氮素添加对内蒙古羊草草原净氮矿化的影响

　　氮素作为陆地生态系统生产力主要的限制因子，对生态系统过程的调控有着重要的意义。净氮矿化是有机氮素到无机氮素的转变过程，该过程决定了土壤氮素的可利用性。准确估计土壤的供氮能力可以为确定最佳施肥量和施肥时间提供理论依据，并将影响着土地的可持续发展和管理政策。氮矿化潜力N0被定义为在最适温度和湿度下，土壤氮素在无限时间内所能矿化的最大量。由于氮矿化潜力是土壤供氮能力很好的指示值，所以对氮矿化潜力的研究能够使我们更好地了解土壤的氮素矿化动态和其供氮潜力。 　　为更好地了解天然草原氮素矿化对全球氮沉降背景以及草原施肥管理模式的响应，我们从2000年起在内蒙古羊草草原开展了长期的氮素添加实验，分别设置对照(N0)、添加5g N•m-2(N1.75)、30g N•m-2(N10.5)和80g N•m-2(N28)四个氮肥添加梯度以及对照(control)、添加100g有机肥•m-2(O100)、添加500g有机肥•m-2(O500)、添加1000g有机肥•m-2(O1000)四个有机肥添加梯度。氮肥添加在相邻并同时进行施肥的两个生态系统类型中展开，即成熟羊草草原（A区，1979年围封）和退化的羊草草原（B区，1999年围封），有机肥添加也同时在与之相邻的C区中展开（C区的土地利用历史与B区一致）。 2002年和2006年，从A、B区中进行氮肥处理后的土壤取样；有机肥处理的土壤样品从2002年C区中获得。土样在最佳温度(25℃)和湿度(60%田间持水量（WHC）)下进行了5周室内培养，并用阶段淋溶方法来测定氮肥添加和有机肥添加对土壤氮矿化动态的影响。 　　氮肥添加显著降低了土壤的pH值，但累积氮矿化量与土壤pH值、有机碳、全氮均没有显著的相关性。在两个区内，氮素添加都显著改变了土壤的累积氮矿化量。最高氮素处理N28相对应于最低的累积氮矿化量，而低氮素处理N1.75却使得累积氮矿化量最高。同时，在N0和N1.75处理中硝态氮的含量高于铵态氮，但在N28处理中却表现出相反趋势。实验还表明大多数氮素添加强度处理在A区比B区有更高的土壤累积氮矿化量。 　　有机肥添加也显著改变了土壤5周内的累积氮矿化量，并且累积氮矿化量随有机肥添加强度的升高而显著增加。培养5周末时土壤的累积铵态氮的含量与有机肥施加强度之间并没有相关性，但是累积硝态氮的含量有随着有机肥施加强度的上升而增加的趋势。 　　基于前5周土壤培养所得到的结果，我们选择了氮肥添加的N0，N1.75， N28处理以及有机肥添加的control、O100、O1000处理继续进行了长达15周的培养。培养数据与描述土壤氮矿化动态的一级动力学模型--first-order kinetics: Nm=N0（1－exp(-kt)）拟合良好( R2=0.893～0.97)。无论是氮肥添加还是有机肥添加都显著增加了土壤的氮矿化潜力N0，并且N0随着氮肥或者机肥添加强度的增加而增加。对于氮肥处理的土壤来说， N0与氮矿化速率常数k之间反向相关，但是在有机氮处理的土壤中N0与k之间却没有相关性。总的结果显示，经有机肥添加的土壤比经氮肥添加的土样有着更大的氮矿化潜力N0值以及氮矿化速率常数k值，较大的k值暗示着土壤氮素较快的周转速率。

放牧对内蒙古草原植物C:N:P化学计量特征和资源分配的影响

C、N、P是生物地球化学循环中的重要元素，其可利用性和各元素之间的平衡关系将生态系统的物质循环有机统一为一个整体。化学计量生态学为研究这几种基本元素间的平衡提供了一个有力的理论框架。许多研究表明，过度放牧会改变生态系统的结构和功能，而放牧如何影响植物的C:N:P化学计量关系的却少见报道。本研究以内蒙古锡林河流域沿水分梯度分布的草甸、草甸草原、典型草原和沙地四种植被类型中的灰脉苔草（Carex appendiculata）、贝加尔针茅(Stipa baicalensis)、羊草(Leymus chinensis)、大针茅(Stipa grandis)、小叶锦鸡儿(Caragana microphylla)、冷蒿(Artemisia frigid)、克氏针茅(S. krylovii)和榆树(Ulmus Pumila)疏林沙地8个草地群落为研究对象，对长期禁牧样地和自由放牧样地中273种植物，其中禁牧与放牧样地中的共有植物种为144个，测定了植物叶片C: N: P化学计量特征以及植株高度、丛幅面积、茎、叶和株（丛）生物量、茎叶比等功能性状，系统地研究了放牧对植物C:N:P化学计量特征和资源分配的影响。取得了如下主要研究结果和结论： 1. 放牧降低了植物叶片的C:N比，但增加了N:P比和C:P比。C:N:P 化学计量比的变化主要受叶片N和P含量变化的影响； 2. 植物C:N:P化学计量特征对放牧的响应同时受水分条件的制约。沿水分梯度分布的不同植被类型中，植物叶片C:N:P化学计量特征对放牧的响应不同。草甸群落中，植物叶片C含量显著降低，N和P含量显著增加；在草甸草原群落中，植物叶片C、P含量减少，N含量显著增加；而在典型草原群落中，植物叶片C、N和P含量均显著降低； 3. 在物种水平上，C、N、P含量对放牧的响应分为：显著增加、显著降低和没有显著变化三种类型。放牧影响下，植物叶片N含量和N:P比在显著升高的物种多于显著降低的，而叶片C含量、C:N和C:P显著降低的物种占的比例很小，表明植物对放牧适应策略与物种本身的生物学特性有着密切的关系。 4. 过度放牧使植物的植株高度、丛幅大小、株丛数、茎叶比和单株生物量均显著降低，即植物整体呈现小型化现象，进而导致群落初级生产力、茎和叶生物量下降。轻度放牧对物种的资源分配没有显著影响，单株（丛）生物量和群落茎、叶及总生物量均呈增加趋势，这与过度放牧的影响正好相反。 5. 过度放牧显著改变了物种的资源分配策略，使生物量向叶的分配比例增加，向茎的分配比例减少。资源优先向同化器官分配可能是草地植物对长期放牧干扰的一种重要适应对策。

内蒙古草原凋落物分解对生物多样性变化的响应

生物多样性与生态系统功能紧密相关，而凋落物分解是生态系统主要功能之一，同时凋落物的分解反过来又影响了物种的组成和多样性。本研究在内蒙古草原应用分解网袋法，通过功能群去除产生不同的多样性梯度。研究了草原生态系统的生物多样性变化对凋落物分解过程的影响。实验分为相互补充的三个部分，（一）、分解微环境实验研究了功能群多样性变化引起的分解微环境变化对凋落物分解的影响；（二）、凋落物组成实验研究四个功能群的优势物种羊草（Leymus chinensis）、大针茅（Stipa grandis）、细叶葱（Allium tenuissimum）、刺穗藜（Chenopodium aristatum）的15种不同组合方式的单种或混合凋落物在相同的分解微环境下物种间的相互作用对凋落物分解的影响；（三）、综合分解微环境和凋落物组成两种影响凋落物分解的因素，从15种多样性组合的去除样方中收集的单种或混合凋落物放回原样方分解。研究结果表明，功能群多样性，相应地物种多样性高的样方中，其微环境有利于凋落物的分解，两个生物特性差异较大的物种木地肤（Kochia prostrata）和二裂委陵菜（Potentilla bifurca）在功能群多样性高的样方中与多样性低的样方相比均表现出高的分解速率；混合凋落物的分解具有非加和性效应。混合凋落物的分解速率与其初始碳含量呈负相关关系，与其初始氮、磷含量呈正相关；当混合凋落物在功能群多样性不同的环境中分解时，重量降解速率与环境中的功能群多样性没有显著的相关关系，氮流失与功能多样性成正相关。我们的研究表明，群落中凋落物组成和凋落物多样性相比，前者是影响凋落物分解的决定性因素；与地上存活植株的生物学过程相比，凋落物分解受生物多样性的影响较小；在生物多样性更高的区域，可以显著地增加氮的循环过程，有利于提高群落生产力。

环境变化对内蒙古草原小叶锦鸡儿和羊草土壤氮素转化的影响

氮素是影响内蒙古温带典型草原植物生长和初级生产力的主要因素之一，土壤氮素的可利用性及其对全球环境变化的响应对于预测生态系统碳氮平衡显得尤为重要。空气中的游离氮和土壤中的有机氮必须通过固氮作用和矿化作用，转化为无机氮才能被绝大多数高等植物直接利用，氮素转化决定土壤氮素有效性。因此，研究环境变化对草原灌丛豆科固氮植物小叶锦鸡儿和草原优势植物种羊草土壤氮素转化重要生物过程的影响，对于进一步了解草原氮库变化及其对环境变化的可能响应有重要意义。 在中国科学院内蒙古草原生态系统定位站，利用开顶式生长室（Open-top chamber，OTC）控制实验模拟环境变化，经过三年的实验处理，研究氮素、水分和CO2浓度变化对小叶锦鸡儿根瘤生长和共生固氮、小叶锦鸡儿和羊草土壤净氮矿化速率的影响。观察小叶锦鸡儿根瘤形态和数量、测定根瘤长度和生物量以及固氮酶活性、测定土壤净氮矿化速率和土壤酶活性，探讨小叶锦鸡儿和羊草土壤氮素转化对环境变化响应机理。 结果表明，三年生桶培小叶锦鸡儿根瘤多着生于侧根，以浅黄色的小型球状根瘤为主，其次是棕褐色的棒状和纺锤状根瘤，较大型的褐色Y状根瘤相对较少。添加氮素极显著地抑制根瘤生长发育及其固氮酶活性，这种抑制效应随着水分增加和CO2浓度升高有所减缓。随着水分的增加，根瘤形态多样，根瘤着生部位由主根渐向侧根再向须根发展，根瘤数量和重量也显著增加。水分和CO2浓度升高，固氮酶活性增加但是未达到显著水平。小叶锦鸡儿根瘤生长及其固氮酶活性在加水条件下最好，水分可能是限制内蒙古半干旱草原小叶锦鸡儿固氮能力的关键因素。 环境变化影响小叶锦鸡儿土壤无机氮库。添加氮素处理，土壤无机氮库显著增加。添加氮素后，土壤脲酶活性显著降低，铵态氮和无机氮都出现明显的氮固持，但硝化速率增加，可能是由于添加氮素后土壤化学性质改变更利于硝化细菌进行硝化活动。随着水分和CO2浓度的升高，由于植物生长需求更多氮素的供应，土壤无机氮库显著降低。水分和CO2浓度处理对小叶锦鸡儿土壤脲酶活性和净氮矿化速率没有显著影响，但是能一定程度上减缓了氮素的负效应，促使无机氮的转化，使土壤微生物对铵态氮和无机氮的固持减少。但是蛋白酶活性和硝酸还原酶活性对三种环境因子响应均不敏感，脲酶对环境因子的变化最为敏感。小叶锦鸡儿土壤氮素转化与土壤理化性质密切相关，环境因子通过影响土壤脲酶活性以及土壤酸碱度等影响土壤矿化速率，进而影响土壤无机氮浓度和植物可利用氮。 羊草土壤无机氮库与小叶锦鸡儿土壤无机氮库对环境变化的响应较为一致，添加氮素羊草土壤无机氮含量显著增加，水分增加土壤无机氮含量显著降低。添加氮素使硝化速率显著增大，氨化速率和净氮矿化速率降低，但是未达到显著水平，铵态氮和无机氮出现固持现象。水分的增加降低土壤无机氮库，刺激脲酶活性，微生物对铵态氮的矿化作用增加，但是硝态氮的矿化作用受抑制，对净氮矿化没有影响。CO2浓度升高对羊草土壤无机氮库和土壤氮素矿化都没有显著地影响，但是CO2浓度升高在适宜水分下通过刺激土壤微生物活性，促进脲酶活性和无机氮的转化。羊草土壤酶活性对氮素和CO2浓度的响应与小叶锦鸡儿土壤酶活性的响应一致。 综上，不同环境因子对氮素转化过程影响不同，氮素添加抑制小叶锦鸡儿根瘤及其固氮酶活性，降低小叶锦鸡儿和羊草土壤净氮矿化速率。水分和CO2浓度升高一定程度上缓解了氮素对固氮酶活性以及土壤净氮素矿化速率的抑制作用，有利于土壤氮素转化。

旱生植物冷蒿（Artemisia frigida）的甲烷排放

本工作研究植物源CH4排放，即植物本身生成的CH4，不是厌氧微生物代谢产生的。目前对植物是否直接排放甲烷仍然存在很大争议：一方面实验中观测到的植物甲烷排放率差异较大；另一方面对植物甲烷排放内在机理仍不清楚。本文以旱生植物冷蒿(Artemisia frigida)为对象，测定冷蒿甲烷排放，分析冷蒿甲烷排放的可能存在的外界干扰因素。实验结果表明，冷蒿确实能够排放甲烷，冷蒿甲烷生成可能与活性氧代谢有关。 冷蒿是一种典型的旱生植物，其生长的典型草原中，土壤透气性好并表现为大气甲烷的汇。土壤孔隙间的甲烷浓度不高于大气甲烷浓度，能够通过植物根系进入植物体内的土壤甲烷量十分有限，植物组织又缺乏吸附甲烷的能力，很难在植物体内累积甲烷。因此，一些实验研究中所提出的植物蒸腾作用和细胞壁吸附作用对冷蒿的甲烷排放并没有显著影响。我们研究在实验室条件下冷蒿能否排放甲烷，无论是野外生长的冷蒿，还是室内无菌培养的冷蒿，都有明显的甲烷排放。通过研究植物呼吸作用与甲烷排放之间的相关性，我们发现两者有明显的线性关系。植物在应对环境胁迫时，呼吸电子传递链发生紊乱，导致活性氧的积累，这可能是植物所排放甲烷的主要来源。进而，我们通过活性氧添加实验证实包括超氧阴离子(•O2-)，羟基自由基(•OH)和过氧化氢(H2O2)在内的多种活性氧都能够促进冷蒿的甲烷排放，而抗氧化酶CAT则对冷蒿的甲烷排放具有抑制效果，我们认为这种抑制效果是通过对ROS的清除来实现的。冷蒿体内能够不断产生甲烷的途径可能需要活性氧的参与，植物体内自由基水平的高低，很可能决定了这种植物能否排放甲烷。因此，我们对比了四种植物体内的抗氧化酶活性。我们在抗氧化酶活性高的物种中没有测得甲烷的排放，而冷蒿和小叶锦鸡儿两种有明显甲烷排放的植物，其三种抗氧化酶活性均较低。由此我们认为，植物体内的活性氧与植物细胞内的某些成分发生反应并产生甲烷的过程很可能是植物体内清除活性氧，降低过氧化毒害的一种适应机制。

Consumption of fa cai Nostoc soup: A Potential for BMAA exposure from Nostoc cyanobacteria in China?

Grown in arid regions of western China the cyanobacterium Nostoc flagelliforme - called fa cai in Mandarin and fat choy in Cantonese - is wild-harvested and used to make soup consumed during New Year's celebrations. High prices, up to $125 USD/kg, led to overharvesting in Inner Mongolia, Ningxia, Gansu, Qinghai, and Xinjiang. Degradation of arid ecosystems, desertification, and conflicts between Nostoc harvesters and Mongol herdsman concerned the Chinese environmental authorities, leading to a government ban of Nostoc commerce. This ban stimulated increased marketing of a substitute made from starch. We analysed samples purchased throughout China as well as in Chinese markets in the United States and the United Kingdom. Some were counterfeits consisting of dyed starch noodles. A few samples from California contained Nostoc flagelliforme but were adulterated with starch noodles. Other samples, including those from the United Kingdom, consisted of pure Nostoc flagelliforme. A recent survey of markets in Cheng Du showed no real Nostoc flagelliforme to be marketed. Real and artificial fa cai differ in the presence of beta-N-methylamino-L-alanine (BMAA). Given its status as a high-priced luxury food, the government ban on collection and marketing, and the replacement of real fa cai with starch substitutes consumed only on special occasions, it is anticipated that dietary exposure to BMAA from fa cai will be reduced in the future in China.

Influence of dew on biomass and photosystem II activity of cyanobacterial crusts in the Hopq Desert, northwest China

Dew is an important water source for desert organisms in semiarid and arid regions. Both field and laboratory experiments were conducted to investigate the possible roles of dew in growth of biomass and photosynthetic activity within cyanobacterial crust. The cyanobacteria, Microcoleus vaginatus Gom. and Scytonema javanicum (Kutz.) Born et Flah., were begun with stock cultures and sequential mass cultivations, and then the field experiment was performed by inoculating the inocula onto shifting sand for forming cyanobacterial crust during late summer and autumn of 2007 in Hopq Desert, northwest China. Measurements of dew amount and Chlorophyll a content were carried out in order to evaluate the changes in crust biomass following dew. Also, we determined the activity of photosystem II(PSII) within the crust in the laboratory by simulating the desiccation/rehydration process due to dew. Results showed that the average daily dew amount as measured by the cloth-plate method (CPM) was 0.154 mm during fifty-three days and that the crust biomass fluctuated from initial inoculation of 4.3 mu g Chlorophyll a cm(-2) sand to 5.8-7.3 mu g Chlorophyll a cm(-2) crust when dew acted as the sole water source, and reached a peak value of approximately 8.2 mu g Chlorophyll a cm(-2) crust owing to rainfalls. It indicated that there was a highly significant correlation between dew amounts and crust moistures (r = 0.897 or r = 0.882, all P < 0.0001), but not a significant correlation between dew and the biomass (r = 0.246 or r = 0.257, all P > 0.05), and thus concluded that dew might only play a relatively limited role in regulating the crust biomass. Correspondingly, we found that rains significantly facilitated biomass increase of the cyanobacterial crust. Results from the simulative experiment upon rehydration showed that approximately 80% of PSII activity could be achieved within about 50 min after rehydration in the dark and at 5 degrees C, and only about 20% of the activity was light-temperature dependent. This might mean that dew was crucial for cyanobacterial crust to rapidly activate photosynthetic activity during desiccation and rehydration despite low temperatures and weak light before dawn. It also showed in this study that the cyanobacterial crusts could receive and retain more dew than sand, which depended on microclimatic characteristics and soil properties of the crusts. It may be necessary for us to fully understanding the influence of dew on regulating the growth and activity of cyanobacterial crust, and to soundly evaluate the crust's potential application in fighting desertification because of the available water due to dew. (C) 2009 Published by Elsevier Ltd.

Calibration of alkenone unsaturation index with growth temperature for a lacustrine species, Chrysotila lamellosa (Haptophyceae)

Although long chain alkenones (LCKs) occur widely in lacustrine sediments, their origin is not clear. Here, we report a lacustrine source, the non-calcifying species Chrysotila lamellosa Anand (Haptophyceae), collected and isolated from an inland saline water body, Lake Xiarinur (Inner Mongolia, China). Its alketione pattern is similar to those of coastal marine strains of C lamellosa,but the relationship between U-37(K') index and culture temperature for the lacustrine species is quite different from that of the coastal species. A significant feature of the alkenones in this strain of C lamellosa is a lack of C-38 methyl alkenones, which might be used to distinguish the species from the marine haptophyte species Emiliania huxleyi and Gephyrocapsa oceanica. The higher C-38 tetraunsaturated compound abundance might be another important feature for distinguishing the C lamellosa alkenone producer from the coastal species Isochrysis galbana. This alkenone distribution pattern has been detected in many lakes, which suggests that C lamellosa or a closely related species might be a very common alkenone precursor in lacustrine systems. We examined U-37(K') and U-37(K) values for C lamellosa as a function of culture temperature in a batch culture experiment. The calibration for U-37(K') vs. culture temperature (T) was U-37(K') = 0.0011 x T-2 - 0.0157 x T + 0.1057(n = 14, r(2) = 0.99) from 10 degrees C to 22 degrees C or U-37(K') = 0.0257 x T - 0.2608(n = 9, r(2) = 0.97) from 14 degrees C to 22 degrees C. U-37(K) vs. culture temperature was U-37(K) = 0 0377 x T - 0.5992(n = 14, r(2) = 0.98) from 10 degrees C to 22 degrees C. Our experiments show that the alkenone unsaturation index (U-37(K')) is strongly controlled by culture temperature and can be used for palaeoclimate reconstruction. (C) 2007 Elsevier Ltd. All rights reserved.

水蚀风蚀交错带小流域生态环境综合治理模式研究

:水蚀风蚀交错带是黄土高原侵蚀最严重的地区和黄河下游河床粗泥沙的主要来源区 ,其生态环境脆弱、治理难度大 ,加之晋陕蒙能源基地的大规模开发 ,也带来了新的环境问题。鉴于治黄和煤田开发及生态环境整治的紧迫需要 ,以水蚀风蚀交错带六道沟小流域为试区 ,分析研究了该区水蚀风蚀时空分布规律及脆弱生态环境特征 ,提出以防治水蚀和风蚀为中心 ,以提高生态经济效益和持续发展为目标 ,以基本农田优化结构和高效利用及植被建设为重点 ,建立具有防蚀固沙兼高效生态经济功能的大农业复合生态系统综合治理模式 ,取得了良好的社会与经济效益

Spatio-temporal changes in annual accumulated temperature in China and the effects on cropping systems, 1980s to 2000

Change in thermal conditions can substantially affect crop growth, cropping systems, agricultural production and land use. In the present study, we used annual accumulated temperatures > 10 degrees C (AAT10) as an indicator to investigate the spatio-temporal changes in thermal conditions across China from the late 1980s to 2000, with a spatial resolution of 1 x 1 km. We also investigated the effects of the spatio-temporal changes on cultivated land use and cropping systems. We found that AAT10 has increased on a national scale since the late 1980s, Particularly, 3.16 x 10(5) km(2) of land moved from the spring wheat zone (AAT10: 1600 to 3400 degrees C) to the winter wheat zone (AAT10: 3400 to 4500 degrees C). Changes in thermal conditions had large influences on cultivated land area and cropping systems. The areas of cultivated land have increased in regions with increasing AAT10, and the cropping rotation index has increased since the late 1980s. Single cropping was replaced by 3 crops in 2 years in many regions, and areas of winter wheat cultivation were shifted northward in some areas, such as in the eastern Inner Mongolia Autonomous Region and in western Liaoning and Jilin Provinces.

Considerable effects of diversity indices and spatial scales on conclusions relating to ecological diversity

The relationships between ecological diversity and ecosystem functions such as stability and productivity have long been debated and have no final conclusion until now. It is ignored that the debate should be firstly based on the same diversity index, which should be theoretically complete, and on same observation scale. For the issue on the scale of ecotope observation, ecosystems should be distinguished according to intensity of human disturbance. For the issue on the scale of species observation, either number diversity or biomass diversity should be identified. This paper takes grassland ecosystems located within the Bayin Xile grassland of Xilin Gol League of Inner Mongolia Autonomous Region as an example to analyze effects of different diversity indices and spatial scales on the conclusions of ecological diversity and its relationships with ecosystem functions. The analysis results both on the scale of ecotope observation and on the scale of species observation show that different diversity indices might give different conclusions and spatial resolution has a great effect on the relative conclusions. (c) 2005 Elsevier B.V. All rights reserved.

Distribution characteristics of (CS)-C-137 in wind-eroded soil profile and its use in estimating wind erosion modulus

Due to its inert reaction in soil system and distinctive vertical distribution in soil profile, caesium-137 (Cs-137) has been used as a tracer to assess wind erosion. In this study, 62 soil samples were collected from 4 sampling sites in Taipusi County, Inner Mongolia; Caesium-137 activities for those soil samples were measured using a gamma-ray spectrometry in Sichuan University, Chengdu. Distribution pattern of Cs-137 in vertical soil profile was different for different land use and land cover types. Caesium-137 was distributed homogeneously in plow layer of cropland, and negatively exponential in low to medium cover grassland. Distribution pattern in high covered grassland was represented by a peak at 2-4 cm soil depth followed by a negative exponential curve. Based on those findings, simplified mass balance model was chosen to estimate the rate of wind erosion for cropland, while profile distribution model was used for grassland. Estimated wind erosion rates were 7990, 4270 and 1808 Mg(.)km(-2.)a(-1) for cropland, low cover grassland and medium cover grassland, respectively. Wind erosion intensity correlated negatively with plant cover.

Defoliation, nitrogen, and competition: effects on plant growth and resource allocation of Cleistogenes squarrosa and Artemisia frigida

Two species, Artemisia frigida Willd. (C-3, semishrub, and dominant on overgrazed sites) and Cleistogenes squarrosa (Trin.) Keng (C-4, perennial bunchgrass, and dominant or codominant on moderately grazed sites) were studied to determine the effects of defoliation, nitrogen (N) availability, competition, and their interactions on growth, biomass, and N allocation in a greenhouse experiment. The main treatments were: two nitrogen levels (NO = 0 mg N pot(-1), N1 = 60 mg N pot(-1)), two defoliation intensities (removing 60% of total aboveground biomass and no defoliation), and three competitive replacement series (monocultures of each species and mixtures at 0.5:0.5). Our results were inconsistent with our hypothesis on the adaptive mechanisms of A. frigida regarding the interactive effects of herbivory, N, and competition in determining its dominant position on overgrazed sites. Cleistogenes squarrosa will be replaced by A. frigida on over-grazed sites, although C. squarrosa had higher tolerance to defoliation than did A. frigida. Total biomass and N yield and N-15 recovery of C. squarrosa in mixed culture were consistently lower than in monocultures, whereas those of A. frigida grown in mixtures were consistently higher than in monocultures, suggesting higher competitive ability of A. frigida. Our results suggest that interspecific competitive ability may be of equal or greater importance than herbivory tolerance in determining herbivore-induced species replacement in semi-arid Inner Mongolian steppe. In addition, the dominance of A. frigida on overgrazed sites has been attributed to its ability to shift plant-plant interactions through (lap colonization, root niche differentiation, and higher resistance to water stress.

地球化学场的多重分形分析与分解

Geochemical and Geophysical anomaly play an important role in mineral exploration，their spatial structure character include singularity and self－similar。The singularity of an anomaly reflects the enrichment characters of the geochemical element ,The anomaly separation by multifractal model is useful in mineral anomaly assessment。In recent years, The continuous multifractal mode of the geochemical fields was studied ,it can be separated into the simple continuous multifractal mode and the high concentration multifractal mode, and the C－A、C－D、 S－A、MSDV、W－A method to decompose the anomaly were presented。Those are succeeded in interpretation of Geochemical and Geophysical anomaly。 This study makes a summarization to these method， we present a multifractal method based on wavelet transform to analyze the multifractal fields 。The singularity and spectrum are calculated through tracing the wavelet maximum modulus in different measure，and then the fields can be decomposed by the characters of the singularity。 It is demonstrated to be useful in interpretation of Au anomaly in Gekou－Shicheng region Rushang Shandong Province 。 Based on the multifractal theory , Using the concentration—area（C—A）method ,We study two geochemical fields in Chifeng area , Inner Mongolia。The results show that the geochemical fields have three different multifractal modes。Based on these ,we discuss the enrichment mode of the geochemical elements and their distributions in space and get the anomaly lower limit ,then the geochemical backgrounds、regional anomalies and local anomalies are distinguished

巴丹吉林沙漠及其南缘地区的水化学和环境同位素特征与环境演变

The Badain Jaran Desert lies on the Alashan Plateau in western Inner Mongolia. Because of huge dunes, permanent lakes and on the northern fringe of the Asian summer monsoon, the Badain Jaran Desert has been drawing attentions of many experts. And they have made great progress in dune’s geomorphology, botany in desert, paleoclimate change and other study areas. We analyzed environmental isotope and ion chemistry in lakes and groundwater of the desert and southeastern area, and collected some other evidences from 14C dating, fossils and archeology. According to chemical analysis, we discuss the difference spatial character of ion chemistry and environmental isotope in lakes and groundwater of the desert and adjacent. Contrasting with ion chemistry and isotope results in other arid area, we argue origin of groundwater and lakes in the desert area, and get a preliminary understanding of desert lakes’ evolution during Holocene. Some main conclusions were drawn as follows: 1. It has a obvious difference in hydrophysical parameters between lakes and groundwater in the desert and margin. 2. The results of ion analysis show that Na+ and Cl- are dominant in most lakes of the desert. Meanwhile, Na+ 、Cl- and HCO3- are dominant in groundwater of the desert and adjacent, and alsoMg2+、Ca2+、and NO3- have more percentage than in lakes. 3. Owing to different solubilities, the conten of main ions in water varies with the content of TDS. Whereas the content of TDS is over 100 g/L, the content of SO42-、HCO3-、Mg2+and Ca2+ in lakes descend. 4. The result of isotope analyzing indicate the lakes and groundwater in southeast desert have a similar vaporing trend with the groundwater in the southeast margin of the desert. It imply there would have some kind of contact between groundwater in margin and lakes of southeast desert. 5. Contrasting with isotope results of groundwater in other arid area, it show that the groundwater in the desert and Yabulai area should be phreatic water which have a low water table. Therefore, we conclude that the groundwater in southeast part of the desert and southern margin mainly are recharged by precipitation of local abundant rainfall and groundwater of low mountain of southern area. 6. And all of these evidences, which are different from salinity, the content of CO32- and geological data, show that the bigger northern lake group and southeastern lake group in the desert have different groundwater replenishing system because a fold belt lie between of the two group lakes and obstruct them in landform. and HCO3- 7. The 14C dating results of fossil and lacustrine deposits show that there maybe have a wider range of shoreline during early and middle Holocene than today. 8. By the discovery and study of some pieces of pottery and fine stoneware, we preliminary conclude that there maybe have some certain amount of early human activities in the Badain Jaran Desert.