界门纲目科属种28页PPT

界门纲目科属种生物分类学是研究生物分类的方法和原理的生物学分支.分类就是遵循分类学原理和方法,对生物的各种类群进行命名和等级划分.瑞典生物学家林奈将生物命名后,而后的生物学家才用域、界〔Kingdom〕、门〔Phylum〕、纲〔Class〕目〔Order〕、科〔Family 卜属〔Genus〉种〔Species加以分类.最上层的界,由怀塔克所提出的五界,比拟多人接受；分别为原核生物界、原生生物界、菌物界、植物界以及动物界.从最上层的界〞开始到种",愈往下层那么被归属的生物之间特征愈相近.两界分类系统瑞典生物学家林奈〔1707〜1778〕,注意到周围的生物有固着不动和自养型的植物,也有自由瑞典植物学家林奈行动和异养型的动物.因此,他把整个生物分成相应的两大类：植物界和动物界,即所谓的两界分类系统.该系统把细菌类、藻类和真菌类归入植物界,把原生动物类归入动物界.在分类上,这个系统自问世以来,一直沿用到20世纪50年代.三界分类系统xx把生物分为两大类群：固着的植物和行动的动物.两百多年来,随着科学的开展,人们逐渐发现,这个两界系统存在着不少问题,但直到20世纪50年代,仍为一般教本所遵从,根本没有变动.最初的问题产生于中间类型,如眼虫综合了动植物两界的双重特征,既有叶绿体而营光合作用,又能行动而摄取食物.植物学者把它们列为藻类,称为裸藻；动物学者把它们列为原生动物,称为眼虫.中间类型是进化的证据,却成为分类的难题.为了解决这个难题,在19世纪60年代,人们建议成立一个由低等生物所组成的第三界,取名为原生生物界,包括细菌、藻类、真菌和原生动物.这个三界系统解决了动植物界限难分的问题,但未被接受,整整100年后,直到20世纪50年代,才开始流行了一段时间,为不少教科书所采用.1/14四界分类系统在三界分类系统,只因真菌类〔如我们日常食用的蘑菇以及遗传上常用的实验材料粗糙脉抱菌和面包酵母〕固着生活和有细胞壁而归入植物界.但真菌细胞壁的化学组成是几丁质〔而不是纤维素〕,储存的是糖原〔而不是淀粉〕,这些都有别于其他植物.真菌虽为异养型,但主要为腐生或寄生,有别于动物的异养摄生或异养摄食；真菌为细胞外消化,即把其消化酶分泌到食物上,在胞外把食物分解后再吸收到胞内供利用,也有别于动物的细胞内消化.由于真菌与植物和动物的上述明显差异,所以在1959年魏泰克〔RHWhittaker〕提出了另立1个真菌界的四界〔原生生物界、真菌界、植物界和动物界〕分类系统.五界分类系统魏泰克〔R.H.Whittaker,1924—1980〕将生物分成五个界.目前,生物分类学上使用较广的是五界分类系统,它是由美国生物学家魏泰克〔R.H.Whittaker,1924—1980〕在1969年提出的.魏泰克在已区分了植物与动物、原核生物与真核生物的根底上,又根据真菌与植物在营养方式和结构上的差异,把生物界分成了原核生物界、原生生物界、真菌界、植物界和动物界五界.其中的原生生物界包括一切真核的单细胞生物和没典型细胞分化的多细胞生物.在这些生物中,有些似乎应放在动物界,如草履虫、变形虫,有些似乎应放在植物界,如衣藻、团藻,而有些那么兼有植物和动物〔或真菌〕的双重特征,如眼虫和黏菌.魏泰克认为,这些生物处于进化的低级阶段,它们之间是没有清楚界限的,因此,可以放在一个界中.但是,有些分类学家那么主张将它们分别放到动物界或植物界中,对于那些同时具有动物和植物两方面特征的生物,可以既收入植物界,也收入动物界,成认它们的双重身份〞.五界系统按复杂性增加的三个层次排列生命：原核的单细胞〔原核生物界〕；真核的单细胞〔原生生物界〕；真核的多细胞〔植物界、真菌界和动物界〕.随着生物层次的上升,生物变得愈加多样化,由于生物结构和功能复杂性的增加,变异的时机增多.多细2/14胞生命的三个界代表了一种生态的和形态的分类.植物〔生产〕、真菌〔复原〕和动物〔消费〕代表了我们这个世界上三种主要生存方式.五界系统：原核生物界、原生生物界、植物界、菌物界、动物界.两总界五界分类系统中国学者陈世疆等认为,上述五界分类系统把原生生物界列为一个中间阶段,削弱了原核与真核两个根本阶段的比照性；在原核生物界和原生生物界内,也没有考虑生态关系.为此,去掉原生生物界而成为两总界五界分类系统：原核总界〔分为细菌界和蓝藻界〕和真核总界〔分为植物界、真菌界和动物界〕；原来属于原生生物界的生物,依情况分属到植物界、真菌界和动物界.六界分类系统随着分子生物学技术的进步,人们发现在五界分类系统中,原核界的细菌在形态上尽管很相似,但根据分子水平上的差异可明显分成两大类：古细菌和真细菌.例如,在古细菌中,存在TA键合蛋白盒子〔ATTAboxbindingprotein〕,这也是真核生物中RNA多聚酶I、H、HI的根本转录因子,但在真细菌中却没有这种转录因子.又如,在核糖体RNA〔rRNA的同源性上,在细胞壁和细胞膜的成分上,以及在转移RNA〔tRNA稀有碱基的差异上,古细菌和真细菌都有明显不同；这个不同甚至要超过它们各自与真核生物的不同.所以,沃斯〔CRWoese〕认为,应把原核生物界分类两界：古细菌界和真细菌界.古细菌界的细菌主要生活在一些极端环境中,如沼泽地底层〔甲烷细菌〕、热泉〔如布氏火盘菌,最适生长温度达105C〕等.真细菌界的细菌为常见类型,有共生的,如遗传研究的重要细菌大肠杆菌；有寄生和致病的,如沙门氏菌和葡萄球菌.真细菌界还包括蓝绿藻.关于六界间的生物在进化上的关系,沃斯根据它们在分子水平上的差异认为,所有生物有3种最根本的类型：3/14古细菌、真细菌和最简单的真核生物.由于它们彼此间在分子水平上的差异大小近于相等,所以它们可能或多或少直接起源于地球上的原始生命,即原始生命在自然选择过程中,或迟或早地出现了这3种类型的独立进化途径.开始,可能古细菌在地球上占优势,由于它们的代谢很好地适应了原始地球条件〔富有二氧化碳,缺氧、高温〕.往后,当氧成为大气的主要成分和地球温度逐渐变冷时,适合于需氧和较低温度的真细菌又可能占优势.关于真核细胞的起源一直是个谜.根据分析,真核生物叶绿体的DNA和蓝绿藻的DNA极为相似,而有些真核细胞的基因又与古细菌的极为相似,所以最简单的真核生物可能有复杂的起源,即原始生命、古细菌和真细菌都可能参与了这一过程,再后,最简单的真核生物,在长期的自然选择过程中又进化成四界：原生生物界、植物界、真菌界和动物界.病毒是结构上极为简单的非细胞生物.病毒是生物,是因它具有生命的某些特征,如借助于宿主细胞可以进行繁殖,以产生更多的病毒.但其简单的结构,到底是原始地球上的最初生命形式,还是原核界生物退化的产物,现尚无定论,从而也还不能确定其分类地位.生命的历史非细胞形态的生命生命的历史经历了几个重要阶段,最初的生命应是非细胞形态的生命,当然,在细胞出现之前,必须有个非细胞〞或前细胞〞的阶段.病毒就是一类非细胞生物,只是关于它们的来历,是原始类型,还是次生类型,仍未定论.从非细胞到细胞式生物从非细胞到细胞是生物开展的第二个重要阶段.早期的细胞是原核细胞,早期的生物称为原核生物〔细菌、蓝藻〕.原核细胞构造简单；没有核膜,没有复杂的细胞器.从原核到真核式生物从原核到真核是生物开展的第三个重要阶段.真核细胞具有核膜,整个细胞分化为细胞核和细胞质两个局部：4/14细胞核内具有复杂的染色体装置,成为遗传中央；细胞质内具有复杂的细胞器结构,成为代谢中心.由核质分化的真核细胞,其机体水平远远高出于原核细胞.从单细胞真核生物到多细胞生物从单细胞真核生物到多细胞生物是生命史上的第四个重要阶段.随着多细胞体形的出现,开展了复杂的组织结构和器官系统,最后产生了高级的被子植物和哺乳动物.植物、菌类和动物组成为生态系统的三个环节.绿色植物是自养生物,是自然界的生产者.它们通过叶绿素进行光合作用,把无机物质合成有机养料,供给自己,又供给异养生物.菌类是异养生物,是自然界的分解者.它们从植物得到食料,又把有机食料分解为无机物质,反过来为植物供给生产原料.动物亦是异养生物,它们是消费者,是地球上最后出现的一类生物.即使没有动物,植物和菌类仍可以存在,由于它们已经具备了自然界物质循环的两个根本环节,能够完成循环过程中合成与分解的统一.但是,如果没有动物,生物界不可能这样丰富多彩,更不可能产生人类.植物、菌类和动物代表生物进化的三条路线或三大方向.1藻类植物(Algae)1.1蓝藻门(Cyanophyta)--蓝藻纲(Cyanophycea©---色球藻目(Chrooccale§/管胞藻目(ChamaesiphonaleS/颤藻目(Osillatoriales)1.2裸藻门(Euglenophyta)-W藻纲(Euglenophyceae)-裸藻目(Euglenale§/柄裸藻目(Colaciale§1.3金藻门(Chrysophyta)-金藻纲(Chrysophyceae)-金胞藻目(Chrysomonadales/根金藻目(Rhizochrysidale§/金囊藻目(Chrysocapsales/金球藻目(Chrysosphaerales/金枝藻目(Phaeothamniales)1.4甲藻门(Pyrrophyta)--纵裂甲藻纲(Desmophycea0--原甲藻目(Procentrales)5/14横裂甲藻纲(Dinophyceae)--多甲藻目(Peridi-niales)/变形甲藻目(Dinamoebidiales)/胶甲藻目(Gloeodiniales)/球甲藻目(DinoccaleS)/丝甲藻目(Dinotrichales)1.5黄藻门(Xanthophyta)(Chromophyta)--黄藻纲(Xanthophyceae)-异鞭藻目(Heterochloridales)/根黄藻目(Rhizochloridales/异囊藻目(Heteroglocales)/柄球藻目(Mischoccales)/异丝藻目(Heterotrichales)/气球藻目(Botrydiales)1.6硅藻门(Bacillariophyta)--中央硅藻纲--圆筛藻目/根管藻目/盒形藻目羽纹硅藻纲/无壳藻目/单壳藻目/短壳藻目/双壳藻目/管壳藻目1.7绿藻门(Chlorophyta)--绿藻纲(Chlorophyceae)--团藻目(Volvocales)/四胞藻目(Tetrasporales)/色球藻目(Chloroccale§/丝藻目(Ulotrichales)/胶毛藻目(Chaetophorales)/石藤目(Ulvales)/溪菜目(Prasiolale§/鞘藻目(Oedogoniale^/刚毛藻目(Cladophrales)/管藻目(Siphonales)/管枝藻目(Siphonocladale9/绒枝藻目(Dasycladales/双星藻目(Zygnematales1.8轮藻门(Charophyta)-轮藻纲(Charophycea©--轮藻目1.9褐藻门(phaeophyta)等世代纲不等世代纲无抱子纲1.10红藻门(Rhodophyta)红藻纲l紫菜亚纲l真红藻亚纲2地衣植物门(Lichenes)--子囊衣纲(Ascolichens)/担子衣纲(Basidiolichens)/半知衣纲(Deuterolichens)3苔葬植物门(Bryophyta)3.1苔纲(Hepaticae)--藻苔目/地钱目/美苔目/囊果苔目/叶苔目3.2酬纲(Musci)/泥炭辞亚纲(Sphagnidae)/黑酬亚纲(Asdreaeidae)/真葬亚纲(Bryidae)3.3角苔纲(Anthocerotae)4蕨类植物门(Pteridophyta)6/144.1石松亚门(Lycophytina)-石松纲Lycopsida4.2水韭亚门(Isoephytina)--水韭纲Isoetinae--水韭目Isoetales/水韭科Isoetaceae水韭属Isoetesspp.4.3楔叶蕨亚门(Sphenophytina)--楔叶蕨纲(Sphenopsida)-木贼目(Equisetales卡贼科(Equisetaceae)-木贼属(Equisetum)4.4裸蕨亚门(Psilophytina)-裸蕨纲Psilopsida-松叶蕨目Psilotales-松叶蕨科Psilotaceae4.5真蕨亚门(Filicophytina)--厚囊蕨纲(Eusporangiopsida)/M始薄囊蕨纲(Protolyptosporangiopsida)/薄囊蕨纲(Leptosporangiopsida)5种子植物门(Spemaiophyla)5.1裸子植物亚门Gymnospermae5.1.1银杏纲(Ginkgopsida)-银杏目Ginkgoales-银杏科Ginkgoaceae5.1.2松柏纲(Coniferopsida科达目(已绝种)伏脂杉目(已绝种)松柏目(Coniferales)5.2被子植物亚门(木兰门)Angiospermae或Magnoliophyta或floweringplants5.2.1单子叶植物纲(百合纲)Liliopsida5.2.1.1百合亚纲Liliidae--百合目Liliales百合科Liliaceae-前属：蒜,洋葱,韭菜风信子科Hyacinthaceae风信子属Hyacinthus:7/14风信子Hyacinth田葱科Philydraceae彼舌兰科Agavaceae鹰尾科Iridaceae/百部科Stemonaceae底藜科Smilaceae唐朝科Dioscoreaceae菊蓊薯科Taccaceae兰目Orchidales/兰科Orchidaceae冰玉簪科Burmanniaceae5.2.1.2泽泻亚纲Alismatidae-泽泻目Alismatales/水鳖目Hydrocharitales/茨藻目Najadales/SB 草目Triuridales5.2.1.3槟榔亚纲Arecidae-槟榔目Arecales邮花草目Cyclanthales僖兜树目Pandanales庆南星目Arales--天南星科Araceae解萍科Lemnaceae5.2.1.4鸭跖草亚纲Commelinidae--鸭跖草目Commelinales/谷精草目Eriocaulales帚灯草目Restionales灯心草目Juncales莎草目Cyperales--禾本科Poaceae-竹Bamboo/莎草科Cyperaceae-香蒲目Typhales5.2.1.5姜亚纲Zingiberidae-主目Zingiberales-美人蕉科Cannaceae闭鞘姜科Costaceae/®蕉科Heliconiaceae及曷尾蕉科/兰花蕉科Lowiaceae竹芋科Marantaceae/芭蕉科Musaceae/鹤望兰科Strelitziaceae源人蕉科/姜科Zingiberaceaexx目Bromeliales5.2.2双子叶植物纲〔木兰纲〕Magnoliopsida胡桃目Juglandalesl胡桃科Juglandaceae核桃属-核桃枫杨属-枫杨山毛棒目Fagalesl桦科Betulaceae5.2.2.3石竹亚纲Caryophyllidae石竹目Caryophyllalesl仙人掌科Cactaceael马齿范科Portulaceae蓼目Polygonales5.2.2.4五植果亚纲Dilleniidae五神果目Dillanialesl芍药科Paeoniaceae 山茶目Thealesl彳弥猴桃科Actinidiaceae彳弥猴桃属--彳弥猴桃锦葵目Malvalesl锦葵科Malvaceae木槿属Hibiscusl梧桐科Sterculiaceael搬树科Tiliaceae猪笼草目Napenthales堇菜目Violalesl葫芦科Cucurbitaceael西番莲科Passifloraceael怪柳科Tamaricaceae杨柳目Salicalesl杨柳科Salicaceae杨属-毛白杨-加杨-青杨-大官杨柳属一旱柳-垂柳-杞柳杜鹃花目Ericales柿目Ebenalesl柿科Ebenaceae柿树属一柿树-软枣5.2.2.5蔷薇亚纲Rosidae蔷薇目Rosalesl蔷薇科8/14Rosaceae梨属―白梨苹果属--苹果,海棠山楂属--山楂樱属―杏-桃蔷薇属--月季-玫瑰-蔷薇豆目Fabalesl含羞草科Mimosaceae合欢属--合欢l苏木科Caesalpinaceae皂英属皂英l蝶形花科Fabaceae槐属--国槐紫穗槐属--紫穗槐刺槐属--刺槐紫藤属--紫藤桃金娘目Myrtalesl石榴科Punicaceae石榴属--石榴l使君子科Combretaceae红树目Rhizophorales山茱萸目Cornalesl 琪桐科Nyssaceae琪桐属--琪桐檀香目Santales卫矛目Celastralesl冬青科Aquifoliaceae大戟目Euphorbialesl黄杨科Buxaceae黄杨属--雀舌黄杨-锦熟黄杨鼠李目Rhamnalesl鼠李科Rhamnaceae 鼠李属--长叶冻绿-园叶鼠李-薄叶鼠李-冻绿匀儿茶属--多花勾儿茶-牯岭勾儿茶枳属--枳-毛枳枣属--枣树铜钱树属--铜钱树猫乳属--猫乳雀梅藤属--钩状雀梅藤属--雀梅藤l葡萄科Vitaceae葡萄属--葡萄-东南葡萄-薄叶葡萄-刺葡萄蛇葡萄属--闪光蛇葡萄-蛇葡萄-小叶蛇葡萄爬山虎属--爬山虎-粉叶爬山虎-三叶爬山虎乌毅莓属--乌毅莓-大叶乌毅莓亚麻目Linalesl古柯科Erythroxylaceae无患子目Sapindalesl苦木科Simaroubaceae臭椿属--臭椿楝科Meliaceae楝属--苦楝香椿属--香椿l橄榄科BurseraceaeAceraceael芸香科Rutaceae柑橘属拢牛儿苗目Geranialesl凤仙花科Balsaminaceae伞形目Apiales山龙眼目Protealesl胡颓子科日aeagnaceae胡颓子属--铜色叶胡颓子木半夏-胡颓子-牛奶子虎儿草目l茶藤子科醋栗属5.226菊亚纲人曳6同26龙胆目Gentianales茄目Solanales车前目Plantaginales玄参目Scrophularialesl木犀科Oleaceae白蜡属--白蜡茉莉属--茉莉、迎春花连翘属--连翘l玄参科Scrophulariaceae泡桐属--楸叶桐-兰考桐l紫蕨科Bignoniaceae梓树属--楸树-梓树桔梗目Campanulales茜草目Rubiales菊目Asterales生物分类学的历史人类早期分类人类在很早以前就能识别物类,给以名称.汉初的?尔雅?把动物分为虫、鱼、鸟、兽4类：虫包括大局部无脊椎动物；鱼包括鱼类、两栖类、爬行类等低级脊椎动物及鲸和虾、蟹、贝类等,鸟是鸟类；兽是哺乳动物.这是中国古代最早的动物分类,四类名称的产生时期看来不晚于西周.这个分类,和林奈的六纲系统比较,只少了两栖和蠕虫两个纲.古希腊哲学家亚里士多德采取性状比照的方法9/14区分物类,如把热血动物归为一类,以与冷血动物相区别.他把动物按构造的完善程度依次排列,给人以自然阶梯的概念.近现代的分类17世纪末,英国植物学者雷曾把当时所知的植物种类,作了属和种的描述,所著?植物研究的新方法?是林奈以前的一本最全面的植物分类总结,雷还提出杂交不育〞作为区分物种的标准.近代分类学诞生于18世纪,它的奠基人是瑞典植物学者林奈.林奈为分类学解决了两个关键问题：第一是建立了双名制,每一物种都给以一个学名,由两个拉丁化名词所组成,第一个代表属名,第二个代表种名.第二是确立了阶元系统,林奈把自然界分为植物、动物和矿物三界,在动植物界下,又设有纲、目、属、种四个级别,从而确立了分类的阶元系统.每一物种都隶属于一定的分类系统,占有一定的分类地位,可以按阶元查对检索.林奈在1753年印行的?植物种志?和1758年第10版?自然系统?中首次将阶元系统应用于植物和动物.这两部经典著作,标志着近代分类学的诞生.林奈相信物种不变,他的?自然系统?没有亲缘概念,其中六个动物纲是按哺乳类、鸟类、两栖类、鱼类、昆虫、蠕虫的顺序排列的.拉马克把这个颠倒了的系统拨正过来,从低级到高级列成进化系统.他还把动物区分为脊椎动物和无脊椎动物两类,并沿用至今.由于林奈的进化观点在当时没有得到公认,因而对分类学影响不大.直到1859年,达尔文的?物种起源?出版以后,进化思想才在分类学中得到贯彻,明确了分类研究在于探索生物之间的亲缘关系,使分类系统成为生物系谱一一系统分类学由此诞生.生物分类学的根本内容总分类分类系统是阶元系统,通常包括七个主要级别：种、属、科、目、纲、门、界.种〔物种〕是根本单元,近缘的种归合为属,近缘的属归合为科,科隶于目,目隶于纲,纲隶于门,门隶于界.随着研究的进展,分类层次不断增加,单元上下可以附加次生单元,如总纲〔超纲〕、亚纲、次纲、总目〔超目〕、亚目、次目、总科〔超科〕、亚科等等.此外,还可增设新的单元,如股、群、族、组等等,其中最常设的是族,介于10/14亚科和属之间.列入阶元系统中的各级单元都有一个科学名称.分类工作的基本程序就是把研究对象归入一定的系统和级别,成为物类单元.所以分类和命名是分不开的.学名命名种和属的学名后常附命名人姓氏,以标明来源,便于查找文献.变种学名亦采取三名制,分类名称要求稳定,一个属或种〔包括种下单元〕只能有一个学名.一个学名只能用于一个对象〔或种〕,如果有两个或多个对象者,便是异物同名〞,必须于其中核定最早的命名对象,而其他的同名对象那么另取新名.这叫做优先律〞,动物和植物分类学界各自制订了?命名法规?,所以在动物界和植物界间不存在异物同名问题.优先律〞是稳定学名的重要举措.优先律的起始日期,动物是1758年,植物是1820年,细菌那么起始于1980年1月1日.鉴定学名是取得物种有关资料的手段,即使是前所未知的新种类,只要鉴定出其分类隶属,亦可预见其一定特征.分类系统是检索系统,也是信息存取系统.许多分类著作,如基于区系调查的动植物志,记述某一国家或地区的动植物种类情况,作为根本资料,都是为鉴定、查考效劳的.物种指一个动物或植物群,其所有成员在形态上极为相似,以至可以认为他们是一些变异很小的相同的有机体,它们中的各个成员间可以正常交配并繁育出有生殖水平的后代,物种是生物分类的根本单元,也是生物繁殖的根本单元.物种概念反映时代思潮.在林奈时代,人们相信物种是不变的,同种个体符合于同一模式〞.模式概念渊源于古希腊哲学的古老的概念,应用到整个分类系统,概念假定所有阶元系统中的各级物类单元,都各自符合于一个模式.物种的变与不变曾经是进化论和特创论的斗争焦点,是势不两立的观点.但是,分类学的事实说明,每一物种各有自己的特征,没有两个物种完全相同；而每个物种又保持一系列祖传的特征,据之可以决定其界、门、纲目、科、属的分类地位,并反映其进化历史.分类工作的根本内容是区分物种和归合物种,前者是种级和种下分类,后者是种上分类.种群概念提升了种级分类水平,改良了种下分类,其要点是以亚种代替变种.亚种一般是指地理亚种,是种群的地理分化,具有一定的区别特征和分布范围.亚种分类反映物种分化突出了物种的空间概念.变种这一术语过去用得很杂,11/14有的指个体变异,有的指群体类型,意义很不明确,在动物分类中已废除不用.在植物分类中,一般用以区分居群内部的不连续变体.生态型是生活在一定生境而具有一定生态特征的种内类型,常用于植物分类.人工选育的动植物种下单元称为品种.由于种内、种间变异错综复杂,分类学者对种的划分有时分歧很大.根据外部形态的异同程度作为划分物种依据而划分的称为形态种,由于对各种形态特征的重要性熟悉不一,使划分的种因人而异,尤其是分类学者对某些特征的加权〞常使它们比其他特征更具重要性,而造成主观偏见.一个物种或物类,以至整个植物界和动物界,都有自己的历史.研究系统发育就是探索种类之间历史渊源,以说明亲缘关系,为分类提供理论依据.尽管在分类学派中有综合〔进化〕分类学、分支系统学和数值分类学三大流派,但在其根本原理上都有许多共同之处,不过各自强调不同的方面而已.特征比照是分类的基该方法.所谓比照是异同的比照：异〞是区分种类的根据,同〞是合并种类的根据.分析分类特征,首先要考虑反映共同起源的共同特征.但有同源和非同源的不同.例如鸟类的翼和兽类的前肢是同源器管,可以追溯到共同的祖先,是同源特征〞.恒温在鸟兽是各别起源,并非来自共同祖先,是非同源特征〞.系统分类采用同源特征,不取非同源性状.林奈把生物分为两大类群：固着的植物和行动的动物.两百多年来,随着科学的开展,人们逐渐发现,这个两界系统存在着不少问题,但直到20世纪50年代,仍为一般教本所遵从,根本没有变动.最初的问题产生于中间类型,如眼虫综合了动植物两界的双重特征,既有叶绿体而营光合作用,又能行动而摄取食物.植物学者把它们列为藻类,称为裸藻；动物学者把它们列为原生动物,称为眼虫.中间类型是进化的证据,却成为分类的难题.为了解决这个难题,在19世纪60年代,人们建议成立一个由低等生物所组成的第三界,取名为原生生物界,包括细菌、藻类、真菌和原生动物.这个三界系统解决了动植物界限难分的问题,但未被接受,整整100年后,直到20世纪50年代,才开始流行了一段时间,为不少教科书所采用.生命的历史经历了几个重要阶段,最初的生命应是非细胞形态的生命,当然,在细胞出现之前,必须有个非细胞〞或前细胞〞的阶段.病毒就是一类非细胞生物,只是关于它们的来历,是原始类型,还是次生类型,仍未定论.12/14细胞从非细胞到细胞是生物开展的第二个重要阶段.早期的细胞是原核细胞,早期的生物称为原核生物〔细苗、蓝藻〕.原核细胞构造简单；没有核膜,没有复杂的细胞器.从原核到真核是生物开展的第三个重要阶段.真核细胞具有核膜,整个细胞分化为细胞核和细胞质两个局部：细胞核内具有复杂的染色体装置,成为遗传中央；细胞质内具有复杂的细胞器结构,成为代谢中央.由核质分化的真核细胞,其机体水平远远高出于原核细胞.从单细胞真核生物到多细胞生物是生命史上的第四个重要阶段.随着多细胞体形的出现,开展了复杂的组织结构和器官系统,最后产生了高级的被子植物和哺乳动物.植物、菌类和动物组成为生态系统的三个环节.绿色植物是自养生物,是自然界的生产者.它们通过叶绿素进行光合作用,把无机物质合成有机养料,供给自己,又供给异养生物.菌类是异养生物,是自然界的分解者.它们从植物得到食料,又把有机食料分解为无机物质,反过来为植物供应生产原料.动物亦是异养生物,它们是消费者,是地球上最后出现的一类生物.即使没有动物,植物和菌类仍可以存在,由于它们已经具备了自然界物质循环的两个根本环节,能够完成循环过程中合成与分解的统一.但是,如果没有动物,生物界不可能这样丰富多彩,更不可能产生人类.植物、菌类和动物代表生物进化的三条路线或三大方向.当前最流行的分类是一种五界系统.五界系统反映了生物进化的三个阶段和多细胞阶段的三个分支,是有纵有横的分类.它没有包括非细胞形态的病毒在内,也许是由于病毒系统地位不明之故.它的原生生物界内容庞杂,包括全部原生动物和红藻、褐藻、绿藻以外的其他真核藻类,包括了不同的动物和植物.例举：斑马鱼的界门纲目科属种斑马鱼属动物界,脊椎动物门,硬骨鱼纲,鲤形目,鲤科,短担尼鱼属,原产于南亚,是一种常见的热带鱼.斑马鱼体型纤细,成体长3-4cm,对水质要求不高.孵出后约3个月到达性成熟,成熟鱼每隔几天可产卵一次.卵子体外。

界门纲目科属种（Thegateofaclass）界门纲目科属种（The gate of a class）界门纲目科属种(The gate of a class)After the Swedish biologist Linnaeus named the creature, the latter biologists used the domain (Kingdom), the gate (Phylum), the class (Class), the target (Order), the family (Family), the genus (Genus), and the species (Species) to classify. The top of the world, with the five proposed by Tucker, more and more people accept respectively; prokaryotes Protista fungi, plant and animal kingdomsThe definition of the door is the use of bio medica genera appearance, life characteristics, structure, physiological function and other characteristics of the difference in dichotomy way, by biological classification to classification. From the upper boundary to the "seed", the closer the layer is, the more closely the features of the creature being attributed. If you belong to the creature, its appearance or physiological characteristics are extremely similar, is in the process of evolution, is a source of biological relatives, but there are differences between them in genetic material, which belong to the species, although able to breed, but a new generation does not have reproductive ability.Kingdom Monera in prokaryotesPrimary Kingdom Kingdom ProtistaProtozoa Phylum ProtozoaFlagellates Class, MastigophoraClass Class SarcodinaCiliates Class, CiliophoraClass Class SporozoaPhylum EuglenophytaGolden brown plant door Phylum Chrysophyta Dinoflagellate Phylum PyrrophytaFungal kingdom Kingdom FungiKingdom Plantae in plant kingdomNaked door EuglenophytaGreen algae gate Chlorophyta CHAROPHYTES Charophyta ChrysophytaDinoflagellate PyrrophytaPhaeophytaRhodophyta RhodophytaBlue-green algae CyanophytaPhylum BacteriophytaMyxomycophytaFungal portal EumycophytaLichen gate LichensBryophytes, BryophytaFerns, PteridophytaGymnosperm GymnospermaeAngiosperm AngiospermaeAnimal kingdom Kingdom AnimaliaSponge door Phylum PoliferaClass CalcareaSix put sponge class Class Hexactinellida Class Demospongiae vulgarisCoelenteron animal door Phylum Coelenterata Class Class HydrozoaClass Class ScyphzoaClass Class Anthozoa of coral polypsFlat phylum Phylum Platyhelminthes Tubellaria Class TurbellariaClass Class TrematodaClass Class CestodaRound phylum Phylum NematodaPhylum Phylum AnnelidaClass Class PolychaetaClass OligochaetaHirudinoidea Class HirudineaMollusca Phylum MolluscaGastropod Class GastropodaClass AmphineuraClass PelecypodaClass ScaphopodaCephalopod Class CephalopodaPhylum Phylum ArthorpodaCrustacea Class, CrustaceaClass Class DiplopodaClass ChilopodaSpider class Class ArchnidaSix foot class Class HexapodaIncision class Class, MerostomataPhylum, Echinodermata, M.Class Class Asteroidea starfishOphiuroidea Class OphiuroideaSea urchin class Class EchinoideaThe sea spray with water in one's mouth: Class Holothuroidea Class Class CrinoideaPhylum ChordataSubphylum Cephalochordata cable head animal subphylumA subdivision of Subphylum animal UrochordataVertebrate Subphylum VertebrataChondrichthyes Class ChondrichthyesOsteichthyes Class OsteichthyesAmphibia Class AmphibiaReptile Class ReptiliaAves Class AvesMammalian class Class MammaliaChinaThe classification of origin of species: modern taxonomic phylum medica was born in eighteenth Century, its founder is a Swedish scholar plant linnaeus. Linnaeus solved two key problems for taxonomy: first, the double name system was established, each species was given a scientific name, consisting of two Latin nouns. The first one represented the genus name and the second were the generic name. Second is the establishment of order system, the Linnean nature is divided into the plant, animal and mineral realms, in animal and plant community, and a class order, genus and species level Four, which established the order element classification system.Biological classification step size from large to small:boundary - Gate - - class - - - - - - - - - - - - - species -are classified in detail:Boundary (Kingdom)Door (Phylum)Linzhi (Subphylum)Master (Superclass)Class (Class)Department (Cohort)Head (Superorder)Item (Order)Suborder (Suborder)Superfamily (Superfamily)Department (Family)Subfamily (Subfamily)Tribe (Tribe)Genus (Genus)Subgenus (Subgenus)Species (Species)Subspecies (Subspecies).According to the classification for all organisms of the genus classification is a compendium of the gate:1. Biological taxonomy is the branch of biology that deals with the methods and principles of biological classification. Classification is the classification and classification of biological groups according to the principles and methods of taxonomy.There are millions of species on earth that are ever-changing and different from each other. If they are not classified, they will not be able to understand and make use of them. The categories are diverse and are the product of evolution. Thus, in theory, taxonomy is a historical summary of biological evolution.Taxonomy is a comprehensive discipline. The various branches of biology, from ancient morphology to modern molecular biology, can be extracted as a basis for classification. It also has its own branches, such as chromosome based cytology, serum based serum taxonomy, chemical systematics based on chemical systematics, and so on. Animals, plants, and bacteria each have their own characteristics as a three species of taxonomy, but the classification of viruses has not been formally conductedusing a two name system and a hierarchical system.The history of biological systematicsHumans were able to identify objects and give them names long before. At the beginning of Han Er "the animal is divided into insects, fish, birds and mammals in 4 categories: insects including most invertebrates; fish including fish, amphibians, reptiles and other lower vertebratesand whales and shrimp, crab, shellfish and other birds, birds are mammals; animal. This is the earliest classification of animals in ancient China. The period of the emergence of the four types of names seems not later than the Western Zhou dynasty. This classification, compared with Linnaeus's six systems, leaves only two classes of amphibians and worms.The ancient Greek philosopher Aristotle used the method of character comparison to distinguish the species, such as the classification of warm blooded animals in order to distinguish them from cold-blooded animals. He arranged the animals according to the perfection of the structure, giving the concept of the natural ladder.At the end of seventeenth Century, the British scholar Ray hadplants known as plant species, genus and species description, the "new method" is the study of plants before Linnaeus a most comprehensive summary of plant classification, the thunder also proposed "hybrid sterility" as the standard to distinguish between species.Modern systematics was born in eighteenth Century, and its founder is a Swedish botanist, linnaeus. Linnaeus solved two key problems for taxonomy: first, the double name system was established, each species was given a scientific name, consisting of two Latin nouns. The first one represented the genus name and the second were the generic name. Second is theestablishment of order system, the Linnean nature is divided into the plant, animal and mineral realms, in animal and plant community, and a class order, genus and species level Four, which established the order element classification system.Each species belongs to a certain classification system, and has a certain taxonomic status. Linnaeus in 1753 published "plant records" and in 1758 tenth edition of "nature" in the system was first applied in plant and animal order system. These two classics mark the birth of modern taxonomy.Linnaeus believed that the species remained unchanged. His natural system was not related to each other, six of which were arranged in order of mammals, birds, amphibians, fishes, insects, worms. The system emphasizes the Lamarckian upside down over, from low to high as the evolutionary system. He also divides animals into two groups: vertebrates and invertebrates, which are still used today.Since the evolution of Linnaeus was not recognized at that time, it had little impact on taxonomy. It was not until 1859 when Darwin's publication of the origin of species was published, Evolutionary thinking is carried out in taxonomy, and it is clear that classification studies involve the exploration of phylogenetic relationships among organisms, and that the taxonomic system becomes biological genealogy -- the birth of systematics.The basic content of biological systematicsA classification system is a subsystem of a hierarchy and usually consists of seven main levels: species, genera, families, orders, classes, gates, and boundaries. Species (species) are the basic unit, the close species belong to the genus, the close genera belong to the family, the division is subordinate to theorder, the order is subordinate to the class, the class is subordinate to the door, and the door is subordinate to the world.With the progress of the study, the classification level increasing unit can be attached secondary unit, such as the master (super class), class, subclass, time head (super mesh), the next day, families (suborder, chaoke) subfamily, etc.. In addition, new units may be added, such as stocks, groups, families, groups, etc., of which the most permanent is the clan, between the subfamily and the genus.There is a scientific name for all the units in the hierarchical system. The basic procedure of classifying work is to classify objects into a certain system and level and become a unit of things. Therefore, classification and naming are inseparable.The names of the species and genera are often named after the names of the names of the people in order to identify the source andfacilitate the search of documents. A variety of scientific names are also used in the three system, and the classification name requires stability. One genus or species (including the seed plant) has only one scientific name. A scientific name can only be used for an object (or species). If there are two or more objects, it is the name of the foreign body, and the first named object must be approved, while the other object with the same name will be given another name. This is called the priority law, and the animal and plant taxonomic communities have each developed the nomenclature act, so there is no question of the same name between the animal world and the plant community. "Priority law" is an important measure to stabilizescientific names. The start date of the priority law. Animals are 1758, plants are 1820, and bacteria begin in January 1, 1980.Identification of scientific names is a means of obtaining information about a species, even if it is a previously unknown new species, as long as its classification is identified and its characteristics are foreseen. The classification system is the retrieval system, and also the information access system. Many works such as classification, based on the investigation of the flora of flora and fauna, of a country or region of the animal and plant species, as basic data are for identification, search service.Refers to a species of animal or plant group, all its members arevery similar in morphology, and they can be assumed to be some variation is very small in the same organism, all members of the group are between normal mating and breeding of fertile offspring, the species is thebasic unit of biological classification, is the basic unit of biological reproduction the.The concept of species reflects the trend of the times. In the daysof Linnaeus, it was believed that species were immutable, and conspecific individuals were consistent with the same pattern". The concept of schema originates from the ancient concept of ancient Greek philosophy and applies to the whole classification system. The concept assumes that all levels of matter and units in all the hierarchical systems are in conformity with one model.With the constant change of species evolution and creationism isused to focus on the struggle, is irreconcilable opposed to the view. However, the fact that the taxonomy of each species, each with its own characteristics, no two exactly the same species;and each species and a series of ancestral features, according to the can decide the classification status of community, door, species and families and genera, and reflect their evolutionary history.The basic content of the classification work is to distinguish between species and species, the former is species and sub species, and the latter is species classification. The population concept improvedthe species classification level and improved the species classification.The main point was to replace subspecies with subspecies. Subspecies generally refer to geographical subspecies, which are the geographical differentiation of populations, and have some distinctivecharacteristics and distribution range. Subspecies classification reflects species differentiation, highlighting the spatial concept of species.The term "variation" used to be very miscellaneous, with variations of individuals, groups, types, meaning that was not clear, and was eliminated in animal classification. In plant classifications, commonly used as discontinuous variants within the divided population. Ecotype is an intraspecific type which has certain ecological characteristics in a given habitat, and is often used in plant classification. The artificial breeding plants and animals are called varieties.Because of intraspecific and interspecific variation, the classification of species is sometimes very divergent. According to the similarities and differences between the degree of morphological basis of division as a division of species called species, because of the importance of various morphologicalcharacteristics is not a recognized, the division of the It differs from man to man. especially the classification, scholars on some characteristics of the "weighted" usually makes them more important than other characteristics, caused by subjective prejudice.A species or species, and even the entire plant and animal kingdom, has its own history. Phylogenetic research is to explore the historicalorigin of species, in order to elucidate the relationship and to provide theoretical basis for classification.Although there are three schools of synthesis (Evolution), taxonomy, cladistic and numerical taxonomy in the taxonomic school, there are many similarities in their basic principles, but each emphasizes different aspects.Feature comparison is the basic method of classification. Contrastis the contrast between similarities and differences: "difference" is the basis for distinguishing kinds, and "same" is the basis of the kind of merger. To analyze classification features, we should first consider the common features that reflect the common origin. But there are differences between homologous and non homologous. For example, the wing of birds and the forelimb of mammals are homologous tubes, which can be traced back to common ancestry, and are "cognate features"". Is the origin of the constant temperature individual birds and animals, not from a common ancestor, "non homologous features". The systematic classification uses homologous features without taking non homologous characters.Linnaeus divides organisms into two major groups: sessile plants and action animals. Over the past two hundred years, withthe development of science, people gradually found that the two world system has many problems, but it was not until 1950s, is still the general textbook to follow, no change in the basic.The first problem arises from the intermediate type, such as the comprehensive dynamic characteristics of plant Euglena double two circles, both chloroplast and camp photosynthesis, and action and food intake. Botanists consider them as algae, known as Euglenophyta; animal scholars consider them as protozoa, called euglena. The intermediate type is evidence of evolution, but becomes a puzzle of classification.In order to solve this problem, in 1860s, it recommended the establishment of a third composed of lower organisms, named Protista, including bacteria, algae, fungi and protozoa. The three system solves the hard problem between animals and plants, but was not accepted, for 100 years, until 1950s, became popular for a period of time, the number of textbooks.The history of life has undergone several important stages, theinitial life should be non cellular life, of course, before the emergence of cells, there must be a "non cell" or "pre cell" stage. Viruses are a class of non - cellular organisms, but the origin of them is either primitive or secondary, but not yet conclusive.From non cells to cells are second important stages of biological development. The early cells are prokaryotic cells, and the early organisms are called prokaryotes (fine seedlings, cyanobacteria). Prokaryotic cells are simple in structure, without nuclear membranes and without complex organelles.From prokaryotic to eukaryotic is third important stages of biological development. Eukaryotic cells with nuclear membrane, theentire cell differentiation into two parts: the nucleus and cytoplasm with chromosome device complex in the nucleus as genetic center; cytoplasmic organelles with complex structure, become the center of metabolism. Eukaryotic cellsdifferentiated from prokaryotic cells, whose body levels are much higher.From single celled eukaryotes to multicellular organisms, they are fourth important stages in life history. With the emergence of multicellular bodies, complex tissue structures and organ systems have evolved, resulting in advanced angiosperms and mammals.Plants, fungi and animals constitute three parts of the ecosystem. Green plants are autotrophic and are producers of nature. They are photosynthesis by chlorophyll, the synthesis of inorganic substances, organic food, providing themselves, but also supply heterotrophic organisms. A fungus is a heterotrophic organism, a decomposer in nature. They get food from plants, and the organic food is decomposed into inorganic substances, in turn for the supply of raw materials for the production of plants. Animals are also heterotrophic, they are consumers, and they are the last species on the planet.Even without animals, plants and fungi can still exist because they already have two basic elements of the natural cycle of matter that can be completed during the cycle of synthesis and decomposition-. But without animals, the biological world could not be so colorful and lesslikely to produce human beings. Plants, fungi, and animals represent three routes or three directions for the evolution of organisms.The most popular classification at present is a five - boundedsystem. The five boundary system reflects the three stages of biological evolution and the three branches of multicellular stages, which are classified vertically and horizontally. It does not include non cellular forms of the virus, perhaps because of the unclear status of the viral system. Protista its content is complex, including other eukaryotic algae except all protozoa and red algae, brown algae, green algae, including different animal and plant.2, the original is between species form has the commoncharacteristics as the basis for classification, according to the degree of similarity to each other and gradually broken down, such as legumes have shaped fruit pods; some can be classified as reference according to the living habits of different features such as cats are carnivorous and animal nocturnal.But the food habits just not sufficient classification conditions, not simply according to the type of food classification, because animal feeding is vegetarian, vegetarian and omnivorous, as if the animal is divided into three big classes, is too rough, an important basis for the classification of animal reproductive isolation or bone structure and life habit and distribution by region.In recent years, the biological community has also classified animals according to their biological, genetic, and material properties. Animals with similar DNA are classified as similar.。

界，门，纲，目，科，属，种
动物界（真核总界）：腔肠动物门：
水螅虫纲：
钵水母纲：
珊瑚虫纲：
扁型动物门：
涡虫纲：
吸虫纲：
绦虫纲：
环节动物门：
多毛纲：
贫毛纲：
蛭纲：
软体动物门：
腹足纲：
双经纲：
斧足纲：
掘足纲：
头足纲：
哺乳纲：
线型动物门：
线虫纲：
线形纲：
棘头纲：
;腹毛纲：
动吻纲：
轮虫纲：
原生动物门：
鞭毛虫纲：
肉足虫纲：
纤毛虫纲：
孢子虫纲：
植物界（真核总界）：裸藻植物门：
金褐藻植物门：
甲藻植物门：
苔藓植物门：蕨类植物门：裸子植物门：被子植物门：裸藻门：
绿藻门：
轮藻门：
金藻门：
甲藻门：
褐藻门：
红藻门：
蓝藻门：
地衣门：
细菌界（原核总界）：
病毒界（非细胞生物总界）：粘菌门:
鞭毛菌亚门:
接合菌亚门:
子囊菌亚门:
担子菌亚门:
半知菌亚门:
真菌界（真核总界）：海绵动物门：
石灰海绵纲：
六放海绵纲：
寻常海绵纲：。

生物的分类：界门纲目科属种物种蜗牛：动物界软体动物门腹足纲肺螺亚纲柄眼目大蜗牛科蚯蚓：动物界环节动物门环带纲寡毛亚纲单向蚓目单向蚓科蜘蛛：动物界节肢动物门蛛形纲蜘蛛目所有种动物界作为动物分类中最高级的阶元，已发现的共35门70余纲约 350目，150 多万种。

节肢动物门（占动物总数的三分之二以上）昆虫纲，是所有生物中种类及数量最多的一群，是世界上最繁盛的动物，已发现100多万种。

软体动物门（可分为5个纲）根据软体动物形态结构的不同，主要可以分成以下五个纲。

1、双神经纲左右对称。

头部不明显。

常有贝壳八片，呈覆瓦状排列于背面，足块状。

如石鳖等。

2、腹足纲左右不对称。

头部明显。

螺壳是螺旋形的。

足常位于腹侧。

如田螺、蜗牛等。

3、掘足纲左右对称。

头部不明显。

足圆柱形。

贝壳为牛角形的两端开口的管。

如角贝等。

4、瓣鳃纲（斧足纲）左右对称。

无头部。

足斧状。

有左右两片贝壳。

如河蚌、牡蛎等。

5、头足纲左右对称。

身体分头和胸（内脏）两部分。

足的一部分成为条状的碗，一部分成为漏斗状体。

贝壳为外壳，或内壳，或无。

如乌贼、鲍鱼等。

环节动物门（可分为3个纲）环节动物门全球已报道种类数约有17000种。

分布在我国的种类数大约有1470种。

海水淡水及陆地均有分布，少数营寄生生活(花索沙蚕科Arabe－llidae)。

本门可分为多毛纲(Polychaeta)、寡毛纲(Oligochaeta)和蛭纲(Hirudinea)三个纲。

多毛纲(Polychaeta)多毛纲是环节动物中最多的及比较原始的一类，有10000多种。

除极少数种类外，均为海洋底栖生活。

常见的种类如沙蚕(Nereis)、沙蠋(Arenicola)、巢沙蚕(Diopatra)等。

多毛类一般有发达的头部及感觉器，具疣足，雌雄异体，无生殖环带，发育中经过担轮幼虫。

寡毛纲(Oligochaeta)寡毛纲包括常见的蚯蚓、颤蚓等一类动物，一般认为寡毛类是由海产穴居的原始环节动物侵入淡水及陆地而发展起来的一支，它们以明显的特征独立于多毛类：身体分节但不分区，疣足退化，体表具刚毛，但刚毛的数目远远少于多毛类，故名。