植物生长季节不同栖息地高原鼠兔的食物选择

本文采用胃内容物镜检分析法,对栖息于青藏高原矮嵩草草甸、垂穗披碱草草甸和杂类草草甸中的高原鼠兔的主要食物组成进行了比较分析,旨在探讨栖息地变化对高原鼠兔食物组成的影响,揭示高原鼠兔对栖息地变化的生存对策和适应性.研究结果表明:在矮嵩草草甸,高原鼠兔主要取食垂穗披碱草、早熟禾、蓝花棘豆和甘肃棘豆;在垂穗披碱草草甸,主要选择垂穗披碱草、甘肃棘豆、蓝花棘豆、矮嵩草和二柱头蔗草;在杂类草草甸,喜食植物种类为垂穗披碱草、蓝花棘豆、甘肃棘豆、早熟禾、弱小火绒草、长茎藁本、兰石草和红花岩生忍冬.在整个植物生长季节,高原鼠兔在3种栖息地共取食27种植物,其中垂穗披碱草、甘肃棘豆和蓝花棘豆在不同栖息地中选择指数较高,为高原鼠兔优先选择的食物;在不同栖息地,高原鼠兔取食植物有差别,垂穗披碱草草甸为16种、矮嵩草草甸为22种,杂类草草甸为24种;喜食食物比例也存在着明显差别,在垂穗披碱草草甸,垂穗披碱草比例高达40.5%,在矮嵩草草甸,甘肃棘豆比例也达到23.7%,而在杂类草草甸,选食比例最高的兰石草仅为14.6%,说明在该草甸高原鼠兔食物选择呈现泛化趋势.相似性指数分析结果也表明,杂类草草甸中高原鼠兔主要食物组成与其它两种栖息地有较大的区别.从而说明当栖息地植物群落种类组成发生变化后,高原鼠兔可以通过改变其食物组成而适应新的栖息地.     

模拟增温对高寒草甸植物叶片碳氮及其同位素δ~(13)C和δ~(15)N含量的影响

基于国际冻原计划(ITEX)模拟增温效应对植物影响的研究方法,以高寒矮嵩草草甸4种植物(矮嵩草、垂穗披碱草、棘豆、麻花艽)为实验材料,设置大(OTC1)和小(OTC2)两类增温小室,测定了其叶片碳氮及其稳定性碳同位素(δ~(13)C、δ~(15)N)等指标在增温3年后的变化。结果表明:除矮嵩草在较小增温小室(OTC2)中C/N比值比对照降低了14.1%,其它物种C/N在两个增温处理下都有所增加,但差异均不显著(P0.05)。4种植物叶片δ~(13)C值在-24.12‰~-28.34‰之间,矮嵩草叶片δ~(13)C值随增温而升高,棘豆、麻花艽随增温而降低,且矮嵩草在OTC2的δ~(13)C值变化达到显著水平(P0.05)。矮嵩草和麻花艽的叶片δ~(15)N值在OTC1和OTC2中均比对照增加,且麻花艽增加较显著(P0.05)。垂穗披碱草在OTC1和OTC2的叶片δ~(15)N值比对照分别减少18.7%和26.9%,差异都不显著(P0.05);棘豆叶片δ~(15)N值在OTC2内比对照低11.0%(P0.05),在OTC1的内比对照高2.8%(P0.05)。可见,高寒矮嵩草草甸不同功能群植物物种碳氮含量及稳定性碳氮同位素含量对短期增温有不同的响应模式和规律。     

高寒草甸放牧扰动与两种植物的反应研究

对不同放牧强度下矮嵩草草甸植物垂穗披碱草和鹅绒委陵菜的生长和繁殖特性进行了5年研究。结果表明,垂穗披碱草株高、分蘖数、地上物量、地下生物量、有性繁殖效力在不放牧或轻度放牧下最大,营养生长效力在重度放牧中最大,而贮藏效力在重度放牧中最小。鹅绒委陵菜叶数、匍匐茎长度、地上生物量、匍匐茎生物量、开花数、生殖生物量、有性繁殖效力及营养繁殖效力在放牧区显著高于不放牧的对照区。说明适当的放牧干扰有利于垂穗披碱草营养生长,但放牧过重会抑制其有性繁殖;由于放牧采食减少了种间竞争影响,从而提高了鹅绒委陵菜营养,生长效力和有性繁殖效力。两物种地下贮藏物的比例随着放牧强度增加显著减少。放牧强度对高寒草甸的群落演替方向有显著影响。     

氮磷硅添加对青藏高原高寒草甸垂穗披碱草叶片碳氮磷的影响

以甘南高寒草甸常见牧草垂穗披碱草(Elymus nutans)为研究对象,比较不同氮磷硅添加下,垂穗披碱草叶片对元素添加的反应。研究发现:氮添加显著提高土壤中硝态氮和铵态氮的含量;磷添加提高了土壤中全磷和速效磷的含量;高浓度的硅单独、硅与氮或磷混合可提高土壤中硝态氮的含量或全磷和速效磷的含量;氮和磷单独添加分别能提高垂穗披碱草叶片全氮和全磷含量,高浓度的硅单独、硅与氮或磷混合添加都能提高垂穗披碱草叶片全氮和全磷的含量。就硅元素而言,高浓度的硅添加,硅与氮或磷混合添加能提高土壤硝态氮、全磷和速效磷的含量,促进垂穗披碱草对土壤中氮磷的吸收,从而使植物叶片中氮磷的含量增加。     

不同季节适度放牧对高寒草甸植物群落特征的影响

于2007~2011年对青藏高原高寒矮嵩草草甸在不同季节适度(牧草利用率35%~60%)放牧处理(不放牧、夏季放牧和冬季放牧)下的植物群落组成和物种多样性进行观测研究,结果表明:(1)经过长期的不同季节的适度放牧处理后,夏季放牧与冬季放牧均降低了禾本科植物功能群的比例,提高了杂草类植物功能群的比例。(2)与未放牧(对照)相比,夏季放牧处理下莎草科植物矮嵩草和杂类草蒙古蒲公英、鹅绒委陵菜的相对生物量分别增加了151.38%和318.87%、344.15%,禾本科植物异针茅相对生物量降低了41.16%;冬季放牧鹅绒委陵菜相对生物量增加了124.08%,禾本科植物草地早熟禾减少了45.99%,但夏季放牧和冬季放牧对二柱头藨草、紫羊茅、垂穗披碱草、花苜蓿和高山唐松草等植物的影响均不显著。(3)总体上不同季节适度放牧对植物群落物种丰富度、多样性指数以及均匀度指数的影响均不显著,但对这三者的影响随年份变化而变化。     

高原鼠兔冬季的食物选择

本文采用胃内容物镜检分析法,对高原鼠兔在矮嵩草草甸、垂穗披碱草草甸和杂类草草甸三种类型栖息
地中的主要食物组成进行了比较分析,旨在探讨三类栖息地不同食物资源状况对高原鼠兔食物组成的影响,以
及高原鼠兔在食物匮乏的冬季的觅食对策。研究结果表明:高原鼠兔在冬季主要选食弱小火绒草和铺散亚菊,
甘肃棘豆、垂穗披碱草和长茎藁本也是冬季食物主要组成部分。在冬季食物资源较为匮乏的情况下,高原鼠兔
选食的主要植物种类相对较多,且不同植物比例变化明显,说明高原鼠兔对食物具有一定的选择性。在矮嵩草
草甸中,其食物组成依次为铺散亚菊(16. 2% ) > 弱小火绒草(11. 5% ) > 甘肃棘豆(11. 3% ) > 大籽蒿
(9. 7% ) > 早熟禾(7. 6% ) > 长茎藁本(7. 5% ) > 垂穗披碱草(5. 5% )等7 种,占其食物的69. 3% ;在垂
穗披碱草草甸,其主要食物组成依次为垂穗披碱草(15. 8% ) > 甘肃棘豆(14. 7% ) > 弱小火绒草(14. 5% )
> 铺散亚菊(14. 2% ) > 早熟禾(7. 8% ) > 长茎藁本(6. 9% ) > 锥果葶苈(6. 2% )等7 种,占其食物的
80. 1% ;在杂类草草甸中,其主要食物组成依次为铺散亚菊(20. 8% ) > 长茎藁本(20. 6% ) > 大籽蒿
(9. 9% ) > 弱小火绒草(9. 8% ) > 锥果葶苈(6. 5% ) > 圆齿狗娃花(5. 5% )等6 种,占选食食物的73. 1% 。
不同栖息地之间食物组成比较分析结果表明,在冬季食物资源匮乏的情况下,栖息地类型不同对高原鼠兔食物
组成的影响较小,杂类草构成了它们的主要食物,这可能是由食物质量决定的,而不同栖息地中喜食植物可利
用量是决定鼠兔食物组成的主要因子,进一步验证了食物可利用量和质量决定植食性小哺乳动物食物选择模式
的假设。     

高寒矮嵩草草甸两种主要植物耐牧性的比较

通过野外控制实验,研究了刈割(留茬3 cm、留茬1 cm及不刈割)、施肥(施肥、不施肥)和浇水(浇水、不浇水)处理对高寒草甸矮嵩草(Kobresia humilis)和垂穗披碱草(Elymus nutans)补偿高度、株高相对生长率、比叶面积、叶片净光合速率和地上总生物量的影响.结果表明:2物种的株高和地上总生物量在刈割后均为低补偿响应,但其株高相对生长率显著提高,并均随年份而增加;垂穗披碱草比叶面积、叶片净光合速率和地上总生物量对刈割损伤更加敏感;尽管施肥能显著提高2物种上述各项指标,但在不同处理条件下矮嵩草的耐牧性指数均小于垂穗披碱草;浇水的作用不显著.说明2物种的耐牧性依赖于土壤养分资源获得性,矮嵩草的耐牧性强于垂穗披碱草.     

祁连山冷龙岭南坡移地植物叶片的碳氮特征

在祁连山冷龙岭南麓坡地进行不同海拔高度土壤(0～40(30)cm土层)和植被的整体双向移地实验,以探讨气候变化对主要物种和群落碳、氮特征的影响。结果表明,3 200 m的麻花艽移地至高海拔时,叶片碳、氮含量分别呈现出先增加后减少和一直增加的趋势,而碳/氮值下降明显。3 400 m的兰石草、珠芽蓼、垂穗披碱草、金露梅和鹅绒委陵菜5种植物大部分叶片碳、氮素含量及碳/氮呈现出随海拔增高而下降的趋势。3 600 m的矮嵩草、雪白委陵菜和重齿风毛菊3种植物叶片碳、氮含量及碳/氮在各海拔之间变化不明显。3 800 m的矮嵩草和矮火绒草的叶片碳、氮含量随海拔高度增加而增加,碳/氮下降。整个群落来讲碳含量随海拔升高而降低,氮含量和碳/氮比变化较小。研究发现,各群落和物种对移地的响应方式因物种组成、原生状态不同而存在差异;温度条件(以海拔升降模拟温度降升)对植被群落及主要植物叶片碳、氮含量和碳/氮比有一定影响,尤其是当高海拔稀疏植被移地到低海拔时,其叶片碳、氮和碳氮比与原生状况的植被群落及主要植物种相对变化较大。     

青藏高原三种优势植物生物量分配的变化规律

该研究利用4个由高到低不同海拔的同质园实验,以青藏高原高寒草地优势植物垂穗披碱草(Elymus nutans)、矮嵩草(Kobresia humilis)和珠芽蓼(Polygonum viviparum)为对象,分析了植物个体根、茎、叶生物量分配及根冠比的变化规律及影响因素。结果表明:(1)植物个体根、茎、叶质量比和根冠比具有显著的种间差异;与垂穗披碱草和珠芽蓼相比,矮嵩草具有显著较高的根质量比而叶、茎质量比较低,所以其根冠比较高。(2)在向低海拔移栽的过程中,珠芽蓼叶质量比保持不变,茎质量比显著降低而根质量比显著升高,根冠比表现出显著上升的趋势;垂穗披碱草则相反,即叶、茎质量比显著升高而根质量比显著降低,根冠比表现出显著下降的趋势;矮嵩草根、茎、叶质量比和根冠比则无显著变化。(3)随着海拔降低,年均气温明显升高而年均降雨量明显降低,且在植物个体种源地和土壤基质保持一致的条件下,向低海拔移栽过程中温度是导致珠芽蓼根、茎、叶生物量分配及根冠比变化的重要因素,而水分是垂穗披碱草根、茎、叶生物量分配及根冠比变化的重要驱动因素;矮嵩草根、茎、叶生物量分配及根冠比受其遗传因素影响较大。因此,在将来暖干化的背景下,青藏高原高寒草地植物生物量的分配将会发生改变,导致它们对资源(光照、水分和土壤养分)获取和利用的变化而改变它们的种间关系,从而影响群落的物种多样性与组成,最终可能导致生态系统功能的变化。     

高寒小嵩草草甸暖季草场主要植物种群的生态位

对高寒小嵩草草甸不同放牧强度下20种植物种群的优势度、生态位宽度及生态位重叠规律进行了研究。结果表明,经过2年的放牧实验,对照、轻度和中度放牧组的主要优势种均为小嵩草和垂穗披碱草,重度放牧组的主要优势种为鹅绒委陵菜和阿拉善马先蒿;由于小嵩草、矮嵩草和线叶嵩草具有耐牧和耐践踏等生物学特点,它们的生态位宽度很大（0．938,0．824,0．815）;垂穗披碱草由于其耐牧和耐旱性较差,生态位宽度相对较小（0．805）,且青海野青茅、异针茅、针茅、紫羊茅和双叉细柄茅等禾本科牧草的生态位宽度在放牧强度梯度上均较小（0．226,0．448,0．445,0．608,0．605）,说明放牧抑制了高大禾草层片的发育,为植株矮小的莎草科牧草的生长创造了条件;异针茅和针茅之间、甘肃马先蒿和阿拉善马先蒿之间生态位重叠较小（0．500,0．572）,这是种间对资源利用上分化的结果。分布于放牧演替系列2个极端的种群间生态位重叠较小,表明物种的分布是既间断又连续的。     

Interactions in the uptake of amino acids, ammonium and nitrate ions in the Arctic salt-marsh grass, Puccinellia phryganodes

The uptake of amino acids and inorganic nitrogen by roots of Puccinellia phryganodes was examined to assess the potential contribution of soluble organic nitrogen to plant nitrogen uptake in Arctic coastal marshes, where free amino acids constitute a substantial fraction of the soil‐soluble N pool. Short‐term excised root uptake experiments were performed using tillers grown hydroponically under controlled conditions in the field. The percentage reductions in ammonium uptake at moderate salinity (150 mm NaCl) compared with uptake at low salinity (50 mm NaCl) were double those of glycine, but glycine uptake was more adversely affected than ammonium uptake by low temperatures. Glycine uptake was higher at pH 5·7 than at pH 7·0 or 8·2. The glycine uptake was up‐regulated in response to glycine, whereas ammonium uptake was up‐regulated in response to ammonium starvation. Nitrate uptake was strongly down‐regulated when tillers were grown on either ammonium or glycine. In contrast to N‐starved roots, which absorbed ammonium ions more rapidly than glycine, the roots grown on glycine, ammonium and nitrate and not N‐starved prior to uptake absorbed glycine as rapidly as ammonium and nitrate ions combined. Overall, the results indicate that amino acids are probably an important source of nitrogen for P. phryganodes in Arctic coastal marshes.     

Organic Acid contents of soybean: age and source of nitrogen

The organic acid content of soybean (Glycine max v. Hodgson) root, stem, and leaf tissue was followed for 33 days after germination. Malonate was the predominant acid in leaf and root tissue, whereas fumarate was predominant in the stem. The malonate concentrations of the stem and root showed similar variations with time, but the leaf response was quite different. In nodules from 33-day-old plants, malonate was the predominant acid. Malonate levels in root and nodule tissue of 33-day-old plants were depressed in response to the addition of either nitrate or ammonia. Nodule tissue had a higher malonate concentration on nitrate nitrogen than it did on ammonium nitrogen, whereas root tissue had the higher malonate concentration on ammonium nitrogen. Analysis of organic acid concentrations of roots as a function of age and distance from the root tip in young soybean seedlings revealed a zone consistently high in malate. The malonate level in the entire root rose dramatically in tissue of age 96 to 120 hours.     

复合菌剂调控连作当归根围土壤养分及对产量的影响

【背景】连作可引起微生物群落结构失调,导致土壤环境恶化、养分循环不畅、当归[Angelica sinensis (Oliv.) Diels]产量降低,通过现代微生物技术改良土壤、消减连作障碍势在必行。【目的】于大田条件下,研究施用复合菌剂对当归根围土壤酶活、速效养分及产量的影响,明确增产机制,改进增产措施。【方法】利用溶磷圈法检测不同菌株溶磷活性、乙炔还原法检测固氮活性、试剂盒法检测过氧化物酶和硝化能力;复合菌剂T1[荧光假单胞菌(Pseudomonas fluorescens)CBS5、产碱假单胞菌(Pseudomonas alcaligenes) CBS7、嗜冷假单胞菌(Pseudomonas extremaustralis)CBSB、生枝动胶菌(Zoogloea ramigera) CBS4]和T2 (荧光假单胞菌CBS5、产碱假单胞菌CBS7、嗜冷假单胞菌CBSB)及对照CK (无菌马铃薯葡萄糖肉汤培养基)分别处理连作当归,分光光度法测定根围土壤及根中养分循环、转化相关酶活,氮、磷、钾速效养分含量;常规方法测产量;统计软件进行相关数据方差分析和主成分分析。【结果】产碱假单胞菌C...     

青藏高原高寒草甸门源草原毛虫取食偏好及其与植物C、N含量的关系

草食性昆虫对不同植物物种的取食存在偏好,这种取食偏好可能受其自身对蛋白质和碳水化合物的需求及二者平衡的调节。以青藏高原高寒矮嵩草草甸31种常见植物及门源草原毛虫为对象,通过饲喂实验,研究了草食性昆虫对不同物种和不同功能群植物的取食偏好,及其与植物叶片C、N含量和C∶N之间的关系。在31种植物中,门源草原毛虫对19种植物进行了取食,尤其对矮嵩草、红棕薹草、藏异燕麦和垂穗披碱草四种植物表现出强烈的取食偏好,而对另外12种植物未进行任何取食。在物种水平上,门源草原毛虫取食量与植物叶片N含量呈显著负相关,与叶片C∶N呈正相关。从功能群水平上看,门源草原毛虫对莎草类的取食偏好最大,而对豆科植物取食偏好最低;相应地,莎草类植物叶片N含量最低、C∶N最高,而豆科植物叶片N含量最高、C∶N最低。因此,即使在土壤有效氮匮乏、植物生长受氮素限制的高寒草甸生态系统,植物体内N含量的增加也可能不利于草食性昆虫的取食。门源草原毛虫对优势植物矮嵩草和垂穗披碱草的取食对高寒矮嵩草草甸物种共存和生物多样性维持可能具有重要的作用。     

青藏高原高寒草甸退化对矮嵩草有关生理特性的影响

该研究采用空间分布代替时间演替的方法,选取青藏高原青海省果洛藏族自治州玛沁县境内典型的未退化草甸和退化草甸样地,分别设置3个5m×5m的样方,于6至9月下旬上午进行植株和土壤采样,测定矮嵩草生理指标,探讨高寒草甸退化所导致的环境变化对自然生长状态下矮嵩草生理特性的影响机制。结果表明:(1)与未退化草甸相比,退化导致土壤表层速效氮含量极显著降低,而速效磷和速效钾含量显著升高;全氮、全磷和全钾的含量总体上表现为未退化草甸低于退化草甸。(2)与未退化草甸相比,退化草甸矮嵩草叶中超氧化物歧化酶(SOD)活性在生长前期高而后期低(低4%),谷胱甘肽(GSH)含量在两个样地的变化趋势基本一致。(3)退化草甸矮嵩草叶片可溶糖和可溶蛋白含量在生长后期分别比未退化草甸降低17.6%和34.9%,且9月份降低达极显著水平。(4)生长中期以后,退化草甸矮嵩草叶片叶绿素a、b含量比未退化草甸的下降速度快、含量分别低18.84%和20.68%。(5)退化草甸矮嵩草叶片超氧阴离子自由基(O_2~)的产生速率在9月份极显著高于未退化草甸。研究表明,在非生物胁迫下未退化草甸的矮嵩草具有更高的ROS清除能力和渗透调节能力,退化导致的环境变化可能是矮嵩草在生长后期抗氧化能力降低、衰老早的内在原因。     

pH affects ammonium,nitrate and proton fluxes in the apical region of conifer and soybean roots

The effect of pH on nitrate and ammonium uptake in the high‐affinity transport system and low‐affinity transport system ranges was compared in two conifers and one crop species. Many conifers grow on acidic soils, thus their preference for ammonium vs nitrate uptake can differ from that of crop plants, and the effect of pH on nitrogen (N) uptake may differ. Proton, ammonium and nitrate net fluxes were measured at seedling root tips and 5, 10, 20 and 30 mm from the tips using a non‐invasive microelectrode ion flux measurement system in solutions of 50 or 1500 µM NH₄NO₃ at pH 4 and 7. In Glycine max and Pinus contorta, efflux of protons was observed at pH 7 while pH 4 resulted in net proton uptake in some root regions. Pseudotsuga menziesii roots consistently showed proton efflux behind the root tip, and thus appear better adapted to maintain proton efflux in acid soils. P. menziesii's ability to maintain ammonium uptake at low pH may relate to its ability to maintain proton efflux. In all three species, net nitrate uptake was greatest at neutral pH. Net ammonium uptake in G. max and net nitrate uptake in P. menziesii were greatly reduced at pH 4, particularly at high N concentration, thus N concentration should be considered when determining optimum pH for N uptake. In P. menziesii and G. max, net N uptake was greater in 1500 than 50 µM NH₄NO₃ solution, but flux profiles of all ions varied among species.     

2种嵩草属植物形态特征对生境干旱化的响应

该研究于西藏自治区东南部的东达山高山草甸沿生境干旱化梯度设置10个样地,采用线性回归方法分析优势种高山嵩草(Kobresia pygmaea)和矮生嵩草(K.humilis)叶片数量与其它构件数值(分株数量、茎基直径、根系数量和根系长度)之间的关系,并采用线性回归斜率测度分株功效、叶片萌生能力、根系分生功效和根系伸长功效,以探讨嵩草的分株能力、茎基生长和根系生长对生境干旱化过程的响应机制。结果显示:(1)2种嵩草植物的叶片数量与4种构件数值均为显著线性正相关关系。(2)随着生境干旱化程度增加,高山嵩草分株数量增加,矮生嵩草分株受干旱抑制程度高,分株数量呈下降趋势;2种嵩草分株功效下降,即单株叶片数量因干旱化程度增加而减少。(3)2种嵩草的茎基直径、叶片萌生能力随着生境干旱化程度增加而下降;高山嵩草叶片萌生能力的变化与生境干旱化梯度一致,具有连续性;矮生嵩草叶片萌生能力对生境干旱化的适应性弱,干旱到一定程度发生骤降。(4)随着生境干旱化,高山嵩草的根系数量和长度均增加,矮生嵩草根系长度增加,但数量却无规律变化;2种嵩草的根系分生功效和根系伸长功效均下降。研究表明:嵩草属植物分布的最适宜生境为表面稍有积水的沼生生境。为适应生境干旱化,高山嵩草降低叶片萌生率以减少蒸腾作用,增加分株数量以增强对空间的占有能力,并增加根系数量和长度来提高对土壤水分的吸收能力,因此对干旱有较强适应性且分布范围广;矮生嵩草只通过降低叶片萌生率,增加根系长度响应干旱化生境,其分布范围较窄。     

Ammonium and nitrate nutrition inPlantago lanceolata L. andPlantago major L. ssp.major

With the aims (1) to test whether the different natural occurrence of twoPlantago species in grasslands is explained by a different preference of the species for nitrate or ammonium; (2) to test whether the different occurrence is explained by differences in the flexibility of the species towards changes in the nitrogen form; (3) to find suitable parameters as a tool to study ammonium and nitrate utilization of these species at the natural sites in grasslands, plants ofPlantago lanceolata andP. major ssp.major were grown with an abundant supply of nitrate, ammonium or nitrate+ammonium as the nitrogen source (0.5 mM). The combination of ammonium and nitrate gave a slightly higher final plant weight than nitrate or ammonium alone. Ammonium lowered the shoot to root ratio inP. major. Uptake of nitrate per g root was faster than that of ammonium, but from the mixed source ammonium and nitrate were taken up at the same rate. In vivo nitrate reductase activity (NRA) was present in both shoot and roots of plants receiving nitrate. When ammonium was applied in addition to nitrate, NRA of the shoot was not affected, but in the root the activity decreased. Thus, a larger proportion of total NRA was present in the shoot than with nitrate alone. In vitro glutamate dehydrogenase activity (GDHA) was enhanced by ammonium, both in the shoot and in the roots.In vitro glutamine synthetase activity (GSA) was highest in roots of plants receiving ammonium. Both GDHA and GSA were higher inP. lanceolata than inP. major. The concentration of ammonium in the roots increased with ammonium, but it did not accumulate in the shoot. The concentration of amino acids in the roots was also enhanced by ammonium. Protein concentration was not affected by the form of nitrogen. Nitrate accumulated in both the shoot and the roots of nitrate grown plants. When nitrate in the solution was replaced by ammonium, the nitrate concentration in the roots decreased rapidly. It also decreased in the shoot, but slowly. It is concluded that the nitrogen metabolism of the twoPlantago species shows a similar response to a change in the form of the nitrogen source, and that differences in natural occurrence of these species are not related to a differential adaptation of nitrogen metabolism towards the nitrogen form. Suitable parameters for establishing the nitrogen source in the field are thein vivo NRA, nitrate concentrations in tissues and xylem exudate, and the fraction of total reduced nitrogen in the roots that is in the soluble form, and to some extent thein vitro GDHA and GSA of the roots. Grassland Species Research Group. Publ. no 118.     

Effect of nodulation on the nitrate assimilation in vegetative soybean plants

Summary Nitrate assimilation in the first trifoliate leaf of vegetative soybean plants (Glycine max L. Merr, cv Hodgson) was studied in relation to nodulation. Nodulated and non-nodulated plants were grown in a nitrate medium (4 mM). As a control nodulated plants were grown in a nutrient medium without combined nitrogen. This study included measurements of the acetylene reduction activity of the whole plant and of thein vitro nitrate reductase, glutamine synthetase and glutamate dehydrogenase activities in the first leaf and of the nitrate concentration. Nitrate accumulation and nitrate reductase activity were depressed in nodulated plants; root growth was decreased in the presence of nitrate. The relationships between nitrate assimilation and nodulation are discussed.     

Interactions between root and shoot competition among four plant species in an alpine meadow on the Tibetan Plateau

At low altitudes, the interactions between root and shoot competition on plant growth have been extensively studied, and such interaction effects were found to be positive, negative, or neutral. However, little is known about such effects at high altitudes where the environmental conditions are harsher than those at low altitudes. We carried out a field experiment in an alpine meadow in the northeast Tibetan Plateau to test the hypothesis that a negative interaction between root and shoot competition exists for alpine plant species. Root and shoot competition were experimentally manipulated in the four grass species (Kobresia humilis, Saussurea superba, Stipa aliena and Elymus nutans). We found that K. humilis and S. aliena grew better without competition, whereas S. superba grew better with shoot competition and E. nutans grew better with root competition. The interactions between root and shoot competition were negative in K. humilis, positive in S. superba, but neutral in S. aliena and E. nutans, suggesting that the interaction effects are species-specific. This study also suggested that alpine plants may trade off both plant–plant interactions and competition shift between root and shoot to adapt to stressful environments.