生态学报
生態學報
생태학보
ACTA ECOLOGICA SINICA
2009年
7期
3846-3853
,共8页
苗苑%徐娜娜%于硕%耿艳%陈小勇
苗苑%徐娜娜%于碩%耿豔%陳小勇
묘원%서나나%우석%경염%진소용
海草%克隆性%遗传变异%空间遗传格局%交配系统
海草%剋隆性%遺傳變異%空間遺傳格跼%交配繫統
해초%극륭성%유전변이%공간유전격국%교배계통
seagrass%clonality%genetic variation%spatial genetic structure%mating system
海草是适应在海洋环境中生存和繁殖的单子叶植物,由于所处环境常存在潮汐、风暴等的干扰,海草形成了一系列适应特征,克隆性是其中突出的一个.所有的海草都具有水平根状茎,许多海草也具有垂直根状茎,在一些海草中,也观察到无性生殖(无融合生殖).与克隆生长有关的参数(如节间长度、间隔子长度、分枝角度以及延伸速率和分枝率等)对于海草的克隆生长有着决定性影响,但繁育系统对克隆斑块大小也有较大影响.强烈的克隆性影响着海草的遗传变异.总体来看,海草种群内遗传多样性比陆生植物低,也低于另一类海洋高等植物-红树植物,利用DNA标记观察到的多样性高于等位酶标记.在一些海草植物种群中观察到较高的克隆多样性,但也有一些种群由单一基因型或少量基因型组成,其原因主要是由于奠基者效应和克隆生长.通常克隆植物中基因流有限,但是海草的克隆片段可能远距离扩散,从而提高种群间的基因流.就克隆生长对种群空间结构和交配系统的影响进行了综述.
海草是適應在海洋環境中生存和繁殖的單子葉植物,由于所處環境常存在潮汐、風暴等的榦擾,海草形成瞭一繫列適應特徵,剋隆性是其中突齣的一箇.所有的海草都具有水平根狀莖,許多海草也具有垂直根狀莖,在一些海草中,也觀察到無性生殖(無融閤生殖).與剋隆生長有關的參數(如節間長度、間隔子長度、分枝角度以及延伸速率和分枝率等)對于海草的剋隆生長有著決定性影響,但繁育繫統對剋隆斑塊大小也有較大影響.彊烈的剋隆性影響著海草的遺傳變異.總體來看,海草種群內遺傳多樣性比陸生植物低,也低于另一類海洋高等植物-紅樹植物,利用DNA標記觀察到的多樣性高于等位酶標記.在一些海草植物種群中觀察到較高的剋隆多樣性,但也有一些種群由單一基因型或少量基因型組成,其原因主要是由于奠基者效應和剋隆生長.通常剋隆植物中基因流有限,但是海草的剋隆片段可能遠距離擴散,從而提高種群間的基因流.就剋隆生長對種群空間結構和交配繫統的影響進行瞭綜述.
해초시괄응재해양배경중생존화번식적단자협식물,유우소처배경상존재조석、풍폭등적간우,해초형성료일계렬괄응특정,극륭성시기중돌출적일개.소유적해초도구유수평근상경,허다해초야구유수직근상경,재일사해초중,야관찰도무성생식(무융합생식).여극륭생장유관적삼수(여절간장도、간격자장도、분지각도이급연신속솔화분지솔등)대우해초적극륭생장유착결정성영향,단번육계통대극륭반괴대소야유교대영향.강렬적극륭성영향착해초적유전변이.총체래간,해초충군내유전다양성비륙생식물저,야저우령일류해양고등식물-홍수식물,이용DNA표기관찰도적다양성고우등위매표기.재일사해초식물충군중관찰도교고적극륭다양성,단야유일사충군유단일기인형혹소량기인형조성,기원인주요시유우전기자효응화극륭생장.통상극륭식물중기인류유한,단시해초적극륭편단가능원거리확산,종이제고충군간적기인류.취극륭생장대충군공간결구화교배계통적영향진행료종술.
Seagrasses are monocotyledonous species that are adapted to live and reproduce entirely in the marine environments, where they suffer from a variety of disturbances, such as tides, hurricanes. To adapt to these environments, seagrasses have evolved a series of characteristics, among which strong clonality is a prominent one. All the seagrasses have horizontal rhizomes, and many species have vertical rhizomes. In some seagrass species, clonal reproduction, via apomict, was also observed. We reviewed the parameters relating to clonal growth, such as internodal length, spacer length and branching angle as well as rhizome elongation and branching rates, of seagrass species. These parameters have determinant impacts on the expanding of seagrass patches. However, breeding system may also affect patch sizes. Strong clonality has essential influences on genetic variation of seagrasses. Generally, seagrass species have relatively lower within-population genetic variation than terrestrial plants or mangroves, another group of marine flowering plants, although DNA markers, such as microsatellites, have revealed much higher variation than allozymes did and higher than that of previous thought in seagrasses. High variation in clonal diversity was found in many seagrass populations, but single or few genotypes were also found in some populations due to founder effect and strong clonality. Although gene flow usually was thought to be restricted in clonal species, it was reported that clonal fragments may be transported to a long distance and therefore to promote gene flow among populations. Effects of clonality on within-population structuring and mating system were also reviewed.
