Search results for "heat tolerance"

showing 10 items of 10 documents

Acclimation capacity and rate change through life in the zooplankton Daphnia

2020

When a change in the environment occurs, organisms can maintain an optimal phenotypic state via plastic, reversible changes to their phenotypes. These adjustments, when occurring within a generation, are described as the process of acclimation. While acclimation has been studied for more than half a century, global environmental change has stimulated renewed interest in quantifying variation in the rate and capacity with which this process occurs, particularly among ectothermic organisms. Yet, despite the likely ecological importance of acclimation capacity and rate, how these traits change throughout life among members of the same species is largely unstudied. Here we investigate these re…

0106 biological sciences0303 health sciencesGeneral Immunology and MicrobiologybiologyZoologyGeneral MedicineBody sizebiology.organism_classification010603 evolutionary biology01 natural sciencesAcclimatizationZooplanktonDaphniaGeneral Biochemistry Genetics and Molecular BiologyHeat tolerance03 medical and health sciences13. Climate actionRate changeAllometryGeneral Agricultural and Biological Sciences030304 developmental biologyGeneral Environmental ScienceProceedings of the Royal Society B: Biological Sciences
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Measuring phenotypes in fluctuating environments

2020

Despite considerable theoretical interest in how the evolution of phenotypic plasticity should be shaped by environmental variability and stochasticity, how individuals actually respond to these aspects of the environment within their own lifetimes remains unclear. We propose that this understanding has been hampered by experimental approaches that expose organisms to fluctuating environments (typically treatments where fluctuations in the environment are cyclical vs. erratic) for a pre‐determined duration while ensuring that the mean environment over that the entire exposure period is invariable. This approach implicitly assumes that responses to the mean and variance/predictability in the…

0106 biological sciencesPhenotypic plasticitybiologyfungiConfoundingDaphnia magnabiology.organism_classification010603 evolutionary biology01 natural sciencesDaphniaHeat toleranceEnvironment variableStatisticsPredictabilityMean radiant temperatureEcology Evolution Behavior and Systematics010606 plant biology & botanyFunctional Ecology
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The WtmsDW Locus on Wheat Chromosome 2B Controls Major Natural Variation for Floret Sterility Responses to Heat Stress at Booting Stage

2021

Heat stress at booting stage causes significant losses to floret fertility (grain set) and hence yield in wheat (Triticum aestivum L.); however, there is a lack of well-characterized sources of tolerance to this type of stress. Here, we describe the genetic analysis of booting stage heat tolerance in a cross between the Australian cultivars Drysdale (intolerant) and Waagan (tolerant), leading to the definition of a major-effect tolerance locus on the short arm of chromosome 2B, Wheat thermosensitive male sterile Drysdale/Waagan (WtmsDW). WtmsDW offsets between 44 and 65% of the losses in grain set due to heat, suggesting that it offers significant value for marker-assisted tolerance breedin…

0106 biological sciencesSterilityQTLLocus (genetics)Plant ScienceQuantitative trait locusBiologylcsh:Plant culturemale sterility01 natural sciencesGenetic analysis03 medical and health sciencesfloret sterilitywheatlcsh:SB1-1110CultivarAllele030304 developmental biologyOriginal Research0303 health sciencesauricle distanceChromosomefood and beveragesheat toleranceDwarfingHorticulture010606 plant biology & botanyFrontiers in Plant Science
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The effect of birthplace on heat tolerance and mortality in Milan, Italy, 1980-1989

2006

The temperature–mortality relationship follows a well-known J-V shaped pattern with mortality excesses recorded at cold and hot temperatures, and minimum at some optimal value, referred as Minimum Mortality Temperature (MMT). As the MMT, which is used to measure the population heat-tolerance, is higher for people living in warmer places, it has been argued that populations will adapt to temperature changes. We tested this notion by taking advantage of a huge migratory flow that occurred in Italy during the 1950s, when a large number of unemployed people moved from the southern to the industrializing north-western regions. We have analyzed mortality–temperature relationships in Milan residen…

Atmospheric ScienceHot TemperatureInjury controlHealth Toxicology and MutagenesisPopulationPoison controlInjury preventionHumanseducationSicilyclimate change; mortality; birth area; heat toleranceeducation.field_of_studyEcologyheat tolerancemortalityOutdoor temperatureHeat toleranceAdult lifeclimate change effectmigrantclimate changeGeographyItalyBirthplaceResidencebirth areaDemography
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Evaluation of in-farm versus weather station data for use as heat stress indicator in dairy sheep

2005

AbstractHeat stress is a limiting factor in dairy production in hot climates impairing growth, milk production and reproduction. The most widely investigated climatic factors related with heat stress are: air temperature and relative humidity. Previously dairy sheep studies of heat tolerance depended on measurements of physiological functions on individual animals such as rectal temperatures, respiration rates or volumes of air inhaled; unfortunately, such measurements are costly and not feasible on a large scale. This study aims to evaluate in-farm (IF) versus weather station (WS) data to be used as heat stress indicator in dairy sheep. Data were collected in three farms in November 2002 t…

Heat toleranceLimiting factorMaximum temperatureAnimal scienceAir temperaturemedia_common.quotation_subjectEnvironmental scienceAnimal Science and ZoologyRelative humidityReproductionWeather stationmedia_commonHeat stress
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Effect of heat stress on production in Mediterranean dairy sheep

2005

European Mediterranean countries are characterized by exposure to considerable heat between three and six months annually. High ambient temperature, solar radiation, wind speed and relative humidity, cause the effective temperature of the environment to be above the thermo-neutral zone of the animals (5 to 25ºC; McDowell, 1972) and therefore heat stress occurs (Bianca, 1962).

Mediterranean climateHeat toleranceheat tolerance temperature-humidity index (THI) dairy sheepEnvironmental scienceAnimal Science and ZoologyRelative humiditylcsh:Animal cultureAtmospheric sciencesWind speedHeat stresslcsh:SF1-1100Italian Journal of Animal Science
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Heat tolerance and outdoor temperature in early life, among Italian migrants in Turin–Italy

2009

Outdoor temperatureHeat toleranceGeographySocioeconomicsEarly lifeDemographyIOP Conference Series: Earth and Environmental Science
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Modeling temperature effects on mortality: multiple segmented relationships with common break points.

2008

We present a model for estimation of temperature effects on mortality that is able to capture jointly the typical features of every temperature-death relationship, that is, nonlinearity and delayed effect of cold and heat over a few days. Using a segmented approximation along with a doubly penalized spline-based distributed lag parameterization, estimates and relevant standard errors of the cold- and heat-related risks and the heat tolerance are provided. The model is applied to data from Milano, Italy.

Statistics and ProbabilityDistributed lagHot TemperatureTime FactorsInjury controlPoison controltemperature effectRisk FactorsStatisticsHumansSegmented regressionMortalitysegmented regressionWeatherSimulationMathematicsLikelihood FunctionsModels StatisticalTemperatureGeneral MedicineHeat toleranceCold TemperatureSpline (mathematics)Nonlinear systemStandard errorItalyNonlinear DynamicsLinear ModelsRegression AnalysisStatistics Probability and Uncertaintybreak pointSettore SECS-S/01 - StatisticaAlgorithmsBiostatistics (Oxford, England)
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Measuring phenotypes in fluctuating environments

2020

Despite considerable theoretical interest in how the evolution of phenotypic plasticity should be shaped by environmental variability and stochasticity, how individuals actually respond to these aspects of the environment within their own lifetimes remains unclear. We propose that this understanding has been hampered by experimental approaches that expose organisms to fluctuating environments (typically treatments where fluctuations in the environment are cyclical vs. erratic) for a pre‐determined duration, while ensuring that the mean environment over that the entire exposure period is invariable. This approach implicitly assumes that responses to the mean and variance/predictability in th…

reversible plasticitylämmönsietofungiunpredictable environmentsvesikirputheat tolerancefenotyyppivaihtelulämpötilabet-hedgingthermal toleranceympäristönmuutoksetinsurance
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Acclimation capacity and rate change through life in the zooplankton Daphnia

2020

When a change in the environment occurs, organisms can maintain an optimal phenotypic state via plastic, reversible changes to their phenotypes. These adjustments, when occurring within a generation, are described as the process of acclimation. While acclimation has been studied for more than half a century, global environmental change has stimulated renewed interest in quantifying variation in the rate and capacity with which this process occurs, particularly among ectothermic organisms. Yet, despite the likely ecological importance of acclimation capacity and rate, how these traits change throughout life among members of the same species is largely unstudied. Here we investigate these rel…

reversible plasticitysopeutuminenakklimatisaatiolämmönsietoallometryvesikirputheat tolerancefenotyyppibody sizethermal toleranceympäristönmuutokset
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