Warm periods in repeated cold stresses protect Drosophila against ionoregulatory collapse, chilling injury, and reproductive deficits

El-Saadi, Mahmoud I.; Ritchie, Marshall W.; Davis, Hannah E.; MacMillan, Heath A.

doi:10.1016/j.jinsphys.2020.104055

Cited by 16 publications

(10 citation statements)

References 55 publications

(64 reference statements)

Supporting

Mentioning

Contrasting

Order By: Relevance

“…While females never recovered from chill coma, males recovered the ability to stand, but then died. These results are similar to our recent report of latent chilling injury effects in virgin female flies following exposure to 0 °C ( El-Saadi et al., 2020 ), which suggests that conditions leading to latent injury may be temperature-, sex-, and/or reproductive status-specific. Recording the same data with smaller sample size or fewer temperatures, over multiple rounds because of equipment limitations, or not recording survival over multiple time points could have missed these important differences between the sexes.…”

Section: Resultssupporting

confidence: 91%

A simple and dynamic thermal gradient device for measuring thermal performance in small ectotherms

Ritchie

Dawson

MacMillan

2021

Current Research in Insect Science

Self Cite

View full text Add to dashboard Cite

Section: Resultssupporting

confidence: 91%

A simple and dynamic thermal gradient device for measuring thermal performance in small ectotherms

Ritchie

Dawson

MacMillan

2021

Current Research in Insect Science

Self Cite

View full text Add to dashboard Cite

“…While females never recovered from chill coma, males recovered the ability to stand, but then died. These results are similar to our recent report of latent chilling injury effects in virgin female flies following exposure to 0°C [39], which suggests that conditions leading to latent injury may be temperature-, sex-, and/or reproductive status-specific. Recording the same data with smaller sample size or fewer temperatures, over multiple rounds because of equipment limitations, or not recording survival over multiple time points could have missed these important differences between the sexes.…”

Section: Proof Of Concept 1: Drosophila Cold Tolerancesupporting

confidence: 91%

A simple and dynamic thermal gradient device for measuring thermal performance in small ectotherms

Ritchie

Dawson

MacMillan

2020

Preprint

Self Cite

View full text Add to dashboard Cite

The body temperature of ectothermic animals is heavily dependent on environmental temperature, impacting fitness. Laboratory exposure to favorable and unfavorable temperatures is used to understand these effects, as well as the physiological, biochemical, and molecular underpinnings of variation in thermal performance. Although small ectotherms, like insects, can often be easily reared in large numbers, it can be challenging and expensive to simultaneously create and manipulate several thermal environments in a laboratory setting. Here, we describe the creation and use of a thermal gradient device that can produce a wide range of constant or varying temperatures concurrently. This device is composed of a solid aluminum plate and copper piping, combined with a pair of programmable refrigerated circulators. As a simple proof-of-concept, we completed single experimental runs to produce a low-temperature survival curve for flies (Drosophila melanogaster) and explore the effects of daily thermal cycles of varying amplitude on growth rates of crickets (Gryllodes sigillatus). This approach avoids the use of multiple heating/cooling water or glycol baths or incubators for large-scale assessments of organismal thermal performance. It makes static or dynamic thermal experiments (e.g., creating a thermal performance or survival curves, quantifying responses to fluctuating thermal environments, or monitoring animal behaviour across a range of temperatures) easier, faster, and less costly.

show abstract

“…3 ). Acclimation at both temperature extremes may improve both high and low temperature tolerance 85 , 99 owing to potential overlap in heat and cold stress resistance mechanisms. Control beetles were maintained at a constant 28 °C.…”

Section: Methodsmentioning

confidence: 99%

Limited thermal plasticity may constrain ecosystem function in a basally heat tolerant tropical telecoprid dung beetle, Allogymnopleurus thalassinus (Klug, 1855)

Machekano

Zidana

Gotcha

et al. 2021

Sci Rep

View full text Add to dashboard Cite

Tropical organisms are more vulnerable to climate change and associated heat stress as they live close to their upper thermal limits (UTLs). UTLs do not only vary little across tropical species according to the basal versus plasticity ‘trade-off’ theory but may also be further constrained by low genetic variation. We tested this hypothesis, and its effects on ecosystem function using a diurnally active dung rolling beetle (telecoprid), Allogymnopleurus thalassinus (Klug, 1855) that inhabits arid environments. Specifically, (i) we tested basal heat tolerance (critical thermal maxima [CTmax] and heat knockdown time [HKDT]), and (ii) ecological functioning (dung removal) efficiency following dynamic chronic acclimation temperatures of variable high (VT-H) (28–45 °C) and variable low (VT-L) (28–16 °C). Results showed that A. thalassinus had extremely high basal heat tolerance (> 50 °C CTmax and high HKDT). Effects of acclimation were significant for heat tolerance, significantly increasing and reducing CTmax values for variable temperature high and variable temperature low respectively. Similarly, effects of acclimation on HKDT were significant, with variable temperature high significantly increasing HKDT, while variable temperature low reduced HKDT. Effects of acclimation on ecological traits showed that beetles acclimated to variable high temperatures were ecologically more efficient in their ecosystem function (dung removal) compared to those acclimated at variable low temperatures. Allogymnopleurus thalassinus nevertheless, had low acclimation response ratios, signifying limited scope for complete plasticity for UTLs tested here. This result supports the ‘trade-off’ theory, and that observed limited plasticity may unlikely buffer A. thalassinus against effects of climate change, and by extension, albeit with caveats to other tropical ecological service providing insect species. This work provides insights on the survival mechanisms of tropical species against heat and provides a framework for the conservation of these natural capital species that inhabit arid environments under rapidly changing environmental climate.

show abstract

Warm periods in repeated cold stresses protect Drosophila against ionoregulatory collapse, chilling injury, and reproductive deficits

Cited by 16 publications

References 55 publications

A simple and dynamic thermal gradient device for measuring thermal performance in small ectotherms

A simple and dynamic thermal gradient device for measuring thermal performance in small ectotherms

A simple and dynamic thermal gradient device for measuring thermal performance in small ectotherms

Limited thermal plasticity may constrain ecosystem function in a basally heat tolerant tropical telecoprid dung beetle, Allogymnopleurus thalassinus (Klug, 1855)

Contact Info

Product

Resources

About