禾本科植物

By collecting ,testing, comparing, and analyzing the soil samples, soil recovery under the various recovery conditions along Mian CountyNingqiang highway was studied. The results were as follows herbaceous recovery to the soil fertility recovery in the prior was greater than the combination of grass and irrigation or than the pure bushes recovery. In each of them, the content of organic matter were 13.84, 7.50, 6.00 g·kg-1; In the recovery of herbaceous ecology, to grow leguminous plant and granminaceous plant together was better than pure graninaceous plant or pure leguminous plant. In each of them, the content of organic matter was 29.67, 17.51, 9.37 g·kg-1; to sow ryegrass and alfalfa together with some local grass seeds or to grow coxcomb, alfalfa and local couch grass together could bring better effects than to plant the alfalfa only. In each of them the increased organic matter contents were 4.93,17.51 and 9.37 g·kg-1;the quotas of the organic matter and alkaline hydrolysis nitrogen in soil fetility factor were closely connected, mainly because of the difference between the generation quantity and resolution quantity of the organic matter in the soil surface.

采集土壤样品，经室内分析化验，用对比分析的方法对勉县至宁强高速公路生态恢复中不同恢复类型条件下的土壤恢复进行了研究，结果表明草本恢复类型对前期土壤肥力的恢复作用大于草灌结合，并大于单纯灌木恢复类型，其中有机质含量分别为13.84、7.50和6.00 g·kg-1；在草本生态恢复类型中，豆科植物与禾本科植物混播恢复类型大于禾本科植物恢复类型的作用，并大于单纯豆科植物恢复类型的作用，其中有机质含量分别为29.67、17.51和9.37 g·kg-1；黑麦草与苜蓿混播并有当地草种入侵以及小冠花与苜蓿混播并播入当地草种羊茅，明显优于纯苜蓿单播，其中有机质含量分别增加了4.93和3.32 g·kg-1；土壤肥力因子中有机质与碱解氮两个指标有较好的相关性，主要与土壤表层有机质的生成量和分解量之差有关。

Western blot and the immunoblot results indicate that the antibodies not only can react with silicon-binding proteins of rice, but also can cross react with the proteins of other silicon-accumulated graminaceous plants, while it does not react with the proteins of non-silicon accumulated dicotyledonous plants and BSA. These findings indicate that the homologous proteins of SBP117 are widely existed in the graminaceous plants.

蛋白质印迹和免疫印迹检测表明，SBP117的抗体不仅能识别水稻硅结合蛋白，而且与其他累积硅的禾本科植物中提取的硅结合蛋白有交叉反应，但它不识别不累积硅的双子叶植物番茄叶中的蛋白质以及牛血清蛋白，说明与SBP117同源的硅结合蛋白广泛存在于禾本科植物之中。

Immunoblot results indicate the antibody can also cross react with the proteins of other silica-accumulated graminaceous plants, while it does not react with the proteins of dicotyledonous plants. These findings indicate that the homologous proteins of SBP117 are widely existed in the graminaceous plantss. This indicated silica accumulated in higher plants posses the character of systematic development.

免疫印迹检测表明此抗体还能与其它累积硅的禾本科植物硅体中的蛋白发生交叉反应，但不能与双子叶植物蛋白反应，这说明与SBP117相似的硅结合蛋白广泛存在于积累硅的禾本科植物之中，硅在高等植物中的积累具有系统发育上的特征。

Also,the differences between those in sandy habitat and those in non-sandy habitat are significant.2 There existed two common factors called macroelement factor and trace element factor,which indicate the contents of macroelements and trace elements in the plants respectively.

豆科与禾本科相比，豆科植物因其具固氮能力，所含大量元素水平较高，而禾本科植物因细胞壁硅质化，含微量元素稍高；沙质生境因其养分贫瘠，植物的大量与微量元素均较非沙质生境中的低；特别是本区地带性土壤-栗钙土与特异性生境沙带中的疏林沙土相比，疏林沙土上植物大量与微量元素含量较栗钙土区植物明显偏低。

The species of grasses were scarce in the contents and only two species of sedge s occurred in the contents, the most vegetation were forbs in the content.

禾本科 植物在高原鼢鼠的胃内容物中基本没有发现，对莎草科植物也只取食两个物种，高原鼢鼠所取食的植物主要是杂类草。

Awn In grass flowers, a stiff bristlelike structure formed from a continuation of the central nerves of the LEMMAS or GLUMES.

awn 芒：禾本科植物小花的外稃顶端或背部，由中脉延伸而成的针状突起。芒的有无和形状，可为鉴定部分禾本科植物物品种的依据。

The AMF spore average density was 24.88 per 20 g soil , the species richness was 1.94 per soil sample, the species diversity index was 2.56, and the species evenness was 0.65. Glomus, but they all were of prominent genus in the investigation area and Acaulospora, Scutellospora were of common genus while Entrophospora was rarely found. In the 13 species AM fungi, G.mosseae was of prominent species, and G.geosporum, G.intraradices, G.etunicatum were of common speices, while the others were of rarely species. There were 87.5% sand fixation plant were infected with arbuscular mycorrhizal fungi, the highest spore density, the strongest infection strength of the whole roots and the best species richness belonged to Chenopodiaceae while Polygonacea was the lowest.

四属AM真菌中，Glomus为优势属， Scutellospora 、Acaulospora为常见属，Entrophospora则为稀有属；十三种AM真菌中，G.mosseae、G.geosporum分别为优势种、最常见种，G.intraradices，G.etunicatum为常见种，其余均为稀有种；五科固沙植物中，87.5%的植物能被菌根侵染，其中藜科植物孢子密度最高，整个根系侵染强度最强，种的丰度最高，蓼科植物孢子密度、整个根系侵染强度、种的丰度则最低；禾本科植物不仅具有最好的丛枝结构，且具有相对高的亲和性，能与12种AM真菌共生。

As the depth of the standing water in the freshwater marsh increased and cyperaceous plants replaced the gramineous plants, the capacity of plants to transport methane from the freshwater marsh into the atmosphere increased significantly, however the comprehensive effect of plants on methane production decreased.

在腐泥沼泽中，随着沼泽静水层深度的增加，植物种类由禾本科植物——小叶章演替为莎草科植物——乌拉苔草和毛果苔草，植物传输甲烷的能力显著提高，占沼泽甲烷排放总量的比例从31%上升到72%~86%。

By means of collecting, and investigating Gramineae in Pamirs Plateau of China, we studied floristic characteristics of Gramineae in this area.

在整理鉴定中国帕米尔高原禾本科植物标本的基础上，对该区禾本科植物区系特点进行了研究。

The relationship between biomass and succession gradient also showed unimodel pattern: y=-8.7647χ^2+86.696χ+67.14 (R^2=0.6164). As for functional groups of life form, annual plants showed decreasing trend in the community, perennial grass showed increasing tendency, while sedges and perennial forbs both showed increasing tendency, in which the increasing extend for sedges slowly and for grasses sharply.

一年生植物在群落中的数量呈下降趋势；禾本科植物在群落中的数量呈上升趋势；莎草类及杂类草植物在群落中的数量均呈增加趋势，但莎草类植物增幅不大，而杂类草植物则急剧增加。

graminaceous plant：禾本科植物

gram-variable bacteria 革兰氏染色不定细菌 | graminaceous plant 禾本科植物 | gramineous type 禾本科型

rootstock grass：根茎禾本科植物

rooting 发根 | rootstock grass 根茎禾本科植物 | ropy lava 波纹熔岩

bulliform cells：泡狀細胞 增大的表皮細胞常見於禾本科植物葉缺水捲曲的調控

bulb 鱗莖 地下莖有肉質葉貯存養分 | bulliform cells 泡狀細胞 增大的表皮細胞常見於禾本科植物葉缺水捲曲的調控 | bundle sheath 束鞘 緊密圍繞維管束的一圈細胞

gramineous plants：禾本科植物

胚囊植株:embryo sac plants | 禾本科植物:Gramineous plants | 不确定系统:uncertain plants

hard grasses：硬禾本科植物

hard cushion vegetation 硬叶垫状植被 | hard grasses 硬禾本科植物 | hard leaved forest 硬叶林

bunch grass：生草丛禾本科植物

buffer storage 缓冲存贮 | bunch grass 生草丛禾本科植物 | bundle of ray 光束、射束

hard grass：硬性禾本科植物

hardening 硬化;健化 | hard grass 硬性禾本科植物 | hardpan 硬磬

marram：禾本科植物

marram grass 滨草 | marram 禾本科植物 | marrate 叙述

marram：长在海边的防砂用禾本科植物

marrakech 马拉喀什 | marram 长在海边的防砂用禾本科植物 | marri 马瑞红桉

tar spot of grass：禾本科植物黑痣病

tar spot disease ==> 黑痣病 | tar spot of grass ==> 禾本科植物黑痣病 | tar spot of grasses ==> 禾草黑痣病