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1.
药用植物叶片的碳同位素比和矿质元素含量   总被引:1,自引:0,他引:1  
36种亚热带季雨林中常见的中草药植物叶片的稳定性同位素比(σ~(13)C 值)为-26.4到-32.6‰,灌木型的σ~(13)C 值最低。表明全部种类都属光合作用C_3途径植物。叶片的7种元素 N、P、K、Ca、Mg、Na、Si 的含量依植物种类、生活型、药效和所用药用部位不同而异。在9个具不同药效的组合中,治疗贫血、高血压和健胃药有较多的 N,治疗蛇伤、癌症的药的叶片含较多 P 和 K,治疗风湿骨痛药含较多 Ca 和 Mg。其他微量元素组成中,治疗贫血的药的叶片含 Fe 多,治疗感冒及高血压药者含 Zn 多,健胃药含 Cu 多。结果认为叶片的矿质元素分布图式反映植株自身的吸收积累特性,且对相应的主要疗效可能有附加的效应。  相似文献   

2.
在温室培养条件下,分别用根系和叶片Na Cl胁迫对甜土植物枇杷(Eriobotrya japonica)的幼苗进行处理,研究两种盐胁迫方式对其生长、矿质元素(Ca2+、Mg2+、Na+、K+、Cl-)和灰分含量在植物体各器官和叶片不同部位的影响。结果表明:在叶片盐胁迫下枇杷幼苗的叶片病斑较多分布于叶尖、叶缘,在根系盐胁迫下则较多分布于叶片中心区;根系盐胁迫促进枇杷幼苗的灰分含量积累,叶片盐胁迫则影响不大;两种方式盐胁迫枇杷幼苗体内的Na+和Cl-含量都呈极显著的正相关性;两种方式盐胁迫对枇杷幼苗的5种矿质元素含量影响相差不大,但它们影响矿质元素在植物中的重新分布;叶片盐胁迫对枇杷幼苗体内的离子毒害比根系盐胁迫的大。  相似文献   

3.
以江苏省苏州吴中区山地种植的24个枇杷果园的‘白玉’枇杷为研究对象,采用典型相关分析法研究土壤、叶片和果实矿质元素间及其与果实品质指标的相关性,应用多元线性回归分析法筛选影响枇杷果实品质的土壤、叶片和果实的主要矿质元素和影响叶片矿质元素的主要土壤矿质养分因子,为改善枇杷果实品质的果园营养管理技术提供理论参考依据。结果表明:(1)枇杷果实品质指标在不同果园间存在较大差异。(2)枇杷果实品质主要受其叶片和果实矿质元素含量影响,其中:枇杷单果质量与叶片中N含量呈显著正相关,与果实中N含量呈显著负相关;可溶性固形物含量与叶片中N和Mg元素含量呈极显著正相关,与果实中P、Mn元素含量呈极显著正相关,与果实中Ca、Mg元素含量呈极显著负相关;可滴定酸含量与叶片中N和Zn元素含量呈显著负相关,与果实中N、Mn元素含量呈显著负相关,与果实中Ca元素含量呈显著正相关。(3)果实品质指标与土壤矿质养分含量的相关性较弱,土壤矿质养分主要通过影响叶片矿质元素含量,进而间接影响果实品质,其中土壤中P、K、Ca、Mn、Cu元素对叶片中矿质元素含量影响较大。研究认为,提高土壤中P、K、Zn含量并减少土壤Ca含量是东山山地枇杷果园土壤管理的关键技术途径;提高叶片中N含量以及果实中N、P、Mn含量和减少果实中Ca、Mg含量是改善东山山地枇杷果实品质的关键措施。  相似文献   

4.
伯乐树(Bretscheneidera sinensis Hemsl.)是我国特有珍稀的孑遗植物和国家一级重点保护野生植物。探讨伯乐树种子发育过程中Mg、Ca、Na、P、K、Fe等矿质元素的动态变化与累积规律,对理解伯乐树的生理生化特点以及播种育苗、扩大种群数量具有重要意义。研究表明:伯乐树种子中的矿质元素含量依次为P﹥K﹥Ca﹥Na﹥Mg﹥Fe;在不同萌发阶段的伯乐树种子中,Mg、P、K三种元素含量逐步升高,而Ca、Na、Fe三种元素含量则表现为先增后降的动态变化。  相似文献   

5.
以大兴安岭地区3种主要立地类型的笃斯越橘为试验材料,通过分析由灌丛基部萌生的1~2年生(S1)、3年生(S2)、4年生(S3)、5年生(S4)、趋于衰老的多年生(S5)枝条叶片和茎部,以及衰老枝条(S6)的N、P、K、Ca、Mg、Mn含量分布规律及其与新梢生长的关系,明确矿质元素在笃斯越橘不同年龄基生枝上叶片及茎部的分布特性,探索矿质营养与笃斯越橘树体生长发育及衰老更新的关系。结果表明:(1)6种元素在不同年龄枝条分布呈现不同的规律,其中,N、P、K随基生枝条年龄增加大致呈下降趋势,叶片和茎部分别在S5、S6时期降到最小值;Ca在衰老枝条上含量最高,Mg元素在S1时期叶片上分布较高;Mn在不同年龄基生枝中波动较小,水湿地、山地类型叶片Mn元素随枝龄增加而提高,茎部则先增后减,在S5时期分布最高;N、P、K、Ca、Mg含量表现为叶片明显高于茎部,而塔头草甸类型茎部Mn略高于叶片,且茎部Mn含量高达2 000mg·kg~(-1)。(2)笃斯越橘的新梢生长量与叶片K、Mg以及茎部N、K、Mg含量呈极显著正相关关系,与叶片Ca、Mn以及茎部Ca含量呈显著或极显著负相关关系。(3)典型相关分析结果显示,影响笃斯越橘新梢生长量的矿质元素因子因基生枝条年龄而异;S1时期主要与叶片Mg含量有关,S2~S4阶段受茎部K、Ca、Mg影响最大,S5时期主要受叶片Ca含量影响。(4)笃斯越橘的衰老可能与Ca积累有关。  相似文献   

6.
采用盆栽试验,研究元谋干热河谷燥红土和变性土上生长的植物叶片以及凋落叶营养元素含量,并分析养分重吸收效率对土壤类型与物种互作的响应.结果表明: 土壤类型对叶片N、P、Ca、Mg、Cu、Zn、Fe、N∶P以及凋落叶N、P、Mn、N∶P均有显著影响;燥红土植物叶片与凋落叶N、Mn含量和N∶P显著高于变性土,而燥红土植物叶片P、Ca、Mg、Fe、Cu、Zn和凋落叶P含量显著低于变性土.燥红土植物叶片N含量较变性土高34.8%,而P含量低40.0%;在叶片凋落时,N、P、K表现为重吸收,而其他元素呈富集状态.燥红土凋落叶Ca、Mg、Mn富集系数显著高于变性土.物种仅对叶片N含量有显著影响,物种与土壤交互作用对植物叶片和凋落叶元素含量影响不显著,表明各土壤类型对不同物种元素含量的影响方式较为一致.土壤类型对植物元素含量的影响可进一步作用于干热河谷植物凋落物分解、植物-土壤的养分反馈以及生物地球化学循环.  相似文献   

7.
测定分析了圆柏属2种常绿木本植物叶片干物质含量、叶绿素含量及N、P、K、Na、Ca、Mg等元素含量的季节变化和元素间的关系。结果发现,两种圆柏叶片N含量与叶绿素含量正相关,反映了其一年四季的生长情况;两树种N和K含量的季节变化趋势相似,夏、秋季高于冬、春季,表明两树种夏、秋季富集的营养物质较多,与夏、秋季较高的生物量一致;而P、Ca、Mg和Na含量是冬、春季较夏、秋季高,表明圆柏属植物通过积累这些无机渗透调节剂来增强其对低温的抗性。两树种叶片对N和K同步积累,对P、Na和Mg同步积累,但在元素积累模式上也存在一定的差异,元素间的关系也要复杂得多。  相似文献   

8.
杨鹏  胥晓 《植物研究》2011,31(2):188-192
研究了一年生青杨雌雄幼苗及其不同部位对主要矿质元素(N、P、K、Ca、Mg)的吸收与分配特性及其性别间差异。结果显示:青杨雌株总P、总Ca的含量均显著高于雄株,总K含量则显著低于雄株。青杨雌雄幼苗叶片N含量均显著高于根、茎N含量,P、K、Mg含量分别表现出根>茎>叶、叶>根>茎、根>叶>茎的趋势。青杨雄株Ca含量呈现出根>茎>叶的趋势,但雌株却表现出根>叶>茎的趋势。同时,青杨雌株根P、叶Ca的含量均显著高于雄株,根Mg含量则显著低于雄株。此外,矿质元素含量比例在雌、雄幼苗根、茎、叶中均分别表现为Ca>K>N>Mg>P,Ca>N>K>P>Mg,N>K>Ca>Mg>P。结果表明,尽管矿质元素的比例模式在青杨雌雄幼苗的根、茎和叶中均相似,但其含量和分配在雌雄幼苗间具有显著的性别差异。  相似文献   

9.
镉胁迫下草莓幼龄期叶、根矿质元素积累和分布的变化   总被引:1,自引:0,他引:1  
采用水培实验,研究重金属镉对草莓幼龄期叶、根矿质元素含量和分布的影响。结果表明,高量镉降低草莓根中K、Ca、Mg、P、Cu、Zn、Mn、Fe的积累,叶片相应元素以及B、Mo含量也随镉浓度增大而呈降低趋势;但镉浓度较低时,K、Mg、P、Zn在叶、根中的含量均增加,而后才随镉处理浓度提高而降低。在镉胁迫下,同一元素在草莓叶、根之间的分布也受到影响,而且某些矿质元素含量间有显著相关性。  相似文献   

10.
在新疆绿洲区,对不同连作棉田土壤中9种矿质元素含量、棉花植株的吸收和富集特性以及棉田养分收支量等进行分析,研究了农田土壤-棉花系统矿质元素的生物循环特征。结果表明:棉田土壤中微量元素和大量元素均有一定程度的贫化趋势,以Mo的耗竭最为严重。棉株不同器官累积矿质元素的能力有明显差异,叶片中Ca、Mg和Mn的含量较高,根、茎中K、Na、Fe、Mo含量较高,棉籽中Zn和Cu含量最高;不同产品器官对矿质元素的吸收和富集能力不同,秸秆为:MoKMgCaCuZnNaMnFe,纤维:MoKMgZnCuCaNaMnFe,棉籽:MoZnKMgCuCaMnNaFe。棉花对Mo的吸收能力最强,长期连作导致土壤中Mo耗竭较为严重;随籽棉的收获,从棉田移出Zn、Cu的比例和数量较高,大量元素中移出Mg、K较多;棉花对Mn、Fe、Ca、Na的吸收量虽然较多,然而大部分富集在秸秆中,随着棉花秸秆的还田作用,将归还于耕作层并有大量富集,消耗量不大。新疆棉花长期单一种植,应重点补充Mo、Zn和Cu微量元素肥料,酌情补充Mg、K等大量元素肥料。棉田Ca、Na含量较新疆土壤背景低,预示着棉田土壤在向着脱盐碱方向发展,然而两元素在秸秆中的比例较高,因此棉花长期连作农田,应注意防止耕作层土壤向次生盐碱化方向发展。  相似文献   

11.
北京人工刺槐林化学元素含量特征   总被引:14,自引:0,他引:14       下载免费PDF全文
 31年生人工刺槐(Robinia pseudoacacia)林内各种植物的化学元素含量以C素最高,尤以刺槐树干中C含量多。N和Ca在刺槐叶片中含量大。丛生隐子草(Cleistogenes caespitosa)地上部分含K量高于林内其他植物。Fe在荆条(Vitex negundo var.heterophylla)叶片中含量较多。Al和Na在植物细根中含量为大。酸枣(Zizyphus jujuba var.spinosa) 叶中含有较高的Mg和Mn。 刺槐林的乔木、灌木、草本层化学元素积累量以C>Ca>N> K>Mg>P>Fe>Al>Na>Mn>Cu>Zn为序。灌木层化学元素积累量除C和Ca以外,均高于乔木层。对比地表枯枝落叶层化学元素总量与人工林元素的积累量,以Na的比值最高,Ca、Mn、Fe、Zn比值次之,元素归还量都较大。P比值较低,归还量较少。刺槐林土壤化学元素贮存量是以Ca>N>Mg>Fe>K>P>Na>Mn>Al>Zn>Cu为序。植物对土壤中化学元素的富集系数以K、Al和P较高。人工林元素积累量与土壤元素贮存量之比,亦以K、P、Al比值较高。可见土壤中的K、P和Al相对是不足的。  相似文献   

12.
Summary The mineral composition of 16 samples of dodder (Cuscuta nevadensis Johnston) and leaves of eight species of its host plants collected from the northern Mojave Desert were examined to determine relationships between parasitism and transport of mineral elements from the host to the parasite. The K concentration of dodder was fairly constant for a wide range of host plants. It was sometimes less than and sometimes greater than that of the host. The concentrations of Ca, Mg, B, Mn, Mo, and Sr in dodder were always much lower than those of leaves of host plants. Those of Fe, P, and Al were sometimes higher. Sodium was generally excluded from dodder regardless of host concentration. Positive and significant correlation coefficients were obtained for concentration in doddervs concentration in leaves of host plants for P, Na, Ca, Mg, Cu, Mn, Mo, Sr, Ba, and Li. The coefficient of variation was less in the dodder than in leaves of the different host plants for 7 of 17 metals.  相似文献   

13.
Robinia pseudoacacia is a North American species and in Poland it is currently invasive in character. It is used to recultivate sand excavations and others, most often in order to make the process of plant and soil succession more advanced. It has been observed that in places were R. pseudoacacia dominated in plantations, the herbaceous vegetation under the trees is poor and sometimes other vascular plants are not appearing at all. Plants usually overgrow the space out of the canopy shade. The positive influence of R. pseudoacacia on a habitat is primarily connected with the chemical composition of plant litter, as well as with the biology of the species. Chemical composition of R. pseudoacacia litter has been researched. The greatest accumulation of elements has been observed in the following parts: green leaves (Ca > K > Mg > P > Si > Na > Fe > Zn > Al > Mn) and leaf litter (Ca > K > Mg > Si > Fe > P > Na > Al > Zn > Mn). Similar regularities are observed in the remaining litter of R. pseudoacacia. It must be emphasized that nitrogen occurs in similar quantities in particular samples and it varies from 1.01 to 2.65%. The plant litter reaction (pH) vary from acid to weakly acid. In a short period of time under the canopy of R. pseudoacacia a 10 cm organic and humus horizont (O/A) has developed.  相似文献   

14.
Robinia pseudoacacia is a North American species and in Poland it is currently invasive in character. It is used to recultivate sand excavations and others, most often in order to make the process of plant and soil succession more advanced. It has been observed that in places were R. pseudoacacia dominated in plantations, the herbaceous vegetation under the trees is poor and sometimes other vascular plants are not appearing at all. Plants usually overgrow the space out of the canopy shade. The positive influence of R. pseudoacacia on a habitat is primarily connected with the chemical composition of plant litter, as well as with the biology of the species. Chemical composition of R. pseudoacacia litter has been researched. The greatest accumulation of elements has been observed in the following parts: green leaves (Ca > K > Mg > P > Si > Na > Fe > Zn > Al > Mn) and leaf litter (Ca > K > Mg > Si > Fe > P > Na > Al > Zn > Mn). Similar regularities are observed in the remaining litter of R. pseudoacacia. It must be emphasized that nitrogen occurs in similar quantities in particular samples and it varies from 1.01 to 2.65%. The plant litter reaction (pH) vary from acid to weakly acid. In a short period of time under the canopy of R. pseudoacacia a 10 cm organic and humus horizont (O/A) has developed.  相似文献   

15.
庄伟伟  王明明 《植物研究》2022,42(5):896-909
为深入了解荒漠植物营养元素计量特征,认识元素间的交互作用,揭示不同生长期、不同沙丘部位植物元素含量差异。以古尔班通古特沙漠8种优势草本植物(4种1年生植物,4种短命植物)为研究对象,采集不同生长期(旺盛期、枯萎期)、不同沙丘部位(坡上、腹地)的植株,测定全株植物的10种营养元素(C、N、P、K、Na、Mg、Al、Mn、Cu、Zn)。结果表明:(1)8种植物元素含量存在显著差异,体现了植物因遗传特性不同而对元素选择吸收的特点,含量为:C(230.19~401.82 mg·g-1)、N(11.31~18.85 mg·g-1)、P(0.95~2.08 mg·g-1)、K(16.12~29.79 mg·g-1)、Na(0.88~3.31 mg·g-1)、Mg(3.38~5.31 mg·g-1)、Al(0.33~1.99 mg·g-1)、Mn(51.35~105.32 mg·kg-1)、Cu(4.14~6.38 mg·kg-1)、Zn(11.64~21.43 mg·kg-1)。不同种的元素含量分布格局基本相似,大小排序为:C>N>K> Mg>Na>P>Al>Mn>Zn>Cu,典型特征为富K,贫Cu、Zn,属于N制约性植物,表明环境对各类植物元素含量的一致影响。(2)元素含量受物种、生长期和沙丘部位的影响显著。4种黎科植物(Chenopodiaceae)Na含量显著比4种短命植物高。与生长旺盛期相比,8种植物在枯萎期的C、N、P、Mg、Mn、Cu、Zn含量普遍降低,而Na、K含量有不同幅度的升高,并且碱蓬、沙蓬的K含量显著升高。受土壤水分和养分丰富程度的影响,沙丘腹地植物元素含量普遍比坡上同种植物高。(3)相关性分析表明:C与P,N与Na、Mg、Cu、Zn,K与P、Al,Na与Mg,Mn与Na、Mg、Cu,Zn与Cu之间具有极显著正相关关系(P≤0.001),P与Cu,C与Cu、Zn,K与Mn、Cu、Zn之间具有极显著负相关关系(P≤0.001)。综上所述,荒漠植物元素含量的这些特征体现了其对干旱半干旱地区气候和土壤等生存环境的适应性。  相似文献   

16.
 2001年2月~2002年3月在鼎湖山季风常绿阔叶林对大气降水、穿透水、土壤水(30和80 cm层)和溪水中的沉积元素进行监测,拟通过不同水相元素浓度的比较及相关关系分析,揭示系统的营养循环功能状况以及对区域化学条件变化的响应,阐明因素在环境中的迁移转化规律。结果表明:林冠与大气间强烈的相互作用,极大地提高穿透水中Mn2+、Sr2+、K+、Mg2+、Ca2+浓度。水与土壤作用后,极大地提高水相中Al3+的浓度。30 cm土壤溶液和溪水中的Al3+浓度分别是大气降水(0.329 mg·L-1)的4.8和3.7倍。溪水中的Al3+主要来源于土壤的淋溶。大气降水平均Pb2+浓度为0.062 mg·L-1,存在着一定程度的Pb2+污染,其浓度分别是穿透水和溪水的5倍和10倍。林冠吸收和土壤过滤吸附是森林生态系统净化Pb2+等重金属污染物的主要过程。大气降水、穿透水、土壤水和溪水中Na+的浓度逐步增加,但增幅不大。元素浓度的变异系数在51.1%~236.7%之间。水相中的离子浓度与雨量有关,大气降水、穿透水、土壤水中的沉积元素浓度大部分是干季大于湿季,而溪水中是干季小于或近等于湿季。元素相关分析发现,与元素Mg相关的元素最多,穿透水所含相关元素对最多,不同水相间元素相关状况差异与其元素的来源和外部环境条件有关系。Pb与金属元素Al、Mn在大气降水中极显著相关,Mn-Al、Mn-Mg、Mg-K在所有水相中显著相关,Al-Sr、Mn-Sr、Ca-K、Ca-Mg在除溪水外的所有水相中显著相关,Na-K、Na-Mg在除大气降水外的所有水相中显著相关,而Pb-Na、Pb-K在所有水相中都无相关关系。结果说明,季风常绿阔叶林系统已经遭受一定的外界环境压力,但是其物质循环功能依然稳定。  相似文献   

17.
Several of the most important reindeer forage plants in Svalbard were analysed for content of minerals (Na, K, P, Ca, Mg, S, Cl, Fe, Cu, Mn, Zn, Mo and Co) and for content of ash, crude protein, crude fiber, ether extracts and nitrogen free extracts. Some forage plants were also examined in in vitro digestibility trials. The results were compared with results from similar analyses of alpine mountain plants from southern Norway. Also freshly voided fecal samples were analysed for the same components as the forage plants.
The Svalbard vegetation had a higher content of Na, Ca, Mg, Cl, Fe and Co, than similar plants from Southern Norway. The content of other elements examined seemed to be more equal in Norway and on Svalbard. Within the Svalbard area plants growing in limestone areas had the highest content of calcium and magnesium. Also plants growing on manured soil below bird cliffs appeared to have high nutritional value. It is furthermore concluded that the closeness to the sea as well as the occurrence of several plants with high mineral content, gave the Svalbard reindeer the possibility to further improve their mineral balance compared with continental reindeer. Also the dietary shift from lichens as a major dietary component in Norway, to mosses on Svalbard, may increase mineral intake, but may also have an inferior effect on digestibility.
Although balance experiments and carcass analyses of minerals in Svalbard reindeer are missing, it is concluded that Svalbard reindeer apparently had adequate intake of most mineral elements. In spite of low standing biomass of reindeer forage plants, the quality of the vegetation seemed to compare favourably with continental reindeer pasture.  相似文献   

18.
The exchange of elements between plants and the soil in which they are growing creates reciprocal control of their element composition. Within plants, the growth rate hypothesis from ecological stoichiometry implies a strong coupling between C, N, and P. No similar theory exists for predicting relationships between elements in the soil or relationships between plants and the soil. We used a data set of element concentrations in needles and humus of Scots pine (Pinus sylvestris) and Norway spruce (Picea abies) forests in Sweden to investigate the extent to which relationships between elements (C, N, P, S, K, Ca, Mg, Fe, Mn, Al) can be observed within and between plants and soils. We found element composition to be more strongly controlled in needles than in humus. Elements that are covalently bound were also more strongly controlled, with no apparent differences between macro- and micronutrients. With the exception of N/C, there were surprisingly few relationships between elements in needles and humus. We found no major differences between the two tree species studied, but investigations of additional forest types are needed for firm conclusions. More control over element composition was exercised with respect to N than C, particularly in needles, so it might be advantageous to express nutrient concentrations relative to N rather than on a dry weight or carbon basis. Variations in many ecosystem variables appeared to lack ecological significance and thus an important task is to identify the meaningful predictors.  相似文献   

19.
石山稀有濒危植物在迁地保护后的性状变异   总被引:8,自引:0,他引:8  
本文对比研究了7种石山稀有濒危植物在石灰岩土壤以及迁移到酸性土壤后的外形特征,生长发育习性及化学元素含量,结果表明,7种石山稀有濒危植物迁移到酸性土壤后发生了以下变化:1)外形变化主要表现为叶片变大变薄,有的植物种子或叶形有变化;2)迁移后开花,结实,落叶期晚1周以上,在气候条件相同的地区,营养生长期没有变化;3)植物体内的化学元素N,Zn,B,Al的含量增加20%以上,而Ca含量减少10%;4)Al的含量虽增加很多,但仍远低于酸性土壤中的植物;Ca的含量虽然减少,但仍高于酸性土壤植物;5)元素K,B的生物吸收系数在石灰岩土壤高于酸性土壤,其他元素N,P,Ca,Mg,Fe,Al,Mn,Zn的生物吸收系数则是酸性土壤高于石灰岩土壤。  相似文献   

20.
 本文论述了喀喇昆仑、昆仑山地区87种植物12个元素含量的特征。在含量水平上>10000ppm的元素有K,Ca,800—5000ppm的元素为Na、Mg,Fe、Al,10—100ppm的元素有Ba、Sr、Ti,Mn,V与Be的含量<10ppm。大多数植物Fe、V,Sr的含量高于一般的自然含量。植物中K含量的频数分布呈正态分布,其余元素的频数分布呈对数正态分布。不同植物种元素含量差异较大,Na的变异系数最大,Ca、Mg含量的变异系数最小。同种植物在不同地点元素含量有较大差异,不同植物种差异也不同。如紫花针茅(Stipa purpurea)>垫状驼绒藜(Ceratoides compacta)>鼠麴凤毛菊(Saussurea gnaphaloides)。植物中元素含量之间的相关分析表明,Fe、Al,V,Ti之间分别达极显著相关水平。用植物中12个元素的资料,对22种植物进行分类和排序,区分出Na,K型植物和Fe,Al,V,Ba型植物。  相似文献   

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