Search results for "Ultraviolet B radiation"

showing 4 items of 4 documents

Impacts of UV-B radiation on short-term cultures of sea urchin coelomocytes

2006

Three specialized cell types constitute the heterogeneous population present in the coelomic cavity fluid of sea urchins. The list includes: phagocytes, which undergo a stress-induced petaloid-filopodial transition, white or red amoebocytes and vibratile cells. As a whole, they act as the immune defense system of the sea urchin and respond to environmental and experimental challenge triggering specific stress markers. Here we extended our studies on coelomocytes short-term cultures by describing the morphology and occurrence of each cell type and analyzing their response to UV-B radiation at the biochemical level and with respect to DNA damage. The effects of different doses, ranging from 5…

Cell typeEcologybiologyEcologyDNA damageAquatic ScienceIn vitroHsp70StainingCell biologyechinoderm culture ultraviolet B radiationbiology.animalCoelomSea urchinEcology Evolution Behavior and SystematicsUv b radiation
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Do current levels of UV‐B radiation affect vegetation? The importance of long‐term experiments

2021

PhysiologyEcologyPlant ScienceAffect (psychology)Atmospheric sciencesOzone depletionTerm (time)Ultraviolet B radiationmedicineEnvironmental scienceCurrent (fluid)medicine.symptomVegetation (pathology)Uv b radiationNew Phytologist
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Clonal differences in growth and phenolics of willows exposed to elevated ultraviolet-B radiation

2003

Abstract In this study, the effects of elevated ultraviolet-B (UV-B, 280–320 nm) radiation on growth and leaf phenolics were evaluated in clones of dark-leaved willow ( Salix myrsinifolia Salisb.) and tea-leaved willow ( Salix phylicifolia L.). Willows were raised for one growing season in an irradiation field, where they were exposed either to a constant 50% increase in UV-B CIE radiation simulating 20–25% ozone depletion or to a small increase in UV-A radiation (320–400 nm). Control willows were grown in the irradiation field under solar radiation (ambient control). Despite the high constitutive concentrations of a UV-absorbing leaf flavonoid, dihydromyricetin, UV-treatments clearly reduc…

Salix phylicifoliaWillowchemistry.chemical_compoundUltraviolet B radiationSalix myrsinifoliabiologyChemistryShootBotanyGallic acidbiology.organism_classificationEcology Evolution Behavior and SystematicsUv b radiationBasic and Applied Ecology
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Exposure to increased ambient ultraviolet B radiation has negative effects on growth, condition and immune function of juvenile Atlantic salmon (Salm…

2008

Atlantic salmon (Salmo salar) parr were exposed in two outdoor experiments, ranging in duration from 52 to 137 days, to spectral treatments: (1) natural sunlight (=present ambient UVB level), (2) solar radiation supplemented with enhanced UVB radiation from lamps simulating 20% or 8% stratospheric ozone loss or (3) UVB-depleted sunlight achieved by screening with Mylar-D film. The growth, condition and immune function of the salmon were quantified after treatments. Exposure to enhanced UVB radiation retarded growth, and decreased hematocrit value and plasma protein concentration. Further, enhanced UVB radiation affected plasma immunoglobulin concentration. The results demonstrate that juven…

Ultraviolet Raysanimal diseasesSalmo salarImmunoglobulinsBiologyHematocritBiochemistryAnimal scienceImmune systemRetarded growthmedicineJuvenileAnimalsPhysical and Theoretical ChemistrySalmoskin and connective tissue diseasesGrowth DisordersSunlightintegumentary systemmedicine.diagnostic_testEcologyGeneral Medicinebiology.organism_classificationBlood proteinsUltraviolet B radiationHematocritSpectrophotometry UltravioletPhotochemistry and photobiology
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