Your search keyword '"THERMAL stresses"' showing total 14 results

1. Stream groundwater inputs generate fine‐scale variation in brook trout phenology and growth across a warming landscape.

Author

Gallagher, Brian K. and Fraser, Dylan J.

Subjects

*BROOK trout, *ATMOSPHERIC temperature, *PLANT phenology, *WATER temperature, *PHENOLOGY, *FISH populations, *THERMAL stresses

Abstract

Climate change is increasing global atmospheric temperatures, which can reduce abundance and cause range shifts in species that are sensitive to warming. However, fine‐scale thermal heterogeneity can drive highly variable local responses to climate change, especially in freshwater environments that differ in groundwater inputs and geomorphology.We used temperature data collected during 2012–2021 from 10 small, pristine streams in eastern Canada to characterise thermal variation at a small spatial scale (~25 km2). We then used relationships between daily air and stream temperatures to reconstruct stream temperature since 1980, and assessed how thermal variation influenced the phenology and growth of brook trout (Salvelinus fontinalis).Air–stream temperature relationships varied considerably among streams despite their close proximity, with predicted summer temperatures differing up to 9.5°C between warmer rainfall‐dominated streams and cooler groundwater‐dominated streams. Rainfall‐dominated streams warmed more than twice as fast as groundwater‐dominated streams across all seasons since 1980, with nearly four‐fold differences in rates of warming evident during summer months. Fine‐scale thermal heterogeneity also shaped brook trout phenology, as juveniles in rainfall‐dominated streams were estimated to hatch and emerge much later (~70 and 40 days, respectively) and experience faster phenological shifts than in groundwater‐dominated streams. Relationships between juvenile brook trout size and accumulated degree‐days were positive, but slopes differed over two‐fold and did not vary systematically based on stream hydrology, suggesting more idiosyncratic impacts of warming on early growth.Collectively, our study illustrates how species responses to climate change in freshwater environments can be consistent in direction but vary substantially in magnitude owing to the influence of groundwater. Future climate change is likely to increase the thermal stress experienced by brook trout populations in warmer rainfall‐dominated streams, while potentially benefiting those in groundwater‐dominated streams where current temperatures are often suboptimal.Observed differences in the rates and ecological impacts of warming among streams suggest that fine‐scale thermal variation must be considered when forecasting effects of future climate change on stream fish population dynamics. [ABSTRACT FROM AUTHOR]

Published

2024

2. Extreme heatwave drives topography‐dependent patterns of mortality in a bed‐forming intertidal barnacle, with implications for associated community structure.

Author

Hesketh, Amelia V. and Harley, Christopher D. G.

Subjects

*HEAT waves (Meteorology), *COMMUNITIES, *BARNACLES, *INVERTEBRATE communities, *THERMAL stresses, *HABITATS, *INTERTIDAL zonation

Abstract

Heatwave frequency and intensity will increase as climate change progresses. Intertidal sessile invertebrates, which often form thermally benign microhabitats for associated species, are vulnerable to thermal stress because they have minimal ability to behaviourally thermoregulate. Understanding what factors influence the mortality of biogenic species and how heatwaves might impact their ability to provide habitat is critical. Here, we characterize the community associated with the thatched barnacle, Semibalanus cariosus (Pallass, 1788), in British Columbia (BC), Canada. Then, we investigate what site‐level and plot‐level environmental factors explained variations in barnacle mortality resulting from an unprecedented regional heatwave in BC, Canada. Furthermore, we used a manipulative shading experiment deployed prior to the heatwave to examine the effect of thermal stress on barnacle survival and recruitment and the barnacle‐associated community. We identified 50 taxa inhabiting S. cariosus beds, with variations in community composition between sites. Site‐scale variables and algal canopy cover did not predict S. cariosus mortality, but patch‐scale variation in substratum orientation did, with more direct solar irradiance corresponding with higher barnacle mortality. The shading experiment demonstrated that S. cariosus survival, barnacle recruitment, and invertebrate community diversity were higher under shades where substratum temperatures were lower. Associated community composition also differed between shaded and non‐shaded plots, suggesting S. cariosus was not able to fully buffer acute thermal stress for its associated community. While habitat provisioning by intertidal foundation species is an important source of biodiversity, these species alone may not be enough to prevent substantial community shifts following extreme heatwaves. As heatwaves become more frequent and severe, they may further reduce diversity via the loss of biogenic habitat, and spatial variation in these impacts may be substantial. [ABSTRACT FROM AUTHOR]

Published

2023

3. Landscape genomics of the American lobster (Homarus americanus).

Author

Dorant, Yann, Laporte, Martin, Rougemont, Quentin, Cayuela, Hugo, Rochette, Rémy, and Bernatchez, Louis

Subjects

*AMERICAN lobster, *GENOMICS, *GENETIC variation, *SINGLE nucleotide polymorphisms, *THERMAL stresses, *FISHERIES, *GENE flow

Abstract

In marine species experiencing intense fishing pressures, knowledge of genetic structure and local adaptation represent a critical information to assist sustainable management. In this study, we performed a landscape genomics analysis in the American lobster to investigate the issues pertaining to the consequences of making use of putative adaptive loci to reliably infer population structure and thus more rigorously delineating biological management units in marine exploited species. Toward this end, we genotyped 14,893 single nucleotide polymorphism (SNPs) in 4190 lobsters sampled across 96 sampling sites distributed along 1000 km in the northwest Atlantic in both Canada and the USA. As typical for most marine species, we observed a weak, albeit highly significant genetic structure. We also found that adaptive genetic variation allows detecting fine-scale population structure not resolved by neutral genetic variation alone. Using the recent genome assembly of the American lobster, we were able to map and annotate several SNPs located in functional genes potentially implicated in adaptive processes such as thermal stress response, salinity tolerance and growth metabolism pathways. Taken together, our study indicates that weak population structure in high gene flow systems can be resolved at various spatial scales, and that putatively adaptive genetic variation can substantially enhance the delineation of biological management units of marine exploited species. [ABSTRACT FROM AUTHOR]

Published

2022

4. Macroalgal canopies reduce beta diversity in intertidal communities.

Author

Scrosati, Ricardo A., Catalán, Alexis M., and Valdivia, Nelson

Subjects

*MARINE algae, *ALGAL communities, *THERMAL stresses, *SPECIES diversity, *SOCIAL influence

Abstract

Species diversity in a habitat is often termed alpha diversity. As it influences various community properties, many studies have investigated its drivers. For instance, intertidal macroalgal canopies limit understory thermal stress during low tides and thus often increase alpha diversity. More recently, beta diversity has also become of interest. Beta diversity measures the change in species composition across space and is another important attribute of communities because it influences their multifunctionality, productivity, and resilience. Using data from a field experiment done in Atlantic Canada, we tested the hypothesis that fucoid macroalgal canopies limit beta diversity in intertidal communities. This prediction stems from previous evidence that such canopies limit thermal variation across the substrate during low tides, an important consideration because spatial thermal changes influence spatial variability in species composition. To test our hypothesis, we compared two treatments (full canopy cover and canopy removal) created the year before on intertidal areas that were originally all fully covered by canopies. Separately for each treatment, we calculated beta diversity as the Bray-Curtis dissimilarity between nearby quadrats using species abundance data. Overall, fucoid macroalgal canopies significantly reduced beta diversity, showing that these foundation species can have opposing effects on alpha and beta diversity. [ABSTRACT FROM AUTHOR]

Published

2021

5. Coping with climate change: Phenotypic plasticity in an imperilled freshwater fish in response to elevated water temperature.

Author

Potts, Lindsay B., Mandrak, Nicholas E., and Chapman, Lauren J.

Subjects

HIGH temperatures, WATER temperature, PHENOTYPIC plasticity, FRESHWATER fishes, CLIMATE change, THERMAL stresses

Abstract

Climate change has emerged as an increasingly important threat to freshwater systems. To cope with rapidly changing thermal regimes, freshwater fishes must either relocate or adjust through genetic adaptation and/or phenotypic plasticity. Short‐term responses to elevated water temperature have been well studied in freshwater fishes; however, far less is understood about change induced by long‐term exposure. Furthermore, few studies have investigated the effects of temperature on already imperilled species, which may be more sensitive to environmental change.This study investigated the effects of rearing temperature on critical thermal maximum (CTmax), agitation temperature (Tag, temperature at which fish show behavioural signs of thermal stress) and gill size in pugnose shiner, Notropis anogenus, a threatened species in Canada. Juvenile pugnose shiner were reared for 4 months across five different ecologically relevant temperatures. CTmax and Tag were measured under normoxia and acute exposure to hypoxia to test for oxygen sensitivity of the upper thermal limits in this species.CTmax increased with elevated water temperature. Tag also increased with rearing temperature and occurred, on average, 4.3°C above acclimation temperatures. The CTmax and Tag were lower when fish were exposed acutely to hypoxia. Interestingly, gill size (e.g. total gill filament length) increased with rearing temperature, which may increase oxygen uptake capacity and support increased metabolic demands of warmer waters.Overall, pugnose shiner show plasticity in several traits in response to long‐term exposure to elevated water temperature that may facilitate persistence in warmer waters. However, acute hypoxia exposure reduced thermal tolerance, stressing the importance of evaluating interactive effects of multiple stressors.Identifying source populations of pugnose shiner with greater thermal tolerance or implementing captive breeding under higher temperature regimes may improve the success of re‐introduction efforts in the face of climate change, but the consequences to fitness of increased thermal tolerance should be examined. [ABSTRACT FROM AUTHOR]

Published

2021

6. Identification, isolation and characterization of dolutegravir forced degradation products and their cytotoxicity potential.

Author

Saida, Shaik John, Manikandan, A., Kaliyaperumal, Muralidharan, Rumalla, Chidananda Swamy, Khan, Ansar Ali, Jayaraman, Venkatesh Babu, Yanaka, Ramulu, and Venkat Rao, S.

Subjects

*GRADIENT elution (Chromatography), *THERMAL stresses, *MOLECULAR weights, *MANUFACTURED products, *IDENTIFICATION

Abstract

• Antiretroviral drug, Dolutegravir found to be unstable under acidic and oxidative conditions. • Two degradants were identified by extensive analysis of UPLC-MS, HRMS and NMR spectra. • In vitro cytotoxicity potential of degrandants were evaluated and found to be safe. Dolutegravir was approved by USFDA, Canada and European regulatory authorities as antiretroviral medication. In this article, DLG forced degradation studies as per the International Council for Harmonization (ICH) prescribed stress conditions was conducted and the resulting degradants were fully characterized. DLG was stable in basic, thermal and photolytic stress conditions, whereas DLG was found to unstable in acidic and oxidative conditions. One degradant each from acid and peroxide treated solutions was resolved on LC–MS and labelled as DP-1 and DP-2 with RT 1.80 min and 1.41 min, respectively. DP-1 and DP-2 were isolated by preparative HPLC with C18 column using gradient elution method. Subsequently DP-1 and DP-2 peaks were subjected to HRMS for accurate mass. Molecular mass of DP-1 and DP-2 were m/z 420.1379 (positive mode) and m/z 214.0319 (negative mode), respectively. Further, DP-1 & DP-2 were subjected to NMR spectroscopic analysis (including 2D) for structural confirmation. DP-1 was identified as N -(2,4-difluorobenzyl)-9-hydroxy-2-(4-hydroxybutan-2-yl)-1,8-dioxo-2,8-dihydro-1H-pyrido[1,2- a ]pyrazine-7-carboxamide and it is earlier reported by Gudisela et al. [19] as DLG process impurity. DP-2 was identified as 2-(2,4difluorobenzylamino)-2-oxoacetic acid which is novel DLG degradant and not reported earlier to the best of our knowledge. DLG along its forced degradation products were found to be non-cytotoxic in in vitro assay conditions using HepG2 cells. [ABSTRACT FROM AUTHOR]

Published

2019

7. The effects of repeat acute thermal stress on the critical thermal maximum (CTmax) and physiology of juvenile shortnose sturgeon (Acipenser brevirostrum).

Author

Bard, Brittany and Kieffer, James D.

Subjects

*THERMAL tolerance (Physiology), *THERMAL stresses, *ACIPENSER, *LACTATES, *STURGEONS, *PHYSIOLOGY, *CLIMATE change

Abstract

The shortnose sturgeon (Acipenser brevirostrum Lesueur, 1818) is a species of special concern in Canada, but little is known about their thermal biology. Information on the upper thermal tolerance of shortnose sturgeon becomes valuable for predicting future survival particularly with climate change and improving species management. Using a modified critical thermal maximum (CTmax) methodology, the objective is to determine whether previous thermal stress affects the thermal tolerance of juvenile shortnose sturgeon when exposed to a second thermal stress event. Prior exposure to thermal stress (CTmax1) did not affect the thermal tolerance (CTmax2) of juvenile shortnose sturgeon when a 24 h recovery period was allotted between tests. However, a significant increase in thermal tolerance occurred when the recovery time between the two thermal challenges was 1 h. Plasma glucose, lactate, and osmolality were all significantly affected by thermal stress, but values returned to control levels within 24 h. Hematocrit and plasma chloride concentrations were not significantly affected by thermal stress. All fish survived the CTmax testing. The data indicate that the thermal tolerance of juvenile shortnose sturgeon is modified when multiple thermal stresses occur closer together (1 h) but not if separated by a longer time period (24 h). [ABSTRACT FROM AUTHOR]

Published

2019

8. Comparison of Thermal Stresses Calculated from Asphalt Binder and Asphalt Mixture Creep Tests.

Author

Moon, K. H., Marasteanu, M. O., and Turos, M.

Subjects

*THERMAL stresses, *ASPHALT pavements, *RHEOMETERS, *TENSILE tests

Abstract

Low-temperature cracking is a significant distress in asphalt pavements built in the northern United States and Canada. As temperature decreases, thermal stresses develop in the restrained asphalt surface layer; and when the temperature reaches a critical temperature, cracking occurs. The current guides use thermal stress as a critical input parameter in the low-temperature performance model. In this paper, statistical and graphical analyses are performed to compare thermal stresses that develop in an idealized asphalt pavement calculated from mixture creep data obtained using indirect tensile test (IDT) and bending beam rheometer (BBR) test. In addition, the idea of obtaining thermal stresses from binder BBR creep data is further investigated. Thermal stresses calculated using IDT and BBR mixture creep data, respectively, are similar. Thermal stresses calculated from binder creep data are significantly different than thermal stresses calculated from mixture creep data. The effect of physical hardening is investigated for a limited number of materials, and the effect on thermal stresses is significant. [ABSTRACT FROM AUTHOR]

Published

2013

9. Late-Breaking: Using Random Regression Models to Estimate Genetic Parameters for Milk Production Traits under Different Levels of Heat Stress in Canadian Holstein Cattle.

Author

Campos, Ivan, Baes, Christine F., Chud, Tatiane, Cánovas, Angela, Oliveira, Hinayah R., and Schenkel, Flavio S.

Subjects

*HOLSTEIN-Friesian cattle, *MILK yield, *GENETIC models, *REGRESSION analysis, *THERMAL stresses, *DAIRY cattle, *COWS

Abstract

Genetically selecting animals that are heat tolerant can help to maintain production efficiency of the dairy industry under thermal challenges. During the summer months in Canada, dairy cows could be under thermal stress. For instance, in Ontario, cows are expected to be 105 days under thermal stress. The objective of this study was to estimate genetic parameters for milk production traits under heat stress in Canadian Holstein cows. A total of 604,050 test-day records for milk, fat, and protein yields from 78,516 first-lactation Holstein cows were used in this study. The production data was combined with daily maximum temperature-humidity index (THI; ranging from 30 to 83) calculated based on meteorological records from public weather stations. In total, 58 weather stations were located within a maximum distance of 20 km from each of the 1,284 herds included in this study. Single-trait random regressions on THI, fitting linear splines to describe the random additive genetic and permanent environmental effects, were used in the genetic analyses. Based on preliminary analyses, the knots of the spline functions were set to THI = 70, 57, and 58 for milk, fat, and protein yields, respectively. Therefore, the models assumed a linear effect of heat stress beyond the THI threshold, allowing to estimate the additive genetic effect under thermal comfort and at different levels of heat stress. The genetic correlations estimated between thermal comfort and heat stress were -0.09, -0.33, and -0.21 for milk, fat, and protein yields, respectively. This indicates an antagonistic relationship between level of production and heat tolerance. However, small differences in heritability estimates were observed above the THI thresholds (they ranged from 0.20 to 0.22 for milk, 0.18 to 0.15 for fat, and 0.14 to 0.15 for protein yields). This study demonstrates the possibility of genetically selecting for more heat-tolerant animals in Canada. [ABSTRACT FROM AUTHOR]

Published

2021

10. Reproductive ecology of Zostera marina L. (eelgrass) across varying environmental conditions.

Author

Vercaemer, Bénédikte M., Scarrow, Margaret A., Roethlisberger, Betty, Krumhansl, Kira A., and Wong, Melisa C.

Subjects

*ZOSTERA marina, *ZOSTERA, *SEAGRASSES, *ENVIRONMENTAL degradation, *THERMAL stresses, *LIFE history theory

Abstract

Sexual reproduction is critical to the resilience of seagrass beds impacted by habitat degradation or environmental changes, as robust seed banks allow new shoots to establish each year. Reproductive strategies of seagrass beds range on a continuum from strictly annual to perennial, driven by local environmental conditions. We examined the reproductive dynamics of Zostera marina beds at six sites on the Atlantic coast of Canada to characterize how life history strategies are shaped by the surrounding environment. Sites were categorized as wave protected and wave exposed, where protected sites were warm, shallow, with little water movement and muddy sediments, and exposed sites were either shallow or deep, with cooler water and sandy sediments. While mixed life history strategies were evident at all sites, protected eelgrass beds exhibited both the highest and lowest sexual reproductive effort relative to exposed beds. These beds regularly experienced thermal stress, with higher temperature range and extended warm water events relative to exposed beds. The development of reproductive shoots were similar across sites with comparable Growing Degree-days at the beginning and end of anthesis, but the First Flowering Date was earlier at the protected warmer sites relative to exposed sites. With different reproductive shoot density among sites, seed production, seed retention, and seedling recruitment also varied strongly. Only one site, located in a warm, shallow and protected lagoon, contained a mixed life history population with a high reproductive effort (33.7%), strong seed bank, and high seedling establishment. However, a primarily perennial population with the lowest reproductive effort (0.5%) was identified at the warmest site, suggesting that conditions here could not support high sexual reproduction. Robustness of seed banks was strongly linked to reproductive shoot density, although the role of seed retention, germination and seedling survival require further investigation. Our study provides insights into one key aspect of seagrass resilience, and suggests that resilience assessments should include reproductive shoot density to inform their management and conservation. • Reproductive patterns and life history strategies of eelgrass meadows are highly variable. • Thermally stressed eelgrass beds had both the highest and lowest sexual reproduction relative to beds in cooler waters. • Reproductive shoots were fecund at all sites and seed bank robustness was closely related to reproductive shoot density. • Eelgrass resilience to disturbance will partly depend on how local environmental conditions affect reproductive strategies. [ABSTRACT FROM AUTHOR]

Published

2021

11. Assessment of Thermal Protection of Life rafts in Passenger Vessel Abandonment Situations.

Author

Mak, Lawrence, Kuczora, Andrew, DuCharme, Michel B., Boone, James, Brown, Rob, Farnworth, Brian, Evely, Kerri-Ann, Basset, Fabien A., and MacKinnon, Scott

Subjects

LIFE rafts, THERMAL properties, SIMULATION methods & models, THERMAL stresses, METABOLISM, SHIVERING

Abstract

The article discusses an analysis of thermal protection criteria of Safety of Life at Sea (SOLAS)-approved commercial life rafts in case of passenger vessel abandonment. The study was conducted at the ice tank and towing tank of National Research Council Canada, Institute for Ocean Technology (NRC-IOT). The insufficiency of thermal stress to increase the metabolic rate of life raft users through shivering is noted. It is observed that the combined heat of multiple raft occupants failed to reduce heat loss.

Published

2008

12. Effects of elevated growth temperature and enhanced atmospheric vapour pressure deficit on needle and root terpenoid contents of two Douglas fir provenances.

Author

Duan, Qiuxiao, Kleiber, Anita, Jansen, Kirstin, Junker, Laura Verena, Kammerer, Bernd, Han, Gang, Zimmer, Ina, Rennenberg, Heinz, Schnitzler, Jörg-Peter, Ensminger, Ingo, Gessler, Arthur, and Kreuzwieser, Jürgen-Frohn

Subjects

*HIGH temperatures, *DOUGLAS fir, *ATMOSPHERIC temperature, *ATMOSPHERIC pressure, *THERMAL stresses, *INNER cities

Abstract

• Elevated air temperature in combination with higher VPD causes changed terpenoid contents and emissions in Douglas fir. • Such responses were provenance-specific. • Decreased terpenoid contents might weaken defense against herbivores causing higher susceptibility of the provenance affected. In the present work, we studied the effects of elevated air temperatures, which were above the optimum for photosynthesis, in combination with enhanced atmospheric VPD on two Douglas fir provenances grown under controlled conditions in a climate chamber. Provenance Monte Creek (MC) from the menziesii-glauca transition zone, Southern British Columbia, Canada, was derived from a dry environment receiving ca. half of the precipitation at its natural site than the interior provenance Pend Oreille (PO) from a mesic site in Northeast Washington State, US. We determined the terpenoid contents in needles and roots of the trees as well as terpene emission from needles and terpenoid synthase activities observing clear provenance-specific patterns. Whereas total terpenoid contents in needles dropped significantly in provenance PO in response to thermal stress, they remained unaffected in MC. The drop in terpenoid content in PO was due to decreased abundance of almost all identified terpenoids with exception of five compounds. Terpene emission was significantly enhanced in thermal-stressed provenance MC but it was unaffected in provenance PO. Oppositely, root terpenoid contents were rather stable in both provenances upon high temperature and enhanced atmospheric VPD. Similarly, we did not observe stress effects on terpenoid synthase activity, which was used as a proxy for the formation of terpenoids. The results indicate that features of the original habitat of the trees determine plant chemotypic properties, for example, thermal stress related responses. The observed decrease of terpenoid levels in needles of PO after long-term exposure to elevated temperature/enhanced atmospheric VPD, might weaken stress-exposed trees. Since terpenoids are essential components of the conifers' defense arsenal against herbivores, decreased terpenoid levels might increase susceptibility of stressed trees to above- and belowground herbivore challenges. [ABSTRACT FROM AUTHOR]

Published

2019

13. Reply to the discussion by Bakht et al. on "Fibre-reinforced polymer composite bars for the concrete deck slab of Wotton Bridge".

Author

El-Salakawy, Ehab, Benmokrane, Brahim, and Desgagné, Gérard

Subjects

*FIBROUS composites, *POLYMERS, *BRIDGE floors, *CONCRETE slabs, *INDUSTRIAL design, *TECHNICAL specifications, *THERMAL stresses

Abstract

Presents a reply to a discussion on the article "Fibre-Reinforced Polymer Composite Bars for the Concrete Deck Slab of Wotton Bridge." Design specifications of the Canadian Highway Bridge Design Code; Description of the flexural method used for the concrete deck slab; Main objective of the laboratory test slabs; Effect of thermal strains on reinforced concrete structures.

Published

2004

14. Discussion of "Fibre-reinforced polymer composite bars for the concrete deck slab of Wotton Bridge".

Author

Bakht, Baidar, Mufti, Aftab A., and Tadros, Gamil

Subjects

*FIBROUS composites, *POLYMERS, *BRIDGES, *CONCRETE slabs, *TECHNICAL specifications, *INDUSTRIAL design, *THERMAL stresses

Abstract

Discusses the use of fibre-reinforced polymer (FRP) rods in bridge deck slabs. Requirements of the Canadian Highway Bridge Design Code Clause 16.8.7 on concrete deck slabs; Key to the arching action of a deck slab; Orientation of transverse reinforcement; Information on temperature-induced strains in FRP.

Published

2004