Metasequoia (Metasequoia glyptostroboides Hu et Cheng) is an important but endangered tree species. In a sense, the course of protection of the metasequoia can be considered a miniature of the history of the protect...Metasequoia (Metasequoia glyptostroboides Hu et Cheng) is an important but endangered tree species. In a sense, the course of protection of the metasequoia can be considered a miniature of the history of the protection of rare Chinese plants over the past 50 years. The approval and establishment of the National Class Nature Reserve for metasequoia is a milestone in this course. A thorough understanding of this course is beneficial to design the correct future protection plans and for taking effective measures. In this paper the entire protection course of metasequoia is reviewed, three detailed measures are proposed according to the present situation and existing problems and discussed as follows. 1) We should reinforce unceasingly the establishment of National Nature Reserves of metasequoia, put emphasis on the protection of the original natural mother trees (ONMTs) of metasequoia, design far- sighted projects to protect the ONMTs and strictly implement and enforce the regulations or laws regarding the protection of meta- sequoia. The establishment and functions of the organization should meet the demands of protecting the ONMTs and developing metasequoias. The budget should support and the quality of the personnel assigned to this task should satisfy the protection and de- velopment of the ONMTs. We should also promote the complete protection of the ONMTs at the same time and strengthen the pro- tection and restoration of the ONMTs and their ecosystem in the Xiaohe valley, Lichuan County, Hubei Province, one of the natural concentration areas of ONMTs in the world. 2) A gene bank should be established for comprehensive protection of the genes of ex- isting original mother trees of metasequoia. 3) The key is to study the theoretical fundamentals of restoration and re-establishment of natural vegetation of metasequoia in the Xiaohe valley to harmonize the relation among environmental departments, forestry sectors, academies of sciences and other educational or research units, to carry out scientific research and strengthen academic exchanges to promote jointly the protection and utilization of metasequoia and other natural resources in China.展开更多
以国家植物园中水杉(Metasequoia glyptostroboides Hu et Cheng)为研究对象,对比根部淹水和非淹水生境中水杉的叶片形态特征、化学计量特征、气体交换参数及非结构性糖类的差异,分析水杉对2种生境的适应策略。结果表明:水杉根部淹水和...以国家植物园中水杉(Metasequoia glyptostroboides Hu et Cheng)为研究对象,对比根部淹水和非淹水生境中水杉的叶片形态特征、化学计量特征、气体交换参数及非结构性糖类的差异,分析水杉对2种生境的适应策略。结果表明:水杉根部淹水和非淹水生境土壤含水量差异显著(P<0.05),土壤化学计量特征中除C/N比外均具有显著差异。根部淹水生境水杉叶面积和比叶面积均显著大于根部非淹水生境,但叶干物质含量显著低于非淹水生境,这主要通过叶长的增加实现。同一径级内,根部淹水生境仅Ⅰ〔20 cm≤胸径(DBH)<30 cm〕径级水杉叶片净光合速率显著高于非淹水生境;3个径级水杉叶片胞间CO_(2)浓度在2种生境间无显著差异;气孔导度和蒸腾速率在2种生境间均存在显著差异,且除Ⅰ径级的蒸腾速率外均为根部淹水生境显著高于根部非淹水生境。同一生境内,水杉叶片净光合速率、气孔导度和蒸腾速率随着径级的增大呈上升趋势,而胞间CO_(2)浓度的变化趋势相反。同一径级内,根部淹水生境水杉叶片有机碳、全氮和全磷含量均高于根部非淹水生境,且除有机碳含量外均存在显著差异;根部淹水生境水杉叶片N/P比、C/N比和C/P比总体小于根部非淹水生境,其中,Ⅰ径级水杉叶片N/P比和C/N比在2种生境间差异显著,Ⅰ和Ⅱ(30 cm≤DBH<40 cm)径级水杉叶片C/P比在2种生境间差异显著。根部淹水生境水杉叶片非结构性糖类含量显著高于非淹水生境,主要表现为可溶性糖含量的升高。综上所述,水杉对淹水胁迫具有良好的适应能力,能够通过改变叶片形态、可溶性糖含量及气孔开放程度来保证正常的生命活动,在今后的迁地保护过程中可通过增加土壤含水量和光照帮助水杉适应环境的变化。展开更多
水杉(Metasequoia glyptostrobodies Hu & Cheng)是国家一级保护植物。水杉的发现是中国近代植物学界最值得自豪的一件大事,为中国植物学走向世界开辟了道路,被公认为是我国乃至世界二十世纪植物界的重大发现,它不仅对于中国有重要...水杉(Metasequoia glyptostrobodies Hu & Cheng)是国家一级保护植物。水杉的发现是中国近代植物学界最值得自豪的一件大事,为中国植物学走向世界开辟了道路,被公认为是我国乃至世界二十世纪植物界的重大发现,它不仅对于中国有重要价值,也具有世界意义。水杉引种过程可以说是新中国植物引种过程的一个缩影,在发现50年后成功引种至26个省、市、区和特别行政区以及世界50多个国家和地区,成为我国重要的用材林树种、沿海防护林树种、农田防护林树种、城市绿化树种以及世界上著名的风景景观树种。水杉既为新中国林业的发展提供了重要实证,又是科学技术在林业及社会发展中的重要体现,同时水杉的发展也是我国林学界最值得骄傲的一件大事,是我国科技工作者集体智慧的结晶。该文仅对我国水杉引种学进行系统的论述,对水杉的引种阶段进行了划分,简述26个省、市、区和特别行政区的引种现状,分析了水杉在中国引种区的适生状况和原因。有关在国外的引种及迁地保护情况将另文发表。展开更多
从水杉(Metasequoia glyptostroboides Hu et Cheng)树皮、叶片中分离筛选得到了17株形态各不相同的内生真菌,采用对峙培养法筛选对植物病原真菌,层出镰孢菌(Fusarium proliferatum)﹑禾谷镰刀菌(Fusarium graminearum)﹑玉米大斑病菌(S...从水杉(Metasequoia glyptostroboides Hu et Cheng)树皮、叶片中分离筛选得到了17株形态各不相同的内生真菌,采用对峙培养法筛选对植物病原真菌,层出镰孢菌(Fusarium proliferatum)﹑禾谷镰刀菌(Fusarium graminearum)﹑玉米大斑病菌(Setosphaeria turcica)﹑玉米小斑病菌(Helminthosporium maydis)具有拮抗作用的菌株,筛选得到了1株对以上4种病原菌具有广谱抗菌活性的菌株,命名为SS-17。通过对SS-17菌株的形态特征观察及ITS分子鉴定,初步鉴定为黑附球菌(Epicoccum nigrum)。展开更多
基金support from Beijing Forestry University, the help provided by Dr. Ma Jinshuang, Research Taxonomist at the Brooklyn Botanical Gar-den and by Mr. Li Yujie of the Planning and Design Academy of the Forest Products Industry of the State Forestry Administration
文摘Metasequoia (Metasequoia glyptostroboides Hu et Cheng) is an important but endangered tree species. In a sense, the course of protection of the metasequoia can be considered a miniature of the history of the protection of rare Chinese plants over the past 50 years. The approval and establishment of the National Class Nature Reserve for metasequoia is a milestone in this course. A thorough understanding of this course is beneficial to design the correct future protection plans and for taking effective measures. In this paper the entire protection course of metasequoia is reviewed, three detailed measures are proposed according to the present situation and existing problems and discussed as follows. 1) We should reinforce unceasingly the establishment of National Nature Reserves of metasequoia, put emphasis on the protection of the original natural mother trees (ONMTs) of metasequoia, design far- sighted projects to protect the ONMTs and strictly implement and enforce the regulations or laws regarding the protection of meta- sequoia. The establishment and functions of the organization should meet the demands of protecting the ONMTs and developing metasequoias. The budget should support and the quality of the personnel assigned to this task should satisfy the protection and de- velopment of the ONMTs. We should also promote the complete protection of the ONMTs at the same time and strengthen the pro- tection and restoration of the ONMTs and their ecosystem in the Xiaohe valley, Lichuan County, Hubei Province, one of the natural concentration areas of ONMTs in the world. 2) A gene bank should be established for comprehensive protection of the genes of ex- isting original mother trees of metasequoia. 3) The key is to study the theoretical fundamentals of restoration and re-establishment of natural vegetation of metasequoia in the Xiaohe valley to harmonize the relation among environmental departments, forestry sectors, academies of sciences and other educational or research units, to carry out scientific research and strengthen academic exchanges to promote jointly the protection and utilization of metasequoia and other natural resources in China.
文摘以国家植物园中水杉(Metasequoia glyptostroboides Hu et Cheng)为研究对象,对比根部淹水和非淹水生境中水杉的叶片形态特征、化学计量特征、气体交换参数及非结构性糖类的差异,分析水杉对2种生境的适应策略。结果表明:水杉根部淹水和非淹水生境土壤含水量差异显著(P<0.05),土壤化学计量特征中除C/N比外均具有显著差异。根部淹水生境水杉叶面积和比叶面积均显著大于根部非淹水生境,但叶干物质含量显著低于非淹水生境,这主要通过叶长的增加实现。同一径级内,根部淹水生境仅Ⅰ〔20 cm≤胸径(DBH)<30 cm〕径级水杉叶片净光合速率显著高于非淹水生境;3个径级水杉叶片胞间CO_(2)浓度在2种生境间无显著差异;气孔导度和蒸腾速率在2种生境间均存在显著差异,且除Ⅰ径级的蒸腾速率外均为根部淹水生境显著高于根部非淹水生境。同一生境内,水杉叶片净光合速率、气孔导度和蒸腾速率随着径级的增大呈上升趋势,而胞间CO_(2)浓度的变化趋势相反。同一径级内,根部淹水生境水杉叶片有机碳、全氮和全磷含量均高于根部非淹水生境,且除有机碳含量外均存在显著差异;根部淹水生境水杉叶片N/P比、C/N比和C/P比总体小于根部非淹水生境,其中,Ⅰ径级水杉叶片N/P比和C/N比在2种生境间差异显著,Ⅰ和Ⅱ(30 cm≤DBH<40 cm)径级水杉叶片C/P比在2种生境间差异显著。根部淹水生境水杉叶片非结构性糖类含量显著高于非淹水生境,主要表现为可溶性糖含量的升高。综上所述,水杉对淹水胁迫具有良好的适应能力,能够通过改变叶片形态、可溶性糖含量及气孔开放程度来保证正常的生命活动,在今后的迁地保护过程中可通过增加土壤含水量和光照帮助水杉适应环境的变化。
文摘水杉(Metasequoia glyptostrobodies Hu & Cheng)是国家一级保护植物。水杉的发现是中国近代植物学界最值得自豪的一件大事,为中国植物学走向世界开辟了道路,被公认为是我国乃至世界二十世纪植物界的重大发现,它不仅对于中国有重要价值,也具有世界意义。水杉引种过程可以说是新中国植物引种过程的一个缩影,在发现50年后成功引种至26个省、市、区和特别行政区以及世界50多个国家和地区,成为我国重要的用材林树种、沿海防护林树种、农田防护林树种、城市绿化树种以及世界上著名的风景景观树种。水杉既为新中国林业的发展提供了重要实证,又是科学技术在林业及社会发展中的重要体现,同时水杉的发展也是我国林学界最值得骄傲的一件大事,是我国科技工作者集体智慧的结晶。该文仅对我国水杉引种学进行系统的论述,对水杉的引种阶段进行了划分,简述26个省、市、区和特别行政区的引种现状,分析了水杉在中国引种区的适生状况和原因。有关在国外的引种及迁地保护情况将另文发表。
文摘从水杉(Metasequoia glyptostroboides Hu et Cheng)树皮、叶片中分离筛选得到了17株形态各不相同的内生真菌,采用对峙培养法筛选对植物病原真菌,层出镰孢菌(Fusarium proliferatum)﹑禾谷镰刀菌(Fusarium graminearum)﹑玉米大斑病菌(Setosphaeria turcica)﹑玉米小斑病菌(Helminthosporium maydis)具有拮抗作用的菌株,筛选得到了1株对以上4种病原菌具有广谱抗菌活性的菌株,命名为SS-17。通过对SS-17菌株的形态特征观察及ITS分子鉴定,初步鉴定为黑附球菌(Epicoccum nigrum)。