Exposure to a heat wave under food limitation makes an agricultural insecticide lethal: a mechanistic laboratory experiment

Dinh, Khuong Van; Janssens, Lizanne; Stoks, Robby

doi:10.1111/gcb.13415

Cited by 66 publications

(73 citation statements)

References 78 publications

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“…| 3869 (Angilletta, 2009;Angilletta, Niewiarowski, & Navas, 2002;Grote et al, 2015;Hirche, 1987). A strong reduction in the pellet production at 35°C may be a result of physiological depression, that has been observed in aquatic taxa in shallow water bodies exposed to extreme temperatures, for example, damselfly (Dinh, Janssens, & Stoks, 2016), intertidal species (Dong, Yu, Wang, & Dong, 2011;McArley, Hickey, & Herbert, 2017) and copepods (Low et al, 2018…”

Section: Temperature Effectsmentioning

confidence: 99%

Temperature-and sex-specific grazing rate of a tropical copepod Pseudodiaptomus annandalei to food availability: Implications for live feed in aquaculture

Doan

Nguyen

et al. 2018

Aquac Res

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To determine the optimal food concentrations for the mass culture of the tropical copepod Pseudodiaptomus annandalei at relevant temperatures, we conducted three functional response experiments. In these experiments, we quantified the grazing rate via the faecal pellet production of adult males and females. They were fed for 6 hr on one of three commonly used microalgal species in aquaculture: Chaetoceros muelleri, Isochrysis galbana and Tetraselmis chui at concentrations of 12.5–3,200 μg C L−1 and three temperatures 25, 30 and 35°C. The number of pellets (PP) and the total volume of pellets (SPP) of both sexes increased rapidly with the increase in the microalgal concentrations until maximal pellet production (PPmax or SPPmax) was obtained, where females showed a consistently higher SPP than males. This pattern was similar for all three microalgal species. Males showed inconsistent PP and SPP in response to algae and temperatures. For females, they showed two clear patterns: a higher PP and SPP with increasing temperature from 25 to 30°C, then a lower PP and SPP at 35°C. Our study provides fundamental knowledge of pellet production to determine the food requirements of P. annandalei under different temperatures that are essential for designing the technical protocol for biomass culture.

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Section: Temperature Effectsmentioning

confidence: 99%

Temperature-and sex-specific grazing rate of a tropical copepod Pseudodiaptomus annandalei to food availability: Implications for live feed in aquaculture

Doan

Nguyen

et al. 2018

Aquac Res

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“…Moreover, snails exposed to both high temperature and MPs antagonistically reduced their feeding rate. Metabolic imbalance can lead to tradeoffs between important fitness traits (Reznick, Nunney, & Tessier, 2000;Van Noordwijk & de Jong, 1986) or even reduce the rate of all energy-demanding processes due to metabolic depression (Dinh et al, 2016). In fact, the observed discrepancy between resource demand and uptake during the heat wave (and when concurrently exposed to MPs) reduced investment in energydemanding processes (i.e.…”

Section: Metabolic Balancementioning

confidence: 99%

“…Burton & Metcalfe, ; Mousseau & Fox, ). Moreover, stress effects may also manifest themselves as reduced recovery of individuals from stress after conditions become benign again (Dinh et al., ). Thus, understanding the conjoint and long‐term effects of heat waves on organisms is in high demand when predicting the effects of climate change.…”

Section: Introductionmentioning

confidence: 99%

“…Przeslawski, Byrne, & Mellin, 2015), predicting stress responses in nature based on individual impacts of different stressors is problematic. Predicting this is especially challenging because conducted work focuses on the immediate impacts of extreme temperatures and their interactions with other stressors (Dinh, Janssens, & Stoks, 2016). However, some environmental stress effects may only become evident after a lag time due to individual level delayed effects (e.g.…”

Section: Introductionmentioning

confidence: 99%

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Resilience to heat waves in the aquatic snail Lymnaea stagnalis: Additive and interactive effects with micropollutants

et al. 2017

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Multiple anthropogenic changes, such as climate change and chemical pollution, threaten the persistence of natural populations. Yet, their potential additive and interactive effects on organismal performance and fitness are poorly understood, thus limiting our ability to predict the effects of the global change. We conducted a laboratory experiment to study the singular and combined effects of experimental heat waves and micropollutants (i.e. low‐concentration toxicants; henceforth micropollutants [MPs]) on the freshwater snail, Lymnaea stagnalis. To comprehensively understand physiological and ecological consequences of stress, we studied a broad range of traits from respiration rate to feeding performance and growth. We also determined traits contributing to fitness and immune responses, as these are key traits in determining both organismal fitness and interspecific (e.g. host–parasite) interactions. We tested whether a constant exposure to MPs affects the ability of snails to tolerate heat waves (8 days of 23.5°C), and subsequently to recover from them, and whether the effects are immediate or delayed. We found strong immediate additive effects of both stressors on reproduction, while they synergistically increased respiration and antagonistically decreased food consumption. Moreover, these effects were transient. Although the heat wave increased metabolic rates, individuals did not increase their resource uptake. This caused an apparent imbalance in resource levels—a probable cause for the observed trade‐off between immune function and reproductive traits (i.e. phenoloxidase‐like activity decreased, while reproductive output increased). In addition, exposure to MPs led to a temporarily reduced reproductive output. Our results indicate that even short‐term heat waves and low concentrations of chemical pollution can have large, mainly additive impacts on organismal fitness (e.g. altering susceptibility to infections and reproductive output). This suggests that long‐term effects of existing stressors and heat waves need to be considered when assessing the resilience of natural populations.

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“…Heat stress is particularly relevant as aquatic ecosystems are dominated by ectotherms, whose metabolic demands (Vannote andSweeney 1980, Salo et al 2017), growth (Leicht et al 2013) and reproductive output (Salo et al 2017) is largely determined by environmental temperature (Angilletta 2009). At the same time, chemical pollution may further alter organismal performance, such as resource requirements (Dinh et al 2016) and reproduction (Salo et al 2017). Maintaining organismal function at higher temperatures, while simultaneously needing more resources for detoxification of chemical toxicants (Broomhall 2002), can cause energetic conflicts.…”

Section: Introductionmentioning

confidence: 99%

Simultaneous exposure to a pulsed and a prolonged anthropogenic stressor can alter consumer multifunctionality

Salo

Räsänen

Stamm

et al. 2018

Oikos

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Ecosystems face multiple anthropogenic threats globally, and the effects of these environmental stressors range from individual‐level organismal responses to altered system functioning. Understanding the combined effects of stressors on process rates mediated by individuals in ecosystems would greatly improve our ability to predict organismal multifunctionality (e.g. multiple consumer‐mediated functions). We conducted a laboratory experiment to test direct and indirect, as well as immediate and delayed effects of a heat wave (pulsed stress) and micropollutants (MPs) (prolonged stress) on individual consumers (the great pond snail Lymnaea stagnalis) and their multifunctionality (i.e. consumption of basal resources, growth, reproduction, nutrient excretion and organic‐matter cycling). We found that stressful conditions increased the process rates of multiple functions mediated by individual consumers. Specifically, the artificial heat wave increased process rates in the majority of the quantified functions (either directly or indirectly), whereas exposure to MPs increased consumption of basal resources which led to increases in the release of nutrients and fine particulate organic matter. Moreover, snails exposed to a heat wave showed decreased reproduction and nutrient excretion after the heat‐wave, indicating the potential for ecologically relevant delayed effects. Our study indicates that the immediate and delayed effects of stressors on individual organisms may directly and indirectly impact multiple ecosystem functions. In particular, delayed effects of environmental stress on individual consumers may cumulatively impede recovery due to decreased functioning following a perturbation. Reconciling these results with studies incorporating responses at higher levels of biological complexity will enhance our ability to forecast how individual responses upscale to ecosystem multifunctionality.

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Exposure to a heat wave under food limitation makes an agricultural insecticide lethal: a mechanistic laboratory experiment

Cited by 66 publications

References 78 publications

Temperature-and sex-specific grazing rate of a tropical copepod Pseudodiaptomus annandalei to food availability: Implications for live feed in aquaculture

Temperature-and sex-specific grazing rate of a tropical copepod Pseudodiaptomus annandalei to food availability: Implications for live feed in aquaculture

Resilience to heat waves in the aquatic snail Lymnaea stagnalis: Additive and interactive effects with micropollutants

Simultaneous exposure to a pulsed and a prolonged anthropogenic stressor can alter consumer multifunctionality

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