Impacts of multiple anthropogenic stressors on the transcriptional response of Gammarus fossarum in a mesocosm field experiment

Brasseur, Marie V.; Beermann, Arne J.; Elbrecht, Vasco; Grabner, Daniel; Peinert-Voss, Bianca; Salis, Romana K.; Weiss, Martina; Mayer, Christoph; Leese, Florian

doi:10.1186/s12864-022-09050-1

Cited by 7 publications

(2 citation statements)

References 68 publications

Supporting

Mentioning

Contrasting

Order By: Relevance

“…Even in euryhaline species, this process involves trade-offs (Tietze and Gerald, 2016). Increased salinity leads to the reallocation of energy to essential physiological processes, such as the expression of detoxification enzymes and ion transporter genes, which regulate the membrane permeability of sodium, potassium, and chloride (Brasseur et al, 2022). These adjustments may enable invertebrates to better withstand salinity stress, but they might compromise other life relevant aspects such as behaviour.…”

Section: Discussionmentioning

confidence: 99%

Salinisation and warming disrupt predator-induced drift behaviour in aquatic predator-prey interactions

Vermiert,

Pimentel,

Rehsen

et al. 2024

Preprint

Self Cite

View full text Add to dashboard Cite

Predators act as a major selective force impacting biological communities in riverine ecosystems. Often predation risk is mediated by chemical cues upon which prey species display distinct morphological or behavioural defences. For stream invertebrates, predator-induced behaviours can be drifting and hiding. However, anthropogenic stressors increasingly impact freshwater ecosystems, with predicted consequences on the chemical information transfer, potentially affecting anti-predator behaviour. Despite this, knowledge and research on the extent to which these stressors may affect evolved predator-induced behaviour and subsequent ecosystems is scarce. Therefore, we conducted an outdoor mesocosm experiment (ExStreamsystem) at a lowland stream in Germany, in which we investigated the effects of direct and indirect fish predation on invertebrate communities under different stressor conditions. As stressors, we tested elevated salinity (ambient vs + 136 mg/L NaCl), elevated temperature (ambient vs. + 3.4°C), and the combination of both. Our findings reveal distinct predator-induced drift behaviour, characterised by a greater number of drifting invertebrates and a concurrent reduction in overall invertebrate numbers in the communities. Increased salinity and temperature hampered the predator-induced drift behaviour. Our results support the possibility that stressors negatively impact the prey’s ability to perceive predators’ presence and respond appropriately. This disruption may alter predator-prey relationships, thereby affecting communities and potentially ecosystem functions.Highlights▯ We hypothesised that anthropogenic stressors disrupt predator-induced behaviours in invertebrate prey species.▯ Predator-induced drift behaviour was experimentally studied under ambient and elevated salinity and temperature conditions.▯ Fish exposure elicited predator-induced drift behaviour, which decreased the number of invertebrate individuals of the communities.▯ Elevated salt and elevated temperatures alone and in combination did not induce drift behaviour.▯ We found that both stressors disrupted predator-induced drift behaviour, altering the anti-predator response of invertebrate prey.

show abstract

Section: Discussionmentioning

confidence: 99%

Salinisation and warming disrupt predator-induced drift behaviour in aquatic predator-prey interactions

Vermiert,

Pimentel,

Rehsen

et al. 2024

Preprint

Self Cite

View full text Add to dashboard Cite

show abstract

“…However, the issues encountered in the presented experiment stem from the requirement of water filtration combined with strong rainfall events and the high prevalence of fine sediments in the river. Filtration in streamside mesocosm experiments is often either restricted to a coarse‐meshed filtration (> 4 mm, e.g., Beermann et al, 2018; Brasseur et al, 2022) or deliberately avoided (e.g., Jones et al, 2015; Iannino et al, 2023). Fine filtrations are necessary if the entrainment of invertebrates should be avoided.…”

Section: Discussionmentioning

confidence: 99%

An automated modular heating solution for experimental flow‐through stream mesocosm systems

Madge Pimentel,

Rehsen,

Beermann

et al. 2023

Limnology & Ocean Methods

Self Cite

View full text Add to dashboard Cite

Water temperature is a key environmental variable in stream ecosystems determining species distribution ranges, community composition, and ecological processes. In addition to global warming, direct anthropogenic impacts, for example through the influx of power plant cooling water or due to sun exposure after the removal of riparian vegetation, result in elevated water temperatures. However, temperature effects in stream ecosystems have mostly been tested in recirculating experimental systems, which can neither capture diurnal and seasonal variability in other environmental variables nor allow for entrainment of stream organisms. In contrast, open flow‐through systems, which are constantly supplied with stream water, offer a more realistic setting for stream ecological experiments, yet are difficult to implement. Here, we outline a heating module for the purpose of differential temperature regulation in a flow‐through mesocosm system by automatic control of warm water supply. We validated the functionality of the module in indoor trials as well as in an outdoor ExStream experimental mesocosm system. Furthermore, we tested the implications of different warm water temperatures for the survival of invertebrates drifting through the heating module to derive recommendations for the maximum warm water temperature for mixing with the natural water inflow. The module allows for controlled open flow‐through experiments in the field and the key components are flexible and scalable. Therefore, the module can be easily integrated into existing experimental flow‐through setups.

show abstract

Transcriptomic sequencing data illuminate insecticide-induced physiological stress mechanisms in aquatic non-target invertebrates

Brasseur

Leese

Schäfer

et al. 2023

Environmental Pollution

View full text Add to dashboard Cite

Impacts of multiple anthropogenic stressors on the transcriptional response of Gammarus fossarum in a mesocosm field experiment

Cited by 7 publications

References 68 publications

Salinisation and warming disrupt predator-induced drift behaviour in aquatic predator-prey interactions

Salinisation and warming disrupt predator-induced drift behaviour in aquatic predator-prey interactions

An automated modular heating solution for experimental flow‐through stream mesocosm systems

Transcriptomic sequencing data illuminate insecticide-induced physiological stress mechanisms in aquatic non-target invertebrates

Contact Info

Product

Resources

About