Search results for "Acidification"

showing 10 items of 173 documents

Changes in soil chemical properties as affected by pyrogenic organic matter amendment with different intensity and frequency

2017

Pyrogenic organic matter (PyOM) has long been used as a soil amendment to improve soil physicochemical properties. However, few studies simultaneously investigated both intensities and frequencies of PyOM addition on soil chemical properties of soil base cations, soil pH buffering capacity (pHBC), and plant available micronutrients. In the main food production area of lower Liaohe River Plain in Northeast China, a field manipulation of PyOM addition was initiated in 2013 to examine how the intensities (0, 1%, 3%, and 5% of 0–20 cm soil mass) and frequencies (3% of soil mass applied once versus yearly for 3 years) of PyOM amendment affected soil chemical properties. Higher intensity of PyOM …

Base cationSoil acidificationAmendmentSoil ScienceBiomass010501 environmental sciencesSoil fertilitycomplex mixtures01 natural sciencesSoil pHBiocharOrganic matterSoil acidification0105 earth and related environmental scienceschemistry.chemical_classificationSoil organic matterfood and beverages04 agricultural and veterinary sciencesBodemfysica en LandbeheerSoil Physics and Land ManagementBiocharAgronomychemistryEnvironmental chemistryTrace element040103 agronomy & agriculture0401 agriculture forestry and fisheriesSoil fertilityEcologia dels sòlsGeoderma
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Shallow water marine sediment bacterial community shifts along a natural CO2 gradient in the Mediterranean Sea off Vulcano, Italy.

2014

The effects of increasing atmospheric CO2 on ocean ecosystems are a major environmental concern, as rapid shoaling of the carbonate saturation horizon is exposing vast areas of marine sediments to corrosive waters worldwide. Natural CO2 gradients off Vulcano, Italy, have revealed profound ecosystem changes along rocky shore habitats as carbonate saturation levels decrease, but no investigations have yet been made of the sedimentary habitat. Here, we sampled the upper 2 cm of volcanic sand in three zones, ambient (median pCO(2) 419 mu atm, minimum Omega(arag) 3.77), moderately CO2-enriched (median pCO(2) 592 mu atm, minimum Omega(arag) 2.96), and highly CO2-enriched (median pCO(2) 1611 mu at…

Biogeochemical cycleGeologic SedimentsFORAMINIFERAMolecular Sequence DataSoil SciencePolymerase Chain ReactionPH GRADIENTForaminiferaCARBONMediterranean seaRNA Ribosomal 16SMediterranean SeaEcosystemSeawater14. Life underwaterMICROBIAL COMMUNITIESRelative species abundanceEcology Evolution Behavior and SystematicsEcologybiologyBacteriaEcologyOCEAN ACIDIFICATIONSedimentOcean acidificationBiodiversitySequence Analysis DNACORALCarbon DioxideHydrogen-Ion Concentrationbiology.organism_classificationSP NOV.Italy13. Climate actionGenes BacterialECOSYSTEMSeawaterGEN. NOV.TIDAL FLAT SEDIMENTMicrobial ecology
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Evolution and biomineralization of pteropod shells

2021

12 pages; International audience; Shelled pteropods, known as sea butterflies, are a group of small gastropods that spend their entire lives swimming and drifting in the open ocean. They build thin shells of aragonite, a metastable polymorph of calcium carbonate. Pteropod shells have been shown to experience dissolution and reduced thickness with a decrease in pH and therefore represent valuable bioindicators to monitor the impacts of ocean acidification. Over the past decades, several studies have highlighted the striking diversity of shell microstructures in pteropods, with exceptional mechanical properties, but their evolution and future in acidified waters remains uncertain. Here, we re…

Biomineralization0106 biological sciencesGastropodaShell (structure)Structural diversityContext (language use)engineering.material010603 evolutionary biology01 natural sciencesShellsCalcium Carbonate03 medical and health sciencesPaleontologychemistry.chemical_compoundSpecies SpecificityAnimal ShellsStructural BiologyThin shellsAnimalsBiominerals; Pteropods; Mollusc; Shells; Helical microstructure; Aragonite curved fibresSeawater14. Life underwater[SDV.IB.BIO]Life Sciences [q-bio]/Bioengineering/Biomaterials030304 developmental biology0303 health sciencesFossils[SDV.BID.EVO]Life Sciences [q-bio]/Biodiversity/Populations and Evolution [q-bio.PE]AragoniteOcean acidificationBiodiversityHydrogen-Ion ConcentrationBiological EvolutionAragonite curved fibresPteropodsCalcium carbonatechemistry13. Climate actionMicroscopy Electron ScanningBiomineralsengineeringHelical microstructureMolluscGeologyBiomineralizationJournal of Structural Biology
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Structural and functional organization of fish assemblages in a Mediterranean shallow CO2 vent.

2017

Gli effetti dell’acidificazione degli oceani a livello globale hanno richiamato l’attenzione degli scienziati su dei sistemi marini naturali quali i vent superficiali di CO₂. Si tratta di mesocosmi naturali, in quanto su piccole scale spaziali (anche di pochi metri) si osservano marcati gradienti di pH, dove poter testare ipotesi ecologiche dell’acidificazione delle acque marine. Obiettivo della tesi è studiare le risposte della popolazione ittica alla riduzione del pH in vent superficiali mediterranei utilizzando numerosi descrittori, quali la struttura di comunità, l’organizzazione trofica, le caratteristiche e la composizione chimica delle strutture carbonatiche. Inoltre poiché i vent so…

CO2 vent Mediterranean fish assemblages species composition trophic structure trophic transfer mercury bioaccumulation otolith chemistry and shape analysis ocean acidification Cymodocea nodosa meadow.
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Biogenic habitat shifts under long-term ocean acidification show nonlinear community responses and unbalanced functions of associated invertebrates

2019

Este artículo contiene 8 páginas, 4 figuras.

CO2 ventsEnvironmental Engineering010504 meteorology & atmospheric sciencesOceans and SeasOceans and SeaSnailsIntertidal zone010501 environmental sciencesEnvironmentsTransplant01 natural sciencesModels BiologicalNonlinear DynamicRocky shoreMediterranean SeaAnimalsEnvironmental ChemistryMarine ecosystemEcosystemSeawaterInvertebratePhase shiftWaste Management and DisposalEcosystem0105 earth and related environmental sciencesSeabiologyEcologyAnimalOcean acidificationCoralline algaeOcean acidificationBiodiversityCarbon Dioxidebiology.organism_classificationInvertebratesPollutionNonlinear DynamicsCarbon dioxideItalySnailBenthic zoneImpactsReefsEnvironmental scienceSpecies richnessCoralCo2 ventsVermetid reef
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Experimental conditions for respiration and growth studies of F0 and F1 larval and juvenile European seabass Dicentrarchus labrax

2022

Water parameters in the 2 years before spawning of F0 (08.02.2016-06.03.2018) and during larval and juvenile phase of F1: Larval period until 17.05.2018 (48 dph, 900 dd) and 01.06.2018 (63 dph, ~900 dd) for warm and cold life condition respectively, for the juveniles until 28.09.2018 (180 dph, ~4000 dd) and 12.02.2019 (319 dph, ~5100 dd) for warm and cold conditioned fish respectively. Means ± s.e. over all replicate tanks per condition. Temperature (Temp.), pH (free scale), salinity, oxygen and total alkalinity (TA) were measured weekly in F1 and monthly in F0; sea water (SW) measurements were conducted in 2017 and 2018. Water parameters during larval and early juvenile phase of F0: Larval…

Calculated by CO2sys_xls_program Lewis and WallaceSalinityAlkalinityLife stageType of studyTemperature waterGermanyCalculatedAlkalinity totalSalinity standard errortotallarval growthteleostexperiment2006pH2007 with purified m cresol purpleOcean acidificationMeasured spectrophotometrically Dickson et alTemperatureWeilheimPartial pressure of carbon dioxide (water) at sea surface temperature (wet air) standard errorSilicatedissolvedLaboratory experimentSEAL AA3 segmented flow autoanalyzerSilicate standard errorstandard errorMultiprobeEarth System ResearchWTW 340imetabolic rateswaterGenerationOxygen dissolvedMultiprobe WTW 340iPhosphateocean warmingAlkalinity total standard errorjuvenile growthCarbon dioxide (water) partial pressurepH meter (WTW 3110) with electrode (WTW Sentix 41)DATE TIMEWTW Oxi 340i probeTemperature water standard errorCarbon dioxide water partial pressurepH standard errorXylem Analytics GermanySalinometer (WTW LF325 Xylem Analytics Germany Weilheim Germany)Calculated by CO2sys_xls_program (Lewis and Wallace 2006)OxygenTreatmentDATE/TIMEPartial pressure of carbon dioxide water at sea surface temperature wet airSalinometer WTW LF325Oxygen dissolved standard errorMeasured spectrophotometrically (Dickson et al. 2007) with purified m-cresol purplepH meter WTW 3110 with electrode WTW Sentix 41Phosphate standard error
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Sicilian CO2 vents show effects of ocean acidification on rocky shores

2011

Carbon dioxide ocean acidification climate change Mediterranean
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Evaluating the need for acid treatment prior to d13C and d15N analysis of freshwater fish scales: effects of varying scale mineral content, lake prod…

2010

Carbon isotope Nitrogen isotope Fish scales Acidification De-calcification Stoichiometry
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Acetic acid and acidification accelerate chronological and replicative aging in yeast

2012

Yeast is widely regarded as one of the most valuable model systems to study aging and particularly the genetics of aging. Researchers have established two different methods to study yeast aging known as the replicative lifespan (RLS) and the chronological lifespan (CLS). These have led to the identification of many mammalian genes that affect aging suggesting that they will continue to shed light on the fundamental biology of aging. In spite of the clear differences underpinning the mitotic cellular potential (RLS) and the survival in the non-dividing mode (CLS), the two models are clearly regulated by partly overlapping regulatory mechanism. This idea is supported by the observation that c…

Cell divisionCell BiologyCell cycleBiologySeptinProtein oxidationYeastBiochemistrySettore BIO/13 - Biologia ApplicataGenetics of agingaging yeast acidification free radicaoxydative damageSignal transductionMolecular BiologyMitosisDevelopmental BiologyCell Cycle
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Alcoholic nanolime dispersion obtained by the insolubilisation-precipitation method and its application for the deacidification of ancient paper

2017

Abstract Nanolime dispersions for the deacidification of ancient paper constitute a valid alternative to the lime traditional ones. Their efficacy depends on particles size, polydispersity and agglomeration that can be controlled depending on the preparation method. In this work, nanolime preparation by insolubilisation-precipitation method is reported. Nanoparticles dispersed in a water-isopropanol mixture were obtained without any manipulation of the dispersion. The stability of the dispersion together with particle size and morphology were found to be dependent on water to isopropanol molar ratio and on the synthesis temperature. One of the dispersion was applied on a manuscript to asses…

ChromatographyChemistryPrecipitation (chemistry)Economies of agglomerationInsolubilisation-precipitation methodDispersityNanoparticle02 engineering and technologyengineering.material010402 general chemistry021001 nanoscience & nanotechnology01 natural sciences0104 chemical sciencesColloid and Surface ChemistryChemical engineeringMolar ratioengineeringParticle sizePaper deacidification0210 nano-technologyDispersion (chemistry)NanolimeSettore CHIM/02 - Chimica FisicaLimeColloids and Surfaces A: Physicochemical and Engineering Aspects
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