简介:Afterthe1992UNConferenceonEnvironmentandDevelopmentinRiodeJaneiro,theconceptofsustainabledevelopmenthasbeenwidelyrecognizedallovertheworld.Morethan100countries,includingChina,haveadoptedsustainabledevelopmentstrategiesaccordingwiththeirownsituations.For20years,
简介:通过探究iNOS/p38MAPK信号通路在丙烯腈(acrylonitrile,ACN)诱导脑组织损伤中的作用,为进一步研究ACN的神经毒性作用提供依据。选取50只SPF级健康成年雄性SD大鼠,随机分为5组,每组10只。适应性饲养一周后,以12.5、25.0、50.0mg·kg^-1ACN对大鼠进行灌胃染毒,对照组给予玉米油,另设NAC组(300.0mg·kg^-1NAC+50.0mg·kg^-1ACN),1次·天^-1,6天·周^-1,共染毒13周。次日称重并处死大鼠,测定大鼠脑组织NO含量、总NOS水平及iNOS、p-p38和p38蛋白表达水平。结果显示,ACN各剂量组大鼠脑组织脏器系数与对照组比较均显著降低(P〈0.05),高剂量组大鼠脑脏器系数与NAC组比较降低(P〉0.05)。高剂量组NO含量和总NOS水平显著高于对照组,与NAC组比较,高剂量组NO含量降低(P〉0.05),总NOS水平升高(P〉0.05)。Westernblot结果显示,ACN高剂量组大鼠脑组织iNOS、p-p38蛋白表达水平和p-p38/p38比值显著高于对照组和NAC组(P〈0.05)。ACN可激活iNOS/p38MAPK信号通路,这可能是ACN致大鼠脑组织损伤的机制之一。
简介:Theproblemofclimatechangeisaglobalchallenge.Itiscloselyassociatedwithsocialdevelopmentandhumansurvival,andithasasignificantimpacttoallcountriesonenergydevelopment,economiccompetitiveness,technologicalinnovation,andwayoflife.Inrecentyears,withtherapideconomicdevelopmentinChina,thereisarumorthattherapidgrowthofChina'scarbondioxideemissionoffsettheeffortsoftheinternationalcommunityinreducingemissions,andChinashouldbeartheinternationalresponsibilitycorrespondingtoitssignificantroleingreenhousegasemission,whichobviouslyareunfairandnotobjective.Asthispaperreveals,'Chinaenvironmentresponsibility'thatisthesocalled'Chinaenvironmentthreat'ortheories,ChinahasmadeapositivecontributiontoaddressingtheclimatechangeinthepastandChinawillstillbethebackboneontheprotectionofglobalclimateinthefuture.
简介:Inrecentyears,carbonemissionshavegraduallyevolvedfromanenvironmentissueintoapoliticalandeconomicone.Carbontariffhasbroughtaboutnewtradebarriersofdevelopedcountries,andinordertoenhancetheindustrialcompetitivenessofdevelopedcountries,itwillproduceunfavorableimpactondevelopingcountries.Concentratedonthemanufacturingindustry,whichisthemostintensivehigh-carbonindustryinChina’sexportstructure,thisarticlestudiestherelationshipbetweencarbontariffpolicyandindustrystructureofexporttradeandbuildsuparelationbetweenclimatechangeandinternationaltrade.First,bymeansofestablishingapartialequilibriummodel,itappliesgeometricanalysisandmathematicalanalysistocomputetheimpactonChina’smanufacturingexporttradeandtheconsequencesoftheintroductionoftheUScarbontarifftoChina’smanufacturingindustrythathasalreadyimposedadomesticshippingcarbontax.Furthermore,withtheapplicationoftheGTAPmodel,itestimatestheoveralleconomicandwelfareeffectsonChina’smanufacturingindustryiftheUSandEuropeintroducecarbontariffbymeansoffourways,andthenanalyzestheinfluenceonChina’smanufacturingindustryexportstructureandsocialwelfareaswell.TheresultshowsthattheintroductionoftheUScarbonimporttarifflowersChina’sexportpriceandexportvolume,andtheimplementationofadomesticcarbontaxjustifiesahigherexportpriceandalowerexportvolumeforChina.However,thedegreeofexportreductionissmallerthanthatundertheeffectoftheUScarbontariff.InthecaseofdevelopedcountriesimposingcarbontariffonChina’senergy-intensiveindustries,suchaschemicalrubberproducts,oilandcoal-processingindustryandpaperindustry,whoseexportwouldbereduced,thenegativeimpactonthepaperindustryistheseverest,whichwilldecreasethepaperindustry’sexportrangingfrom1.79%to6.05%,whereastheotherindustries’exportwillincrease.Anyhow,itwillpromoteChina�
简介:AllsevenemissionstradingpilotsinChinaoperateindependently.Onechallengefacingmostofthemisthelowinclusionthresholdsforenterprisesandthefewtotalcoveredemissions,whichnegativelyinfluencestheeffectsoftheemissionstradingsystems(ETSs).Somepilotsites,suchasGuangdong,Hubei,TianjinandBeijing,haveindicatedtheirwillingnesstolinktheirschemeswithothers.ETSlinkingcouldexpandschemecoveragesandthereforehelptoreducetheoverallcostsofachievingthelinkedschemes’emissionscontroltargets.Linkingcouldalsohelptoaddresstheissuesofcarbonleakageandreducepricefluctuations.Thepotentialbenefitsandfeasibilityoflinkingdifferentpilotsystemsareanalyzedinthisarticle.Thesevenpilotregionsareatdifferentstagesofsocialandeconomicdevelopment,withsignificantdifferencesintotalemissionsandemissionsstructuresaswellascarbonabatementpotentialsandcosts.Throughlinking,more-developedregionssuchasBeijing,ShanghaiandShenzhen,whicharetypicallyconsideredtofacehighermitigationcosts,willhavetheopportunitytoachievetheiremissionscontroltargetsbypurchasingcarbonunitsfromless-developedregions,whichwillearnfinancialrevenuesfromsellingtheunits.Torealizethiswin-winresult,aseriesofpolicyandtechnicalbarriersatboththecentralgovernmentandpilotgovernmentlevelsneedstobeovercome.Establishingaunifiednationalemissionstradingmarketwouldappeartobetheidealsolutiontothesechallenges,butitwilltakeconsiderabletimeandwillnotbetheshort-termsolution.Intheabsenceofaunifiednationalscheme,itisrecommendedthatthecentralgovernmentencouragepilotschemestolink,thatitdevelopscorrespondingnationalpoliciestosupportthelinkingeffortsandthatthepilotschemesthatareintendedtobelinkedcoordinateoncertaindesignelements.Basedonthecoordinatingneed,themajorelementsofanETScanbedividedintofourcategories:elementsthatneedmutualrecognition(capset
简介:ForChina,greenindustrialrevolutioninducedbyglobalclimatechangeposesnotonlythegreatestchallenge,butalsothegreatestopportunity.IntheperspectiveofChina'sbasicnationalconditions,andespeciallyitsnaturalconditions,China'sgreendevelopmentistheinevitablepathofchoicefortherealizationofsustainabledevelopmentandscientificdevelopment.TheessenceofChina'smodernization2050isgreenmodernization,takingthethree-stepstrategytowardsChina'sowngreendevelopmentandenergyconservationandemissionreduction.Incombinationwiththe12thFiveYearPlan,itsinnovativepositioningis'greendevelopmentplan'.
简介:Producinggoodsandservicesallneedswaterconsumption.Thewaterusedintheprocessofanagriculturalorindustrialproductiscalledthe"VirtualWater"containedinthisproduct.Throughinternationaltrade,water-scarcecountriesandregionscouldpurchasewater-intensiveproducts--especiallyfoods,fromwater-richcountriestobalancetheirwaterdeficitsandachievewatersafety.Chinaisoneofthe13mostwater-deficitcountrieswhosewatersafetyhavebeenseverelychallenged.Thispapergeneralizedtherecentglobalresearchdevelopmentandmadeabriefintroductionaboutthemethodscalculatingvirtualwatercontentinspecificproducts.Asacasestudy,wequalifiedChina'sannualvirtualwaterflowsfromyear2000to2002withtradeincrops,andendedwithsomepolicyadviceforapplicationandpracticeofvirtualwaterstrategy.
简介:TheEU,theUnitedStatesandothereconomies,withtheintentiontoimplementunilateraltrademeasuresBorderCarbonAdjustments,imposeemissionreductionpressureondevelopingcountries.Onceimplemented,themeasureswillhavegreatimpactonChina'sforeigntrade.Usingtheinput-outputtablein2007,thispaperhadanalyzedtheinfluencesonChina'sforeigntradeasawholeandsub-sectorsinthreetaxratesscenarios.TheresultsshowedthatthetarifflevelofChina'sexportswillincreaseby3.6%-6.3%ifthetaxwasleviedonexportsembodiedemissions,andby1.0%-1.7%ifleviedonexportdirectemissions.In2007,theformertotalamountofcarbontaxwasaboutUS$42.6-73.0billion,4timesthatofthelatter.Basedonexportembodiedemissions,sectorslargelyinfluencedwerenon-traditionalenergyintensiveones,suchastextile,etal.Thesesectorsshouldbeencour-agedtocarryoutindustrialupgrading,raisingthevalue-addedofexportgoods,andreducingtheirembodiedemissionsbyreductionofenergyintensity.Takingintoaccountofthecomplexityofdatacollection,thetaxleviedonproductsdirectemissionismoreoperational.Theresultsshowedthatthefivetopsectorsmostaffectedwereotherchemicalmaterials,processingofpetroleumandnuclearfuel,coking,smeltingandrollingofferrousmetalandtextile.Mostofthemwereenergyintensivesectors.Therefore,adjustingexportproductsstructure,andcontrollingtoofastdevelopmentofenergyintensiveindustriesarealsoimportantstrategiesinChina.
简介:Theindustrialsectorisusuallythelargesteconomysectorforcarbonemissionsinmanycountries,whichmadeitthesectorwithgreatestpotentialforcarbonreductionalthoughtheprocessdurationmightbeverylong.StudyingthepotentialofindustrialemissionreductionhasgreatsignificanceinestimatingthecarbonemissionpeakofChinaontheonehand,andadjustingitsstrategyininternationalclimatechangenegotiations.Byemployingtheeconomicaccountingmethod,thisarticleestimatestheemissionreductionpotentialofChina’sIndustrialsectorfortheperiodof2010-2050.Itrevealsthat,taking2030astheyearwhentheemissionreachesthepeak,thetotalreductioncanbe8.38billiontons(bts)fortheperiodof2010-2030,with3.12btsfromstructuralreductionwhile5.26btsfromintensityreduction.Afterwards,reductionwillcontinuewithatotalamountof6.59btsfortheperiodof2030-2050,wherethestructuralreductionaccountsfor2.47bts,andintensityreduction4.115bts.Ifbothindustrialandenergyconsumptionstructuresareimprovedduringtheaboveperiod,thereductionpotentialcanbeevengreater,e.g.theemissionpeakcanarrivefiveyearsearlier(intheyearof2025)andthepeakvaluecandeclinebyabout8%ascomparedtotheoriginalestimation.Reviewingthetrajectoryofemissionchangesindevelopedcountriesindicatesthattheindustrysectorcancontributetotheoverallreductiontargetsthroughthedualwheelsofstructuralreductionandintensityreduction,evenbeyondtheemissionpeak.Thisarticleconcludeswiththefollowingpolicysuggestions.(1)OurestimationontheemissionpeakoftheindustrialsectorsuggeststhatChinashouldavoidanycommitmentearlierthan2030onthetimelineoftheoverallemissionpeak;(2)thegreatpotentialofindustrialemissionreductioncanimprovethesituationofChinainclimatechangenegotiation,wheretheintensityreductioncanserveasanimportantpolicyoption.(3)Reductionpotentialcanbefurtherenhancedthroughtechnologyadv
简介:Aspartofacomprehensiveenvironmentalmanagementsystem,manycountriesestablishemissioncontroltargetsformassemissionsofapollutant.Suchtargetsareoftenthekeyobjectiveofanenvironmentalpolicy,suchasanemissiontradingprogram.InChina,however,itismorethanjustanobjectiveofoneparticularpolicy;ithasbecomeaconceptthathasinfluencedmanynationalenvironmentalpoliciesandactivities.Theobjectiveofthisarticleistoreviewtheimplementationofthetotalemissioncontrolpolicyinthepast10yearsandexploreemergingissuesinitsimplementation.Thearticlehasthreesections:asummaryoftheimplementationexperience,issueswiththedesignandimplementationofthepolicy,andpolicyrecommendations.
简介:Chinahaswitnessedrapideconomicdevelopmentsince1978,andduringthetime,energyproductionandconsumptiondevelopedatatremendousspeedaswell.EnergyefficiencywhichcanbemeasuredbyenergyconsumptionperunitofGDP,however,experiencedcontinuousdecrease.Theoretically,thechangeofenergyefficiencycanbeattributedtoindustrystructuralchangeandtechnologicalchange.InordertoexplainthetransformationofChineseenergyefficiency,weadoptlogarithmicmeanDivisiaindextechniquestodecomposechangesinenergyintensityintheperiodof1994-2005.Wefindthattechnologicalchangeisthedominantcontributorinthedeclineofenergyintensity,butthecontributionhasdeclinedsince2001.Thechangeinindustrystructurehasdecreasedtheenergyintensitybefore1998,butraisedtheintensityafter1998.Decomposedtechnologicaleffectsforallsectorsindicatethattechnologicalprogressesinhighenergyconsumingindustriessuchasrawchemicalmaterialsandchemicalproducts,smeltingandpressingofferrousmetals,manufactureofnon-metallicmineralproductsandhouseholdcontributearetheprincipaldriversofChina'sdecliningenergyintensity.
简介:Circularagricultureisanessentialwaytorealizethepositiverecyclingofecologyandharmoniousdevelopmentofthecountryconstruction.ThesustainabledevelopmentofBeijing'smountainareasdependsonthebackgroundandorientationofecologicaleconomy.Beijing'smountainareasbeartheresponsibilityofprotectingtheecologicalsafetyofthewholeBeijingdistrictandalsotheexplorationofcircularagricultureinmountainareasisveryimportanttopromotethesustainableuseofagricultureresources.Beijing'smountainareashavepossessedsomepracticalexperienceinrecyclingagriculturedevelopment.Throughsummarizingthedevelopmentmodeandanalyzingthedevelopmentpractice,thearticleputsforwardthreekeysegmentsofpromotingBeijingcircularagriculturedevelopment:strengthenpropagate,developsuperiorityandbuiltmanagementmechanism.
简介:Basedonthetotal-factorenergyefficiencyframework,thispapercalculatesChina'sindustrialenergyefficiencyandCO2emissionsreductionpotentialfrom2000to2009byutilizingthedirectionaldistancefunctionanddataenvelopmentanalysis.Theempiricalresultsshowthat:China'sindustrialoverallenergyefficiencyisrelativelylowerwhiletheemis-sionsreductionpotentialisrelativelygreater,giventheoptimumproductionfrontier.Significantindus-trialdisparitiesofenergyefficiencyandemissionsreductionpotentialexist.Energyefficiencyandemis-sionsreductionpotentialsignificantlyshowdifferenttendenciesofindustrialdynamicvariation.ThispapersuggeststheChinesegovernmentimposedifferentialcarbontaxes,flexiblyutilizecarbonmarketmecha-nism,strengthenenergy-savingtechnologicalR&D,promotetheutilizationofrenewableenergy,andstrengthenenvironmentalsupervisionandregulation,soastoimproveChina'sindustrialenergyefficiencyandreduceCO2emissions.
简介:Chinaispreparingtoestablishanationwidecarbonmarketin2017,andinordertofacilitatethisgoal,sevenpilotcarbonmarketshavebeenunderstudyforthepastfewyears.ThispapersummarizestheoperationexperienceandchallengesofthesevenpilotcarbonmarketsinChina.Ithasbeenwidelyacceptedthattheessenceofacarbonmarketistosolveenvironmentalproblemsthroughmarketmechanisms,withenvironmentalbenefitbeingthefundamentalpurpose,marketmechanismbeingthekeymeasure,andpoliciesandregulationsbeinganimportantguaranteeforanorderlycarbonmarket.Therefore,thispaperconstructsanevaluationindexsystemcomposedof34detailedsub-indexesinthreedimensions,suchasenvironmentalconstraintforce,marketresourceallocationability,andsupportingpoliciesandfacilitycompleteness.Throughanalyzingtheoperationdatafrom2013to2016,theweightsofthesub-indexesareobtained.Inaddition,thestudyobtainsexperts’opinionsfromover10carbonpermitsexchanges,consultancyfirmsandresearchinstitutionsinChina,andconductsacomprehensiveevaluationonthedevelopmentdegreeofthesevenpilotcarbonmarkets.ResultsshowthatthepilotcarbonmarketsthatincludeprivateSMEsasthecoveredentitiesforemissionscontrolpresentrelativelyhigherenvironmentalconstraintforce.Buttoomanycoveredentitiescouldincreasethedifficultyofmarketperformancemanagement,whilethepilotsthatincludehighenergy-consumingstate-ownedenterprisesastheentitiesforemissionscontroldemonstrateaphenomenonof'highmarketcomplianceratewithlowtradingvolume'.TheresourceallocationcapabilityofChina’scarbonmarkethasnotbeeneffectivelybroughtintoplay,andlowdegreeofmarketparticipationhasbecomeanimportantconstraintfactorformarketdevelopment.Duetothelackoflawsandregulationsatthenationalmacro-level,thelegallybindingforceofthepilotmarketsconstructionisobviouslyinsufficient,andthesupportingpoliciesare
简介:Climatechangeandurbanizationissuesarethetwokeyfactorsthatmakehumansliabletobeaffectedbydisasters,whichareoverlappedinurbanagglomeration.ThefivebigurbanagglomerationsofChinawithstrongeconomicpoweraretheimportantenginesfornationaleconomicandsocialdevelopment.However,beinginthesea-landmutualinteractionbeltswithavasthazard-bearingbody,theyareaffectedbysea-landcompounddisasters,andareliabletosufferheavydisasterlosseswithclimatechange.Itissuggestedthatgovernmentdepartmentsconcernedshouldfullyrecognizetheimpactofclimatechangeoncoastalurbanagglomerations,proposestrategiesassoonaspossible,andintegratetheimpactofclimatechangeandadaptationcountermeasuresintothevariouskindsofsocial-economicdevelopmentplansforcoastalurbanregions.
简介:China'scirculareconomyisstillattheinitialstage,whosedevelopmenthasmanydifficultiesandproblemsrequiringimmediateresolutiontheoreticallyandpractically.Duetothedifferencesofregionsonthescaleofland,endowmentofresources,economicbasisandculturalbackground,thedevelopmentallevelsandcapabilitiesofcirculareconomyareinevitablydifferent.Basedonestablishingtheindicatorsystemforassessingthedevelopmentallevelofregionalcirculareconomy,spatialvariationofChina'scirculareconomyismeasuredbythequantitativemeasurementusingprincipalcomponentanalysis,andtheexistingproblemsarealsoanalyzedanddiscussed.Ononehand,thedifferencesofthedevelopmentcapabilityofthecirculareconomyofdifferentprovinces(cities)areprofoundinChina;①Differencebetweenthefirstcategory(strong)andthesecondcategory(relativelystrong)is1.1264points.Differencebetweenthesecondcategoryandthethirdcategory(relativelyweak)is0.3867points.Differencebetweenthethirdcategoryandthefourthcategory(weak)is1.0238points.Differencebetweenthefirstcategoryandthefourthcategoryreachesupto2.0869points.Averagedifferencebetweentheareawherethedevelopmentallevelofcirculareconomyisrelativelystrongandtheareawherethedevelopmentallevelofcirculareconomyisrelativelyweakis1.3617points.②Thedifferencesofthedistributionoftheareas,withdifferentdevelopmentcapabilityofcirculareconomy,whicharelocatedinthethreeeconomicregionsofChina,arealsoprofound.Theregionswitharelativelystrongdevelopmentcapabilityofcirculareconomyaremainlylocatedintheeasterneconomicarea,whichaccountfor22.58%ofthewholeregions,whileonlyaccountfor12.90%inthemiddleandwesterneconomicareas.Onthecontrary,theregionswitharelativelyweakdevelopmentcapabilityofcirculareconomyaccountfor48.39%inthemiddleandwesternarea,whileaccountfor16.13%intheeasternarea.Ontheothe