspecific interactions on avoidance response to contamination

Effects of aquatic contaminants on the habitat selection and spatial distribution in fish: a complementary approach to traditional ecotoxicological tests

Contact Info

Product

Resources

About