Fine-scale behaviour of the Lusitanian toadfish assessed in situ with the AccelTag

Pereira, Tadeu José; Almeida, Pedro R.; Quintella, Bernardo R.; Gronningsaeter, Aage; Costa, María José; Marques, João; Costa, José Lino

doi:10.1186/s40317-021-00231-5

Cited by 3 publications

(3 citation statements)

References 20 publications

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“…Based on this review, it would be important in the future to extend the hydropeaking research in large environments and to study a more diverse set of species since up to now only salmonids and a restricted number of other species have been studied with biotelemetry. Other types of biotelemetry techniques that can record physiological and very fine‐scale behavioural/activity data, such as 3D accelerometer transmitter or archival tag (e.g., Almeida et al, 2013; Pereira et al, 2021), are yet to be applied to better understand the effect of hydropeaking on downstream fish populations. Three‐axis acceleration sensor acoustic transmitters (AccelTag) programmed to identify specific acceleration patterns associated with particular behaviours (e.g., rapid change in direction and body movement associated with stressful flow conditions) could be used to obtain fine scale behaviour during distinct hydrological conditions.…”

Section: The Use Of Technology To Study Hydropeakingmentioning

confidence: 99%

“…This device combines the features of archival tags (records acceleration in all three directions measuring and logging the processed data) and acoustic transmitters (send the relevant information on a pre‐defined sampling rate). Therefore, this tag can autonomously identify and record specific signatures (i.e., behaviour patterns) of different movements transmitting the data autonomously and periodically to an acoustic biotelemetry receiver (Pereira et al, 2021).…”

Section: The Use Of Technology To Study Hydropeakingmentioning

confidence: 99%

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Technologies for the study of hydropeaking impacts on fish populations: Applications, advantages, outcomes, and future developments

Alexandre

Quintella

Ovidio

et al. 2022

River Research & Apps

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Dam construction and streamflow regulation are increasing throughout the world, with impacts in impounded aquatic ecosystems. Hydropower dams, some of them causing a phenomenon called "hydropeaking" during their operation, are known for having a variety of impacts on downstream aquatic biota, particularly fish, and respective habitat. This can result in significant changes, from the community (e.g., fish assemblage structure) to the individual level (e.g., physiological and behavioural adjustments). Researchers and managers involved in the assessment of hydropeaking impacts must be resourceful and use methods that allow their precise evaluation, from large to fine-scale habitat and biological responses. In the last decades, technological advances allowed for the development of techniques and instrumentations that are increasingly being used in hydropeaking impact and mitigation assessments. This paper aims to provide a review, to researchers and managers interested in this field, of some of the most innovative methods and techniques, involving technology, that are available to study hydropeaking effects on downstream ecosystem, particularly from a fish perspective. We discuss the fundamentals behind such techniques, their advantages, and disadvantages, while also providing practical examples of their application and of the type of results that can be obtained. We finish by discussing some of the shortcomings of these methods and how related technology can evolve to solve current limitations.

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Section: The Use Of Technology To Study Hydropeakingmentioning

confidence: 99%

Section: The Use Of Technology To Study Hydropeakingmentioning

confidence: 99%

Technologies for the study of hydropeaking impacts on fish populations: Applications, advantages, outcomes, and future developments

Alexandre

Quintella

Ovidio

et al. 2022

River Research & Apps

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“…The Lusitanian toadfish ( Halobatrachus didactylus [Bloch and Schneider 1801]) is a sound‐producing batrachoidid of estuaries and coastal waters living mainly on sand and/or muddy bottoms (Cotter et al, 2013). It is benthic, solitary, and relatively sedentary, being more active from dusk to dawn (Pereira et al, 2021). During the reproductive season (May–July in the Iberian Peninsula), large territorial males (type I) nest under rocks or other hard substrates and produce long advertisement calls (boat whistles) to attract ripe females, and agonistic boat whistles to defend their nest from conspecific nest intruders through the contraction of paired sonic muscles attached to the swim bladder (Modesto & Canário, 2003a; Vasconcelos et al, 2010, 2011).…”

Section: Introductionmentioning

confidence: 99%

Anatomy of the olfactory system and potential role for chemical communication in the sound‐producing Lusitanian toadfish, Halobatrachus didactylus

Modesto,

Neves Gregório,

Marcelino

et al. 2024

Journal of Fish Biology

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The current study investigated the structure and function of the olfactory system of the Lusitanian toadfish, Halobatrachus didactylus, using histology and electrophysiology (electro‐olfactogram [EOG]), respectively. The olfactory system consists of a digitated anterior peduncle, of unknown function, containing the inhalant nostril. This then leads to a U‐shaped olfactory chamber with the olfactory epithelium—identified by Gαolf‐immunoreactivity—on the ventral surface. A large lacrimal sac is connected to this tube and is likely involved in generating water movement through the olfactory chamber (this species is largely sedentary). The exhalent nostril lies by the eye and is preceded by a bicuspid valve to ensure one‐way flow of water. As do other teleosts, H. didactylus had olfactory sensitivity to amino acids and bile acids. Large‐amplitude EOG responses were evoked by fluid from the anterior and posterior testicular accessory glands, and bile and intestinal fluids. Anterior gland and intestinal fluids from reproductive males were significantly more potent than those from non‐reproductive males. Male urine and skin mucus proved to be the least potent body fluids tested. These results suggest that chemical communication—as well as acoustic communication—may be important in the reproduction of this species and that this may be mediated by the accessory glands and intestinal fluid.

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Metabolic Responses and Resilience to Environmental Challenges in the Sedentary Batrachoid Halobatrachus didactylus (Bloch & Schneider, 1801)

Molina

Kunzmann

Reis

et al. 2023

Animals

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In the context of climate change, warming of the seas and expansion of hypoxic zones are challenges that most species of fish are, or will be subjected to. Understanding how different species cope with these changes in their environment at the individual level can shed light on how populations and ecosystems will be affected. We provide first-time estimates on the metabolic rates, thermal, and oxygen-related limits for Halobatrachus didactylus, a coastal sedentary fish that lives in intertidal environments of the Northeast Atlantic. Using respirometry in different experimental designs, we found that this species is highly resistant to acute thermal stress (CTmax: 34.82 ± 0.66 °C) and acute hypoxia (Pcrit: 0.59–1.97 mg O2 L−1). We found size-specific differences in this stress response, with smaller individuals being more sensitive. We also quantified its aerobic scope and daily activity patterns, finding this fish to be extremely sedentary, with one of the lowest standard metabolic rates found in temperate fish (SMR: 14.96 mg O2 kg−1h−1). H. didactylus activity increases at night, when its metabolic rate increases drastically (RMR: 36.01 mg O2 kg−1h−1). The maximum metabolic rate of H. didactylus was estimated to be 67.31 mg O2 kg−1h−1, producing an aerobic scope of 52.35 mg O2 kg−1h−1 (77.8% increase). The metrics obtained in this study prove that H. didactylus is remarkably resilient to acute environmental variations in temperature and oxygen content, which might enable it to adapt to the extreme abiotic conditions forecasted for the world’s oceans in the near future.

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Fine-scale behaviour of the Lusitanian toadfish assessed in situ with the AccelTag

Cited by 3 publications

References 20 publications

Technologies for the study of hydropeaking impacts on fish populations: Applications, advantages, outcomes, and future developments

Technologies for the study of hydropeaking impacts on fish populations: Applications, advantages, outcomes, and future developments

Anatomy of the olfactory system and potential role for chemical communication in the sound‐producing Lusitanian toadfish, Halobatrachus didactylus

Metabolic Responses and Resilience to Environmental Challenges in the Sedentary Batrachoid Halobatrachus didactylus (Bloch & Schneider, 1801)

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