中山大学学报(自然科学版)
中山大學學報(自然科學版)
중산대학학보(자연과학판)
ACTA SCIENTIARUM NATURALIUM UNIVERSITATIS SUNYATSENI
2008年
4期
77-87
,共11页
黄玉源%廖文波%张宏达%王佳卓%伍映辉
黃玉源%廖文波%張宏達%王佳卓%伍映輝
황옥원%료문파%장굉체%왕가탁%오영휘
苏铁类植物%导管%被子植物%演化%结构特征%适应性
囌鐵類植物%導管%被子植物%縯化%結構特徵%適應性
소철류식물%도관%피자식물%연화%결구특정%괄응성
Cycads%vessel%angiosperm%evolution%structural characteristic%adaptability
对苏铁属的台湾苏铁(Cycas taiwaniana)、波温铁属的细齿波温铁(Bowenia serrulata)、双子铁属的双子铁(Dioon edule)叶的羽片,大泽米铁属长刺大泽米铁(Macrozamia longispina)的根,以及被子植物的白兰(Michelia alba)和桃(Amygdalus persica)的叶组织进行了电子扫描显微镜的观察研究,结果表明,2个科4个属苏铁植物的导管类型是丰富的,导管的结构组成方式、发育过程与被子植物是一致的;例如导管端壁倾斜度等结构特征显示,一些被子植物导管的结构比苏铁类植物的要原始.在被子植物的导管中有许多为端部呈扁平的带状,而且还带有扭曲状,没有端壁,只有两面的侧壁及另两侧的很窄的边,在带状的侧壁上具有许多的穿孔.这在过去未见有报道.对苏铁类植物导管的认识,对于我们进一步了解现存最原始的种子植物对严酷环境的适应机制和进化状况,对于采取有效措施保护这些珍稀的植物类群,以及对于结构植物学、植物进化和生态学等研究方面均具有重要的意义.
對囌鐵屬的檯灣囌鐵(Cycas taiwaniana)、波溫鐵屬的細齒波溫鐵(Bowenia serrulata)、雙子鐵屬的雙子鐵(Dioon edule)葉的羽片,大澤米鐵屬長刺大澤米鐵(Macrozamia longispina)的根,以及被子植物的白蘭(Michelia alba)和桃(Amygdalus persica)的葉組織進行瞭電子掃描顯微鏡的觀察研究,結果錶明,2箇科4箇屬囌鐵植物的導管類型是豐富的,導管的結構組成方式、髮育過程與被子植物是一緻的;例如導管耑壁傾斜度等結構特徵顯示,一些被子植物導管的結構比囌鐵類植物的要原始.在被子植物的導管中有許多為耑部呈扁平的帶狀,而且還帶有扭麯狀,沒有耑壁,隻有兩麵的側壁及另兩側的很窄的邊,在帶狀的側壁上具有許多的穿孔.這在過去未見有報道.對囌鐵類植物導管的認識,對于我們進一步瞭解現存最原始的種子植物對嚴酷環境的適應機製和進化狀況,對于採取有效措施保護這些珍稀的植物類群,以及對于結構植物學、植物進化和生態學等研究方麵均具有重要的意義.
대소철속적태만소철(Cycas taiwaniana)、파온철속적세치파온철(Bowenia serrulata)、쌍자철속적쌍자철(Dioon edule)협적우편,대택미철속장자대택미철(Macrozamia longispina)적근,이급피자식물적백란(Michelia alba)화도(Amygdalus persica)적협조직진행료전자소묘현미경적관찰연구,결과표명,2개과4개속소철식물적도관류형시봉부적,도관적결구조성방식、발육과정여피자식물시일치적;례여도관단벽경사도등결구특정현시,일사피자식물도관적결구비소철류식물적요원시.재피자식물적도관중유허다위단부정편평적대상,이차환대유뉴곡상,몰유단벽,지유량면적측벽급령량측적흔착적변,재대상적측벽상구유허다적천공.저재과거미견유보도.대소철류식물도관적인식,대우아문진일보료해현존최원시적충자식물대엄혹배경적괄응궤제화진화상황,대우채취유효조시보호저사진희적식물류군,이급대우결구식물학、식물진화화생태학등연구방면균구유중요적의의.
The tissues of leaf of Cycas taiwaniana,Bowenia serrulata and Dioon edule and tissue of root of Macrozamia longispina of cycads, and leaves of Michelia alba and Amygdalus persica of angiosperm were observed by scanning electron microscope. The results showed that there are many types of vessels in four genera of two families of cycads,the manner and process of development and constitution in structural characteristics of vessel of cycads and angiosperm are identical,some characters of vessel such as inclined extent of perforation plate of end wall etc. showed that some angiosperm are more primitive then that of cycads. In vessels of species of angiosperm, many are band shape, and without end wall, only have two lateral walls and another two narrow margins, the top is acute or with an arc margin, many perforations located in lateral wall. Cognized to vessel of cycads, help us to understand the mechanism which these most primitive seed plants extant how to adapted to harsh environments and their evolutionary level, and has significance to use efficiency measure protect these rarity plants and has significance to plant anatomy, plant systematics and plant evolution.
