简介:中国具有丰富的湿地资源,但湿地退化十分严重。全球环境基金/中国国家林业局/联合国开发计划署中国湿地生物多样性保护与可持续利用项目的实施,旨在使湿地保护成为国家和地方政府决策和行动的常规考虑内容,提高公众保护湿地的意识。通过建立高效的项目实施机构,采用形式多样的措施,如政策立法、宣传教育、能力建设等,来推动湿地保护主流化。该项目取得已一系列成果,表现在:推动制定相关法规和政策,为湿地保护提供法律和政策保障;建立跨部门协调机制,加强相关部门在湿地保护与合理利用方面的合作;采取多种方式,促进湿地数据信息交流共享;加强宣传教育,提高政府和公众湿地保护的意识;开展跨学科的交叉研究,推动示范先进的湿地管理模式;通过管理能力建设,推动湿地保护可持续发展。该项目有力地推动了中国湿地生物多样性保护主流化进程,政府和公众的湿地保护意识得到明显提高。
简介:为配合中国台湾"《海岸法》(草案)"的保护区及防护区的划设,中国台湾新竹县接受中国台湾"内政部营建署"的补助,委托中华大学调查新竹县海岸动物相的分布。这个地区的动物是由哺乳纲、鸟纲、两栖纲、爬行纲、蛛形纲、条鳍鱼纲、昆虫纲、软甲纲、颚足纲、双壳纲、腹足纲的动物分布形成。采用快速评估法,计算Shannon-Wiener多样性指数(歧异度指数)并进行分析,求得克利金法推估的套图共计24张,包括各纲及汇总后的动物多样性图,以夏、秋两季呈现。研究区中共有11纲、41目、127科、245种动物,其中以竹北原生林生物多样性最高,竹北原生林中共计有8纲、29目、86科、137种动物。
简介:[1]AnZS,WeiLY,LuYC,1985,ApreliminarystudyofsoilstratigraphyinLuochuanloessprofile.QuaternarySciences,6(1):166-173.(inChinese)[2]AnZS,KutzbacchJE,PrellWLetal.,2001.EvolutionofAsianmonsoonsandphasedupliftoftheHimalaya-TibetanplateausinceLateMiocenetimes.Nature,411:62-66.[3]BarbaraAM,1995.PalaeorainfallreconstructionsfrompedogenicmagneticsusceptibilityvariationintheChineseloessandpalaeosol.QuaternaryResearch,44(3):383-391.[4]DerbyshireE,MengXM,KempRA,1998.Provenance,transportandcharacteristicsofmodemaeoliandustinwesternGansuProvince,China,andinterpretationoftheQuaternaryloessrecord.JournalofAridEnvironments,39:497-516.[5]DingZL,LiuDS,LiuXMetal.,1989.37cyclessince2.5Ma.ChineseScienceBulletin,34(19):1494-1496.[6]DingZL,RutterNW,SunJMetal.,2000.Re-arrangementofatmosphericcirculationatabout2.6MaovernorthernChina:evidencefromgrainsizerecordsofloess-palaeosolandredclaysequences.QuaternaryScienceReviews,19:547-558.[7]DuJ,ZhaoJB,2004.SoilerosionregularitysinceHoloceneinShaolingtablelandofChang′an.JournalofDesertResearch,24(1):63-67.(inChinese)[8]FengZD,WangHB,OlsonCetal.,2004.Chronolgicaldiscordbetweenthelastinterglacialpaleosol(S1)anditsparentmaterialintheChineseLoessPlateau.QuaternaryInternational,117:17-26.[9]GuoZT,LiuDS,FedoroffNetal.,1998.ClimateextremesinloessofChinacoupledwiththestrengthofdeep-waterformationintheNorthAtlantic.GlobalandPlanetaryChange,18:113-128.[10]GuoZT,WillamFRuddiman,HaoQZetal.,2002.OnsetofAsiandesertificationby22MyragoinferredfromloessdepositsinChina.Nature,416:159-163.[11]HeinrichH,1988.OriginandconsequenceofcycliciceraftinginthenortheastAtlanticOceanduringpast130000years.QuaternaryResearch,29:142-152.[12]KempRA,DerbyshireE,
简介:Glacierinventorycompilationduringthepast20yearsandmodificationsofthatfortheEasternPamirandBanggongLakeindicatethatthereare46,342modernglacierswithatotalareaandvolumeof59415km2and5601km3respectivelyinChina.Theseglacierscanbeclassifiedintomaritimeandcontinental(includingsub-continentalandextremelycontinental)types.ResearchesshowthatglaciersinChinahavebeenretreatingsincetheLittleIceAgeandthemasswastagewasacceleratedduringthepast30to40years.BeinganimportantpartofglaciologicalstudiesinChina,icecoreclimaticandenvironmentalstudiesonTibetanPlateauandintheAntarcticahaveprovidedabundant,highresolutioninformationaboutpastclimaticandenvironmentalevolutionovertheTibetanPlateauandAntarctica.ExceptfordifferentparametersrecordedinicecoresrelatingtoclimateandenvironmentchangesonTibetanPlateau,recordsfromicecoresextractedfromdifferentglaciersshowthatthediscrepanciesinclimaticandenvironmentalchangesonthenorthandsouthpartsoftheplateaumaybetheconsequenceofdifferentinfluencingeffectsfromterrestrialandsolarsources.GlaciologicalandmeteorologicalphenomenaimplythatLambertGlaciervalleyisanimportantboundaryofclimateintheeastAntarctica,whichisthoughttobeconnectedwithcyclonicactivitiesandCircum-polarWavesovertheAntarctica.
简介:PermafrostinChinaincludeshighlatitudepermafrostinnortheasternChina,alpinepermafrostinnorthwesternChinaandhighplateaupermafrostontheTibetanPlateau.Thehighaltitudepermafrostisabout92%ofthetotalpermafrostareainChina.Thesouthboundaryorlowerlimitoftheseasonallyfrozengroundisdefinedinaccordancewiththe0℃isothermallineofmeanairtemperatureinJanuary,whichisroughlycorrespondingtothelineextendingfromtheQinlingMountainstotheHuaiheRiverintheeastandtothesoutheastboundaryoftheTibetanPlateauinthewest.SeasonalfrozengroundoccursinlargepartsoftheterritoryinnorthernChina,includingNortheast,North,NorthwestChinaandtheTibetanPlateauexceptforpermafrostregions,andaccountingforabout55%ofthelandareaofChina.Thesouthernlimitofshort-termfrozengroundgenerallyswingssouthandnorthalongthe25°northernlatitudeline,occurringinthewetandwarmsubtropicmonsoonclimaticzone.Itsareaislessthan20%ofthelandareaofChina.
简介:[1]BrownL,1995.WhoWillFeedChina:Wake-upCallforaSmallPlanet.TheWorldWatchEnvironmentalAlertSeries.NortonandCo.,NewYork,USA.[2]CaiYunlong,1990.Land.In:ZuoDakang(eds.),ADictionaryofModernGeography.Beijing:TheCommercialPress,ppl11.(inChinese)[3]CaoM,MaS,HanC,1995.Potentialproductivityandhumancarryingcapacityofanagro-ecosystem:ananalysisoffoodproductionpotentialofChina.AgriculturalSystems,47:387-414.[4]ChenLiding,WangJun,FuBojieetal.,2001.Land-usechangeinasmallcatchmentofnorthernLoessPlateau,China.Agriculture,Ecosystems&Environment,86(2):163-172.[5]DaiFC,LeeCF,ZhangXH,2003.GIS-basedgeo-environmentalevaluationforurbanland-useplanning:acasestudy.EngineeringGeology,61(4):257-271.[6]DingChengri,2003.LandpolicyreforminChina:assessmentandprospects.LandUsePolicy,20:109-120.[7]FuBojie,WangJun,ChenLidingetal.,2003a.TheeffectsoflanduseonsoilmoisturevariationintheDanangoucatchmentoftheLoessPlateau,China.Catena,54:197-213.[8]FuCongbin,2003b.Potentialimpactsofhuman-inducedlandcoverchangeonEastAsiamonsoon.GlobalandPlanetaryChange,37(3-4):219-229.[9]FischerG,SunLaixiang,2001.Modelbasedanalysisoffutureland-usedevelopmentinChina.Agriculture,Ecosystems&Environment,85(1-3):163-176.[10]GuoXiaomin,NiuDekuietal.,2000.TheexplorationofdevelopingfruitindustrymodewithsoilandwaterconservationinsouthJiangxiarea.ResearchofSoilandWaterConservation,7(3):187-218.(inChinese)[11]HeXiubin,LiZhanbin,HaoMingdeetal.,2003.Down-scaleanalysisforwaterscarcityinresponsetosoil-waterconservationonLoessPlateauofChina.Agriculture,EcosystemsandEnvironment,94:355-361.[12]HeiligGK,1999.CanChinafeeditself?Asystemforevaluationofpolicyoptions.ScienceforGlobalInsight,IIASA,Laxenburg(CD-ROMVers.1.1).[13]HuWei,1997.HouseholdlandtenurereforminChina:itsim
简介:Sandydesertificationislanddegradationcharacterizedbywinderosionmainlyresultedfromtheexcessivehumanactivitiesinarid,semiaridandpartofsub-humidregionsinnorthernChina.Theresearchonsandydesertificationhasexperiencedmorethan5decadesofarduouscourseofthestrugglealongwiththeestablishmentanddevelopmentofChina′sdesertscience.Researchesinthisfieldhavemadeagreatcontributiontothenationaleconomicconstruction,andenvironmentalprotection.Thispaperfocusesonpresentingthemajorprogressandachievementsinthesandydesertificationresearchduringthelast50years,includingthestagesofstudyonsandydesertification,backgroundenvironmentofsandydesertificationanditschanges,theconception,causes,process,monitoringandassessmentofsandydesertification,thevegetationsuccession,landscapeecology,plantphysiology,impactsonecosystem,high-effectiveuseofwaterandlandresourcesandsustainabledevelopmentinsandydesertifiedregions,sandydesertificationcontrolmodelsandtechniquesetc.
简介:人类对自然界的认识过程总是由浅入深循序渐进的。回顾过去,中国黄土成因经历了从“水成”到“风成”这样一个曲折的认识过程。通过分析黄土成因争论的历程,得到如下启示:1)过去的黄土成因争论源于人们不认识黄土层中的古土壤,因此识别地层中古土壤对重建古地理环境具有重大意义。2)水平层状地层并非都是水平沉积层理,也有可能是古土壤发生层次,具有水平层理的沉积地层则可能意味着在水中沉积形成,而古土壤层则是在地表环境形成。3)古土壤层的特点是古土壤层具有土壤发生层次,因此各层次之间一般呈现为渐变特征。而沉积地层通常具有明显的顶部和底部,显示着截然变化。4)在总结新生代古土壤特点的基础上,重新认识更老地层的古地理环境,发挥古土壤在研究地层成因、重建古气候等方面的作用。
简介:AstochasticmodelfordailyprecipitationsimulationinChinawasdevelopedbasedontheframeworkofa′Richardson-type′weathergeneratorthatisanimportanttoolinstudyingimpactsofweather/climateonavarietyofsystemsincludingecosystemandriskassessment.ThepurposeofthisworkistodevelopaweathergeneratorforapplicationsinChina.Thefocusisonprecipitationsimulationsincedeterminationofotherweathervariablessuchastemperatureisdependentonprecipitationsimulation.AframeworkoffirstorderMarkovChainwithGammaDistributionfordailyprecipitationisadoptedinthiswork.Basedonthisframework,fourparametersofprecipitationsimulationforeachmonthat672stationsalloverChinaweredeterminedusingdailyprecipitationdatafrom1961to2000.Comparedwithpreviousworks,ourestimationfortheparameterswasmadeformorestationsandlongerobservations,whichmakestheweathergeneratormoreapplicableandreliable.Spatialdistributionsofthefourparametersareanalyzedinaregionalclimatecontext.Theseasonalvariationsoftheseparametersatfivestationsrepresentingregionaldifferencesarediscussed.Basedontheestimatedmonthlyparametersat672stations,dailyprecipitationsforanyperiodcanbesimulated.A30-yearsimulationwasmadeandcomparedwithobservationsduring1971-2000intermsofannualandmonthlystatistics.Theresultsaresatisfactory,whichdemonstratestheusefulnessoftheweathergenerator.
简介:通过对北京白河植物群落的组成、结构、生物量、生活型及区系特征调查研究.结果表明,白河滩地共分布有水生、湿生植物33科98属178种;生活型以地面芽植物和一年生植物占优势;区系特征以世界广布和北温带分布型占主导.该调查区域共有18个湿地植物群落类型;主要植物群落的生物量秋季小香蒲(Typhaminima)群落为3200g/m2;芦苇群落(Phragmitesaustralis)为3000g/m2;有芒稗(Echinochloacrusgalliivar.caudata)群落为3500g/m2;褐鳞莎草群落(Cyperusfuscus)为1300g/m2.该地区主要植物群落的生物量、群落组织水平、多样性与人为活动干扰有密切关系.
简介:2009年4~10月,在女山湖荷花湖区、大湖面湖区和焦成圩湖区3个断面9个采样点进行采样,对女山湖底栖动物的群落特征和生物多样性进行了调查,共采集到底栖动物34种,其中寡毛类5种,多毛类1种,蛭类2种,水生昆虫7种,软体动物19种。寡毛类中的颤蚓(Tubifexsp.)和苏氏尾鳃蚓(Branchiurasowerbyi),水生昆虫中的前突摇蚊(Procladius)为底栖动物中的代表种类;中华园田螺(Cipangopaludinachinensis)、纹沼螺(Parafossarulusstritula)和淡水壳菜(Limnopernalacustris)为软体动物代表种类。底栖动物的合计平均密度为517.4个/m2,合计平均生物量为188.2g/m2。在各类群中,软体动物、寡毛类和水生昆虫的生物量位于前三位。利用Shannon-Wiener指数法和生物指数法对女山湖水体污染状况进行了分析,二者的分析结果稍有差异。所有采样点底栖动物的Shannon-Wiener指数变化在2.25~2.38之间,3个断面采样点的水质都为轻度污染;所有采样点底栖动物的生物指数变化在6.4~7.6之间,大湖面湖区断面采样点的水质清洁,荷花湖区断面和焦成圩湖区断面采样点的水质为轻度污染。
简介:本研究通过收集国内已发表的文献中具有凋落物分解常数的数据,采用SPSS13.0软件综合分析中国森林凋落物分解速率的影响因素.结果发现:凋落物类型对凋落物分解速率有显著影响(P〈0.05),凋落叶氮含量与分解速率呈极显著正相关(P〈0.01).在同一样地的研究中,混合分解的凋落叶分解常数极显著高于单独分解的(P〈0.01).叶习性对凋落叶分解速率没有显著影响(P〉0.05),但在中国的温带地区则有显著影响(P〈0.05).在全国尺度上树种组成对凋落物分解速率没有显著影响(P〉0.05).凋落叶分解速率与经度、年均温和降水量成极显著正相关(P〈0.01),与纬度和海拔成极显著负相关(P〈0.01).凋落叶分解速率的Q10值为1.768.网袋孔径与土壤类型对凋落叶分解速率亦均有极显著影响(P〈0.01).