916 resultados para FIXATION
Resumo:
GCTE(全球变化和陆地生态系统),作为IGBP的核心计划之一,其目的是研究陆地生态系统与全球气候变化及人类社会经济和土地利用改变之间相互作用的耦合机理关系,预测生态系统结构、功能的未来变化。其中,植物个体水平的生理生态学模型研究是GCTE中必不可少的重要环节,它不仅可以揭示植物在个体水平上对全球变化的动态响应机制,而且可通过揭示大尺度响应所隐含的微观生物学机理,为大尺度研究提供重要的生理学参数和规律,在全球变化各尺度研究中发挥着不可替代的作用。本文主要围绕植物个体的生理生态学模型开展了如下研究:在开顶式气室CO2倍增大豆生长实验基础上,建立描述植物主要生理过程的生理生态模型,分析植物个体的光合作用、气孔传导度、蒸腾作用以及水分利用效率在全球场变化下的动态响应机制;在此基础上,建立起以统计性天气模型驱动的植物个体生长发育系统动力学模型,通过敏感度分析探讨植物个体的生理生态特性,如光合、呼吸、绿色及非绿色生物量等,对全球变化,特别是对CO2增加,气温升高及降水改变共同作用的响应机制;针对固氮植物的特点,将前一模型发展成为基于共生固氮和同化过程相互作用机制的植物个体生理生态系统动力学模型,模拟不同CO2浓度、气候变化以及固氮与不固氮条件下植物个体生物量的动态响应,并分析CO2浓度、气候条件和是否具固氮能力在对植物生长发育影响方面的相互作用;以中间锦鸡儿为研究材料进行水分控制实验,观测水分对植物同化物分配等过程的影响;将水分利用效率模型应用到NECT样带的主要植物种,得出各植物种的描述其水分利用效率特性的参数,结合样带上各植被类型的结构特征,得到沿样带各植被类型在植物种类组成方面的水分利用效率参数;应用系统聚类分析、因子分析等多元统计方法对样带上锡林河流域122种植物的化学成分与植物类群和所处生境的关系进行了定量分析。结果表明: 1)CO2倍增情况下,净光合速率提高45%,其中光量子效率显著增加,而CO2传导系数略有下降;气孔传导度、蒸腾速率下降约30%;水分利用效率随CO2浓度增加几乎呈线性增长,倍增后提高近一倍。(当气温,水分适宜,光合有效辐射为1000μmol photons m-2 s-1); 2)在北京地区仅CO2倍增而气候条件维持现状的情况下可导致大豆总生物量峰值提高70%,绿色部分提高56%,其中,全生育期内总净光合量增加,而单位干重的暗呼吸速率下降;由于受同化物分配中物候因素的影响,绿色生物量比总生物量提前10日左右到达其峰值。 3)CO2浓度增加和具固氮能力在模拟范围内对植物生长均产生正效应;而在水分为植物生长限制因子的干旱半干旱地区,降水增加对植物生长产生正效应,气温升高则具负效应; 4)随着C供给条件的好转,具固氮能力对植物生长的影响增强;反之随植物吸收N能力的提高,C供给对植物生长的作用加剧。 5)气温、降水在对植物生长发育影响方面,随着一方条件的好转,另一方对植物生长产生的效应增强; 6)具固氮能力对植物生长的正效应随气候条件的好转而增强,气候变化对植物生长的影响随植物具备了固氮能力而加剧; 7)气候条件越恶劣,如在此半干旱区变得更为干旱,CO2浓度增加对植物生长的正效应越加显著;且随CO2浓度的增加,气候因子的效应逐渐减弱。这主要是因CO2增加提高了植物个体的水分利用效率,从而使得CO2的正效应在水分胁迫下更为明显;同时由于水分利用效率的提高,使得植物个体抵御和适应外界环境变化,特别是由气温、降水改变导致的水分条件变化,的能力得到增强。 8)锦鸡儿水分生理生态实验的初步结果表明,土壤水分状况影响着植物的同化物分配,随着水分胁迫的加剧,同化物分配向根部集中,植物的根冠比增加。 9)沿样带水分递减梯度,植被类型在植物种类组成方面的反映水分利用效率特性的参数kv逐渐增加,从而显示出随着水分条件的不足,植被类型中耐旱品种,尤其是C4种增加;人为活动干扰,主要是对草场等的过度利用而导致的盐渍化、沙化,使得退化了的植被类型中k_v值显著提高,表明原有的植物种逐渐被耐旱、耐盐碱的品种,特别是C4植物所代替;在样带动上,这种由于人为活动干扰所引起的植被类型在植物种类组成方面反映水分利用效率特性的参数kv的变化明显大于因样带水分梯度改变而带来的变化。 10)锡林河流域草原植物化学成分一方面与植物类群有关,受自身历史演化的决定,另一方面更受到所处生境条件的极度大影响和制约。其中,禾本科、豆科植物分别具有明显的化学成分特征;撂荒地群落与自然群落中植物、沙质与非沙质生境中植物化学成分差异较显著;因子分析中认为存在大量元素与微量元素两个公共因子,豆科与禾本科相比,豆科植物因其固氮能力,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。
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以内蒙古干旱半干旱草原上的固氮蓝藻-普通念珠藻和发状念珠藻为研究对象,对其分布、生态特点、形态结构、生物量及不同条件下的固氮活性进行了研究,并根据降水与气温状况对其年固氮量进行了估算。结果表明:同发状念珠藻相比,普通念珠藻的分布更为广泛,其形态也有较大的差异。普通念珠藻的生物量在以禾本科为主的退化草场和沙地上较大,在pH值偏碱、含水量300%和温度30℃的情况下,其固氮活性较高,达2500nmolC2H2/g•h(干重)以上,年固氮量也高达4.19kg/h.m2,占草原氮素总输出的10%左右。由此可见,在维持干旱半干旱草原与荒漠草原生态系统的氮素平衡中,固氮蓝藻这类低等固氮植物可能起着重要作用。
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通过调查东灵山地区7个典型植被类型的物种多样性,并测定各林型中植物叶片养分特征,凋落物品质,土壤理化特性,豆科植物的生物固氮作用以及土壤有机质的净N矿化与硝化作用,研究了不同林型及其物种多样性对氮素转化过程的可能影响。结果表明: 1) 各林型乔灌草三层13个物种多样性指数之间都不同程度存在差异,且都表现基本一致的大小顺序,各样地乔灌草三层3个丰富度指数和5个多样性指数之间大都表现草本层>灌木层>乔木层的大小顺序。 2) 林型对植物叶片养分特征、叶片凋落物品质指标、土壤的大多数理化特性都有显著影响,其中,落叶阔叶林与针叶林之间的差异最为明显,优势种不同的针叶林之间也不同程度地存在差异。各林型物种多样性对植物叶片养分特征,凋落物品质和土壤理化特性也都不同程度存在显著影响,且乔灌草三层的物种多样性的影响不同。我们的结果支持物种多样性对生态系统过程存在显著影响的观点。 3) 胡枝子(Lespedeza bicolor)%FNDA值较低,在0~53.3%之间,与国外学者对某些木本豆科固氮植物的研究结果接近,但低于三叶草、野豌豆等草本豆科固氮植物。胡枝子生物固氮具有明显的季节差异,不同样地生境对胡枝子%FNDA值也存在显著影响,大都都表现铁塔辽东栎样地>重力点样地>站下灌丛样地>垭口样地的趋势。除胡枝子之外的其他豆科植物的%FNDA都高于胡枝子,且存在种间差异,以三籽两型豆(Amphicarpaea capillipes)最高(100%),歪头菜(Vicia unijuga)最低(平均66.4%),这些结果与国外相关研究接近。不同林型之间和同一林型不同样地之间也影响豆科植物的%FNDA。东灵山地区有相当数量的植物种具有和固氮植物相近的δ15N值和全N含量,具有潜在的生物固氮能力。6个林型中所有豆科植物的%FNDA平均值主要受乔木层和草本层物种多样性的影响,乔木层和草本层物种多样性提高,豆科植物的%FNDA将随之显著降低。 4) 气温、土壤温度和降水量显著影响各林型净氮硝化速率的季节动态,都表现为温度升高,降水量增加,净氮硝化速率也随之增大。 5) 在不同取样时间,不同林型在土壤NH4+、N03-含量,矿化、硝化速率以及年度总净矿化、硝化量之间均不同程度存在显著差异,其中,以辽东栎落叶阔叶林与针叶林之间,常绿针叶林与落叶针叶林之间,纯林与混交林之间的差异最为明显。 6) 土壤初始N0_3含量与年度总净硝化量,年度总净矿化量及其占TKN的百分比呈显著正相关关系;植物叶片全N浓度与净氮矿化、硝化作用呈显著负相关:植物叶片凋落物的品质指标与净氮矿化、硝化作用没有显著相关。 7) 胡枝子固氮作用(%FNDA值)越强,土壤有机氮的净硝化量就越大,胡枝子在从大气中获取大量N,的同时,很可能会增加氮素的淋溶损失量。胡枝子固氮作用(%FNDA值)与净氮矿化量不存在显著相关关系。 8) 只有乔木层和草本层部分种多样性指数对净氮矿化、硝化量存在显著影响。乔木层均匀度提高,土壤净氮碳化量将随之增大;而草本层物种多样性提高,均匀度提高,净氮矿化、硝化作用将随之降低,草本层植物对土壤氮素矿化作用具有显著抑制作用。 9) 落叶阔叶林与针叶林的供氮能力和维持无机氮素的能力之间存在比较明显的差异,而不同针叶林的矿化/硝化作用也有所差别。其中,辽东栎落叶阔叶林的供氮能力和维持氮素能力均高于针叶林和山杏灌丛;油松林的供氮能力与防止氮素损失的能力显然要强于落叶松林和山杏灌丛。 10) 尽管箭叶锦鸡儿灌丛植物叶片与凋落物中全N、全P浓度在大多数取样点上都低于硕桦(高于草甸),但表层土中全N浓度高于硕桦和草甸,且其土壤有机质的供氮能力以及维持氮素能力都高于硕桦林和草甸,表明,锦鸡儿灌丛为侵入草甸和硕桦入侵提供了良好的养分条件,在该演替序列的发展过程中起了一定的推动作用。
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1. 生物土壤结皮是干旱半干旱生态系统中的重要组成部分,它可通过增加土壤肥力和稳定性、影响水分再分配和植物萌发、成活、生长和繁殖而对生态系统结构和功能产生重要影响。为阐明生物结皮在内蒙古草地中的作用,本报告对两个草地生态系统进行了为期三年的调查,对生物结皮的氮素输入、对放牧的响应及其与植物的关系进行了综合研究。 2. 利用乙炔还原法,本研究对内蒙古退化草地中的生物土壤结皮中的蓝藻、地衣和地耳的氮素输入进行了为期30个月的连续测定。研究发现:1) 生物结皮固氮活性主要集中于5-10月,呈单峰型曲线,表明生物土壤结皮的固氮作用主要受温度和降雨影响;2) 生物结皮年固氮量为12.99-129.9 kg N•ha-1,98%的氮素固定于6-9月份;3) 按固氮量排序,蓝藻 (61%) > 地衣 (33%) > 地耳 (6%),表明物种组成和丰度对生物结皮的氮素输入具重要影响。生物结皮的固氮量和季节变化表明生物结皮可以是影响退化草地中植物生长和促进退化草地恢复的重要影响因子。 3. 本研究选择三个放牧处理(长期放牧、短期围封和近期放牧)对生物结皮固氮活性进行了为期3年的研究。结果表明,与短期围封相比,长期放牧造成生物土壤结皮固氮活性下降了99.5%。固氮活性在放牧时间不足11个月时即可下降至最低水平,因此,放牧持续时间短于4个月的轮牧可能有利于生物土壤结皮的固氮。 4. 本研究选择6个放牧梯度(对照:0.00 羊/公顷, 极轻度放牧:1.33羊/公顷,轻度放牧:2.67羊/公顷,中度放牧:4.00羊/公顷,重度放牧:5.33羊/公顷,极重度放牧:6.67羊/公顷),研究放牧强度对于生物结皮丰度、物种组成和固氮输入的影响。不同放牧强度对生物结皮丰度、物种组成和固氮输入具有重要影响,表明长期放牧可抑制生物土壤结皮在氮素输入和土壤固定方面的作用。极轻度放牧对生物土壤结皮影响不大;轻度放牧造成氮素输入降低了50%;重度和极重度放牧造成氮素输入降低了90%,并可使移动性较强的物种成为生物土壤结皮的优势组分,从而可抑制其土壤固定作用。因此,极轻度和轻度放牧是有利于生物土壤结皮固氮和固定土壤的草地利用方式。 5. 在处于恢复早期的一个退化草地中,我们对生物结皮和植物之间的关系进行了为期2年的研究。结果表明,生物结皮的丰度和物种组成与植物地上生物量和盖度高度相关。生物结皮丰度和氮素输入随植物生物量和盖度下降。结果还表明生物结皮是退化草地的主要氮素输入来源,尤其是在草地恢复初期。植物组织δ15N 低于土壤,这种差异随植物生产力增高而减小,表明生物结皮所固定氮素首先被植物利用,而后返回土壤。生物结皮的固氮输入变化可能是这种变化模式的主要原因,在分解作用和氮素损失中的同位素分馏,以及菌根真菌对于氮素的转运可能也是这种变化模式的原因。结果还显示生物土壤结皮与植物之间可能存在负反馈关系。这种自我调节的反馈过程可能是影响退化草地生态系统生产力和氮素循环的重要调节机制。
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内蒙古锡林河流域是我国典型温带草原分布地区,也是我国重点牧区之一。近年来,由于人口增加、过度放牧以及管理不善等原因导致草原退化加剧,草原生态系统养分输入输出失衡,草地生产力下降。 豆科植物不仅是高蛋白优质牧草,而且具有生物固氮能力,对维持草地生态系统中土壤-植物-动物之间的氮平衡有重要作用。本论文主要调查研究了内蒙古锡林河流域放牧草原生态系统中豆科植物的分布、固氮能力、微生物状况,并探讨了目前草原大量出现的豆科植物小叶锦鸡儿灌丛在养分供给上对草原生态系统的影响。 豆科植物的分布调查采用样线法在4 种草原植被类型7 个植物群落进行,包括典型草原(羊草群落、大针茅群落及小叶锦鸡儿群落和冷蒿群落2 个退化草原群落)、草甸草原(贝加尔针茅群落)、河漫滩草甸(灰脉苔草群落)及沙地(榆树疏林群落),除榆树疏林群落仅放牧处理外,其他群落均包括放牧和不放牧对照处理。结果显示,豆科植物共有12 属,16 种。放牧总体上降低了豆科植物种群在群落中的数量特征(平均高度、密度、频度)和种类组成,但在退化草原群落中有不同的变化趋势。小叶锦鸡儿在典型草原中分布广、密度大、出现频率高;尤其在小叶锦鸡儿群落放牧样地,出现频度为95%,密度近4 株•m-2。花苜蓿在4 种草原植被类型中均有分布。 典型草原4 个群落在放牧和不放牧条件下土壤微生物碳氮含量和微生物呼吸速率的测定结果显示,放牧影响了豆科植物根际土壤的微生物量和微生物呼吸速率,但各群落变化规律不一致。放牧后小叶锦鸡儿分布最为广泛的小叶锦鸡儿群落在放牧条件下微生物碳含量和微生物呼吸速率都显著增加。小叶锦鸡儿灌丛与其他草本豆科植物相比,根际土壤的微生物量和微生物呼吸速率较高。土壤水分对微生物呼吸速率以及微生物碳氮含量有重要作用,存在极显著的正相关关系。 采用15N 自然丰度法评估野外条件下小叶锦鸡儿和花苜蓿的固氮百分率,计算结果高于100%,这主要是由野外植物叶片δ15N 值低于室内无氮培养的B 值引起的。15N 自然丰度法是否适用于评估草原植物的固氮能力还有待深入研究,但从野外δ15N 测定中也得到了一些有趣的结果。优势豆科和非豆科植物之间的δ15N 差异很大。小半灌木木地肤δ15N 值最高,并在放牧后显著下降,杂类草、禾本科大针茅与之变化趋势相同;具有潜在固氮能力的豆科植物和禾本科羊草在放牧后无显著差异或显著增加;豆科植物小叶锦鸡儿、乳白花黄芪和花苜蓿的叶片δ15N 值均为偏低负值,显著低于非豆科植物。研究结果说明不同植物的氮利用方式不同,豆科植物和羊草的生物固氮可能同时为受氮限制的内蒙古草原提供氮源。 小叶锦鸡儿灌丛影响了周围土壤的有效氮含量。灌丛内部土壤硝态氮和氨态氮有高于外部土壤的趋势。土壤含水量与硝态氮浓度显著正相关。土壤有效氮含量变异系数平均高于50%,土壤资源表现出很强的空间异质性。灌丛内部植物体内全氮含量高于灌丛外,而灌丛斑块发育时间对植物化学元素没有显著影响。
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The minimum flow of current essential to produce electro-narcosis and fixation in marine crustaceans, Metapenaeus affinis, Parapenaeopsis stylifera, Panulirus ornatus and Neptunus sanguinofentus in an AC field of specific strength varied with the lengths of animals tested, except in case of the last one where the increase in size of animals showed no significant effect on the effective period for different reactions. M. affinis in interrupted AC required threshold pulses for narcosis and fixation, which varied inversely with the length of the organism. Animals subjected to current of higher effective period required longer time for recovery in interrupted AC of 50 c/s. The period for narcosis and recovery of M. affinis did not vary significantly with repeated stimulations on the same organism.
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The reactions of marine fishes in interrupted A. C. off uniform electrical field and constant current density have been studied in order to determine the optimum effective periods of shock: for narcosis and fixation. Higher effective periods were required with gradual decrease in potential difference between head and tail, which in turn depended on the length of fish and its position in electrical field. The body voltage of fish varied directly with the length and inversely with the rise of angle between their body axis and field lines. The fish subjected to higher effective period took longer time for recovery from narcosis. The effect of impulse current was manifested by increased rate of gill movements in Platax tefora, Haetodon ollaris, Crysophus burda, Siganus vermiculatus and Scolopsis leucotaenia, and lowered rate of movements in others when subjected to different effective periods inspective of length.
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A detailed study on arsenical creosote with reference to leaching, corrosion and anti-borer properties was carried out. Results showed that aging had very little effect on the preservative which suggested better fixation of the preservative into the wood. Corrosion of mild steel, galvanised iron, aluminium-magnesium alloy (M57S) and copper panels in the preservative was found to be negligible. Normal creosote and low temperature creosote of Regional Research Laboratory, Hyderabad, both fortified with arsenic trioxide resisted borer damage on wooden panels for a period of over five months in the port of Cochin. The performance of low temperature creosote fortified with arsenic was found to be equally satisfactory when compared to normal creosote fortified in the same manner. A loading of 208.6 Kgs/ml³ for Haldu (Adina cordifolia) and 138 Kgs/m³ for Mango (Mangifera indica) in the case of normal creosote and 177 Kgs/m³ for Mango the case of RRL creosote were found to be sufficient for treating the wood.
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寻找适合脑内多种神经活性物质免疫组织化学研究的固定方案。方法 以胆碱乙酰化酶、P 物质和γ- 氨基丁酸为递质合成酶、多肽及氨基酸递质的代表,以大鼠隔O斜带O基底核此三类阳性神经元的数量、染色和形态 变化为依据,检测了一系列复合固定配方对此三类抗原免疫组化的影响。结果 经0. 2 %戊二醛、4 %多聚甲醛和 0. 2 %苦味酸灌注固定和4 %多聚甲醛后固定,并经1 %硼氢化钠处理的脑组织,能很好地显示该三类神经元。此结 果还得到猫脑免疫电镜研究的支持。结论 有可能设计一种满足脑内尽可能多种类递质及合成酶免疫组化光、电 镜研究所需的复合固定配方,以期在同一实验动物获得最大程度的化学神经解剖学信息。
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In this study, Iranian and French male and female Oncorhynchus mykiss broodstocks were divided into two groups 50 and 24 respectively in Research center of genetic and breeding of coldwater fishes, Yasouj, Iran and the genetic structure of them was investigated using 6 microsatellite markers. Then 19 morphometric and 5 meristic of broodstock were measured and compared in two populations. Along with broodstock maturation, fertilization 1:1(female:male) were randomly assigned and occurred in 25 of 12 Iranian and French treatment respectively. Reproductive parameters were recorded for the whole family. Average number of observed alleles in Iranian and French stocks was 6.68 and 6.83, respectively. Average number of effective alleles in Iranian and French stocks was 3.13 and 3.45 respectively. Fixation index Fst was calculated based on allelic frequency between two stocks was 0.058 with significant difference between 2 stocks. Morphometric analysis showed significant difference between two stocks in 8 characteristics. Meristic characters was without significant difference in broodstock groups. Eyed percentage for french broodstock calculated zero and deleted. Fertilization rate (100-0), the eyed percentage (98- 0), The hatch rate (98-0), the average fecundity 4114.708, the average eggs size 4.88 mm, Survival in the first three months 19-73% calculated for Iranian broodstocks. Considering the quality of eggs and larvae at different stages and selection between the different family and the within family remained 10 treatments and are kept as future broodstocks. The relationship between fecundity - egg size, fecundity - weight , fecundity - length, egg size- weight was performed using regression. The results showed that Fecundity was influenced more by weight and productive length. The research is beginning to ID the broodstock in our country.
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Porous structures are used in orthopaedics to promote biological fixation between metal implant and host bone. In order to achieve rapid and high volumes of bone ingrowth the structures must be manufactured from a biocompatible material and possess high interconnected porosities, pore sizes between 100 and 700 microm and mechanical strengths that withstand the anticipated biomechanical loads. The challenge is to develop a manufacturing process that can cost effectively produce structures that meet these requirements. The research presented in this paper describes the development of a 'beam overlap' technique for manufacturing porous structures in commercially pure titanium using the Selective Laser Melting (SLM) rapid manufacturing technique. A candidate bone ingrowth structure (71% porosity, 440 microm mean pore diameter and 70 MPa compression strength) was produced and used to manufacture a final shape orthopaedic component. These results suggest that SLM beam overlap is a promising technique for manufacturing final shape functional bone ingrowth materials.
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The use of a porous coating on prosthetic components to encourage bone ingrowth is an important way of improving uncemented implant fixation. Enhanced fixation may be achieved by the use of porous magneto-active layers on the surface of prosthetic implants, which would deform elastically on application of a magnetic field, generating internal stresses within the in-growing bone. This approach requires a ferromagnetic material able to support osteoblast attachment, proliferation, differentiation, and mineralization. In this study, the human osteoblast responses to ferromagnetic 444 stainless steel networks were considered alongside those to nonmagnetic 316L (medical grade) stainless steel networks. While both networks had similar porosities, 444 networks were made from coarser fibers, resulting in larger inter-fiber spaces. The networks were analyzed for cell morphology, distribution, proliferation, and differentiation, extracellular matrix production and the formation of mineralized nodules. Cell culture was performed in both the presence of osteogenic supplements, to encourage cell differentiation, and in their absence. It was found that fiber size affected osteoblast morphology, cytoskeleton organization and proliferation at the early stages of culture. The larger inter-fiber spaces in the 444 networks resulted in better spatial distribution of the extracellular matrix. The addition of osteogenic supplements enhanced cell differentiation and reduced cell proliferation thereby preventing the differences in proliferation observed in the absence of osteogenic supplements. The results demonstrated that 444 networks elicited favorable responses from human osteoblasts, and thus show potential for use as magnetically active porous coatings for advanced bone implant applications. © 2012 Wiley Periodicals, Inc.
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Although musculoskeletal models are commonly used, validating the muscle actions predicted by such models is often difficult. In situ isometric measurements are a possible solution. The base of the skeleton is immobilized and the endpoint of the limb is rigidly attached to a 6-axis force transducer. Individual muscles are stimulated and the resulting forces and moments recorded. Such analyses generally assume idealized conditions. In this study we have developed an analysis taking into account the compliances due to imperfect fixation of the skeleton, imperfect attachment of the force transducer, and extra degrees of freedom (dof) in the joints that sometimes become necessary in fixed end contractions. We use simulations of the rat hindlimb to illustrate the consequences of such compliances. We show that when the limb is overconstrained, i.e., when there are fewer dof within the limb than are restrained by the skeletal fixation, the compliances of the skeletal fixation and of the transducer attachment can significantly affect measured forces and moments. When the limb dofs and restrained dofs are matched, however, the measured forces and moments are independent of these compliances. We also show that this framework can be used to model limb dofs, so that rather than simply omitting dofs in which a limb does not move (e.g., abduction at the knee), the limited motion of the limb in these dofs can be more realistically modeled as a very low compliance. Finally, we discuss the practical implications of these results to experimental measurements of muscle actions.
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w Traditionally, nitrogen control is generally considered an important component of reducing lake eutrophication and cyanobacteria blooms. However, this viewpoint is refuted recently by researchers in China and North America. In the present paper, the traditional viewpoint of nitrogen control is pointed out to lack a scientific basis: the N/P hypothesis is just a subjective assumption; bottle bioassay experiments fail to simulate the natural process of nitrogen fixation. Our multi-year comparative research in more than 40 Yangtze lakes indicates that phosphorus is the key factor determining phytoplankton growth regardless of nitrogen concentrations and that total phytoplankton biomass is determined by total phosphorus and not by total nitrogen concentrations. These results imply that, in the field, nitrogen control will not decrease phytoplankton biomass. This finding is supported by a long-term whole-lake experiment from North America. These outcomes can be generalized in terms that a reduction in nitrogen loading may not decrease the biomass of total phytoplankton as it can stimulate blooms of nitrogen-fixing cyanobacteria. To mitigate eutrophication, it is not nitrogen but phosphorus that should be reduced, unless nitrogen concentrations are too high to induce direct toxic impacts on human beings or other organisms. Finally, details are provided on how to reduce controls on nitrogen and how to mitigate eutrophication. (C) 2009 National Natural Science Foundation of China and Chinese Academy of Sciences. Published by Elsevier Limited and Science in China Press. All rights reserved.
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We determined the genetic diversity of geographic populations from three spawning grounds (Nyang River, Lhasa River, Shetongmon Reach of Yarlung Zangbo River) of Glyptosternum maculatum with amplified fragment length polymorphism (AFLP) markers. Five primer combinations detected 332 products, 51 of them (15.4%) were polymorphic in at least one population. The Shetongmon population was found to be the richest in genetic diversity as was indicated by the percentage of polymorphic loci and heterozygosity, followed by the Nyang population and the Lhasa population. The pair-wise genetic distance between populations were all very close, ranging from 0.0015 to 0.0042 with an average of 0.0024. The genetic distance was not proportional to the geographic distance. The analysis of molecular variance demonstrated that all variation occurred within populations. The average estimated fixation index (F (st)) of three populations across all polymorphic loci was -0.0184, indicating the absence of genetic differences among the three sampled populations. The differentiation among populations was not significant, and population structure was weak. Our observations will help identify the genetic relationship among populations as the first approach to understand the genetic diversity of Glyptosternum maculatum.
