Transition in subicular burst firing neurons from epileptiform activity to suppressed state by feedforward inhibition

The subiculum, a para-hippocampal structure positioned between the cornu ammonis 1 subfield and the entorhinal cortex, has been implicated in temporal lobe epilepsy in human patients and in animal models of epilepsy. The structure is characterized by the presence of a significant population of burst firing neurons that has been shown previously to lead epileptiform activity locally. Phase transitions in epileptiform activity in neurons following a prolonged challenge with an epileptogenic stimulus has been shown in other brain structures, but not in the subiculum. Considering the importance of the subicular burst firing neurons in the propagation of epileptiform activity to the entorhinal cortex, we have explored the phenomenon of phase transitions in the burst firing neurons of the subiculum in an in vitro rat brain slice model of epileptogenesis. Whole-cell patch-clamp and extracellular field recordings revealed a distinct phenomenon in the subiculum wherein an early hyperexcitable state was followed by a late suppressed state upon continuous perfusion with epileptogenic 4-aminopyridine and magnesium-free medium. The suppressed state was characterized by inhibitory post-synaptic potentials in pyramidal excitatory neurons and bursting activity in local fast-spiking interneurons at a frequency of 0.1-0.8Hz. The inhibitory post-synaptic potentials were mediated by GABA(A) receptors that coincided with excitatory synaptic inputs to attenuate action potential discharge. These inhibitory post-synaptic potentials ceased following a cut between the cornu ammonis 1 and subiculum. The suppression of epileptiform activity in the subiculum thus represents a homeostatic response towards the induced hyperexcitability. Our results suggest the importance of feedforward inhibition in exerting this homeostatic control.

Tonic current through GABAA receptors and hyperpolarization-activated cyclic nucleotide-gated channels modulate resonance properties of rat subicular pyramidal neurons

The subiculum, considered to be the output structure of the hippocampus, modulates information flow from the hippocampus to various cortical and sub-cortical areas such as the nucleus accumbens, lateral septal region, thalamus, nucleus gelatinosus, medial nucleus and mammillary nuclei. Tonic inhibitory current plays an important role in neuronal physiology and pathophysiology by modulating the electrophysiological properties of neurons. While the alterations of various electrical properties due to tonic inhibition have been studied in neurons from different regions, its influence on intrinsic subthreshold resonance in pyramidal excitatory neurons expressing hyperpolarization-activated cyclic nucleotide-gated (HCN) channels is not known. Using pharmacological agents, we show the involvement of alpha 5 beta gamma GABA(A) receptors in the picrotoxin-sensitive tonic current in subicular pyramidal neurons. We further investigated the contribution of tonic conductance in regulating subthreshold electrophysiological properties using current clamp and dynamic clamp experiments. We demonstrate that tonic GABAergic inhibition can actively modulate subthreshold properties, including resonance due to HCN channels, which can potentially alter the response dynamics of subicular pyramidal neurons in an oscillating neuronal network.

Calcium Permeable AMPA Receptor-Dependent Long Lasting Plasticity of Intrinsic Excitability in Fast Spiking Interneurons of the Dentate Gyrus Decreases Inhibition in the Granule Cell Layer

The local fast-spiking interneurons (FSINs) are considered to be crucial for the generation, maintenance, and modulation of neuronal network oscillations especially in the gamma frequency band. Gamma frequency oscillations have been associated with different aspects of behavior. But the prolonged effects of gamma frequency synaptic activity on the FSINs remain elusive. Using whole cell current clamp patch recordings, we observed a sustained decrease of intrinsic excitability in the FSINs of the dentate gyrus (DG) following repetitive stimulations of the mossy fibers at 30 Hz (gamma bursts). Surprisingly, the granule cells (GCs) did not express intrinsic plastic changes upon similar synaptic excitation of their apical dendritic inputs. Interestingly, pairing the gamma bursts with membrane hyperpolarization accentuated the plasticity in FSINs following the induction protocol, while the plasticity attenuated following gamma bursts paired with membrane depolarization. Paired pulse ratio measurement of the synaptic responses did not show significant changes during the experiments. However, the induction protocols were accompanied with postsynaptic calcium rise in FSINs. Interestingly, the maximum and the minimum increase occurred during gamma bursts with membrane hyperpolarization and depolarization respectively. Including a selective blocker of calcium-permeable AMPA receptors (CP-AMPARs) in the bath; significantly attenuated the calcium rise and blocked the membrane potential dependence of the calcium rise in the FSINs, suggesting their involvement in the observed phenomenon. Chelation of intracellular calcium, blocking HCN channel conductance or blocking CP-AMPARs during the experiment forbade the long lasting expression of the plasticity. Simultaneous dual patch recordings from FSINs and synaptically connected putative GCs confirmed the decreased inhibition in the GCs accompanying the decreased intrinsic excitability in the FSINs. Experimentally constrained network simulations using NEURON predicted increased spiking in the GC owing to decreased input resistance in the FSIN. We hypothesize that the selective plasticity in the FSINs induced by local network activity may serve to increase information throughput into the downstream hippocampal subfields besides providing neuroprotection to the FSINs. (c) 2014 Wiley Periodicals, Inc.

Operand Isolation Circuits with Reduced Overhead for Low Power Data-Path Design

Dynamic power dissipation due to redundant switching is an important metric in data-path design. This paper focuses on the use of ingenious operand isolation circuits for low power design. Operand isolation attempts to reduce switching by clamping or latching the output of a first level of combinational circuit. This paper presents a novel method using power supply switching wherein both PMOS and NMOS stacks of a circuit are connected to the same power supply. Thus, the output gets clamped or latched to the power supply value with minimal leakage. The proposed circuits make use of only two transistors to clamp the entire Multiple Input Multiple Output (MIMO) block. Also, the latch-based designs have higher drive strength in comparison to the existing methods. Simulation results have shown considerable area reduction in comparison to the existing techniques without increasing timing overhead.

Transient potassium channels augment degeneracy in hippocampal active dendritic spectral tuning

Hippocampal pyramidal neurons express an intraneuronal map of spectral tuning mediated by hyperpolarization-activated cyclic-nucleotide-gated nonspecific-cation channels. Modeling studies have predicted a critical regulatory role for A-type potassium (KA) channels towards augmenting functional robustness of this map. To test this, we performed patch-clamp recordings from soma and dendrites of rat hippocampal pyramidal neurons, and measured spectral tuning before and after blocking KA channels using two structurally distinct pharmacological agents. Consistent with computational predictions, we found that blocking KA channels resulted in a significant reduction in resonance frequency and significant increases in input resistance, impedance amplitude and action-potential firing frequency across the somato-apical trunk. Furthermore, across all measured locations, blocking KA channels enhanced temporal summation of postsynaptic potentials and critically altered the impedance phase profile, resulting in a significant reduction in total inductive phase. Finally, pair-wise correlations between intraneuronal percentage changes (after blocking KA channels) in different measurements were mostly weak, suggesting differential regulation of different physiological properties by KA channels. Our results unveil a pivotal role for fast transient channels in regulating theta-frequency spectral tuning and intrinsic phase response, and suggest that degeneracy with reference to several coexisting functional maps is mediated by cross-channel interactions across the active dendritic arbor.

Anaesthetic impairment of immune function is mediated via GABA(A) receptors.

BACKGROUND: GABA(A) receptors are members of the Cys-loop family of neurotransmitter receptors, proteins which are responsible for fast synaptic transmission, and are the site of action of wide range of drugs. Recent work has shown that Cys-loop receptors are present on immune cells, but their physiological roles and the effects of drugs that modify their function in the innate immune system are currently unclear. We are interested in how and why anaesthetics increase infections in intensive care patients; a serious problem as more than 50% of patients with severe sepsis will die. As many anaesthetics act via GABA(A) receptors, the aim of this study was to determine if these receptors are present on immune cells, and could play a role in immunocompromising patients. PRINCIPAL FINDINGS: We demonstrate, using RT-PCR, that monocytes express GABA(A) receptors constructed of α1, α4, β2, γ1 and/or δ subunits. Whole cell patch clamp electrophysiological studies show that GABA can activate these receptors, resulting in the opening of a chloride-selective channel; activation is inhibited by the GABA(A) receptor antagonists bicuculline and picrotoxin, but not enhanced by the positive modulator diazepam. The anaesthetic drugs propofol and thiopental, which can act via GABA(A) receptors, impaired monocyte function in classic immunological chemotaxis and phagocytosis assays, an effect reversed by bicuculline and picrotoxin. SIGNIFICANCE: Our results show that functional GABA(A) receptors are present on monocytes with properties similar to CNS GABA(A) receptors. The functional data provide a possible explanation as to why chronic propofol and thiopental administration can increase the risk of infection in critically ill patients: their action on GABA(A) receptors inhibits normal monocyte behaviour. The data also suggest a potential solution: monocyte GABA(A) receptors are insensitive to diazepam, thus the use of benzodiazepines as an alternative anesthetising agent may be advantageous where infection is a life threatening problem.

Mechanisms Responsible for the Trophic Effect of Beta-Adrenoceptors on the I-to Current Density in Type 1 Diabetic Rat Cardiomyocytes

Background/Aims: In diabetic ventricular myocytes, transient outward potassium current (I-to) amplitude is severely reduced because of the impaired catecholamine release that characterizes diabetic autonomic neuropathy. Sympathetic nervous system exhibits a trophic effect on I-to since incubation of myocytes with noradrenaline restores current amplitude via beta-adrenoceptor (beta AR) stimulation. Here, we investigate the intracellular signalling pathway though which incubation of diabetic cardiomyocytes with the beta AR agonist isoproterenol recovers I-to amplitude to normal values. Methods: Experiments were performed in ventricular myocytes isolated from streptozotocin-diabetic rats. I-to current was recorded by using the patch-clamp technique. Kv4 channel expression was determined by immunofluorescence. Protein-protein interaction was determined by coimmunoprecipitation. Results: Stimulation of beta AR activates first a G alpha s protein, adenylyl cyclase and Protein Kinase A. PKA-phosphorylated receptor then switches to the G alpha i protein. This leads to the activation of the beta AR-Kinase-1 and further receptor phosphorylation and arrestin dependent internalization. The internalized receptor-arrestin complex recruits and activates cSrc and the MAPK cascade, where Ras, c-Raf1 and finally ERK1/2 mediate the increase in Kv4.2 and Kv4.3 protein abundance in the plasma membrane. Conclusion: beta(2)AR stimulation activates a G alpha s and G alpha i protein dependent pathway where the ERK1/2 modulates the Ito current amplitude and the density of the Kv4.2 and Kv4.2 channels in the plasma membrane upon sympathetic stimulation in diabetic heart.

Role of G protein coupled inwardly rectifier K+ channels (GIRK) on the neurobiology depression

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Lynx1 Modulation of Nicotinic Acetylcholine Receptors

Nicotinic receptors are the target of nicotine in the brain. They are pentameric ion channels. The pentamer structure allows many combinations of receptors to be formed. These various subtypes exhibit specific properties determined by their subunit composition. Each brain region contains a fixed complement of nicotinic receptor subunits. The midbrain region is of particular interest because the dopaminergic neurons of the midbrain express several subtypes of nicotinic receptors, and these dopaminergic neurons are important for the rewarding effects of nicotine. The α6 nicotinic receptor subunit has garnered intense interest because it is present in dopaminergic neurons but very few other brain regions. With its specific and limited presence in the brain, targeting this subtype of nicotinic receptor may prove advantageous as a method for smoking cessation. However, we do not fully understand the trafficking and membrane localization of this receptor or its effects on dopamine release in the striatum. We hypothesized that lynx1, a known modulator of other nicotinic receptor subtypes, is important for the proper function of α6 nicotinic receptors. lynx1 has been found to act upon several classes of nicotinic receptors, such as α4β2 and α7, the two most common subtypes in the brain. To determine whether lynx1 affects α6 containing nicotinic receptors we used biochemistry, patch clamp electrophysiology, fast scan cyclic voltammetry, and mouse behavior. We found that lynx1 has effects on α6 containing nicotinic receptors, but the effects were subtle. This thesis will detail the observed effects of lynx1 on α6 nicotinic receptors.

The ionic basis of frequency selectivity in hair cells of the bullfrog's sacculus

Hair cells from the bull frog's sacculus, a vestibular organ responding to substrate-borne vibration, possess electrically resonant membrane properties which maximize the sensitivity of each cell to a particular frequency of mechanical input. The electrical resonance of these cells and its underlying ionic basis were studied by applying gigohm-seal recording techniques to solitary hair cells enzymatically dissociated from the sacculus. The contribution of electrical resonance to frequency selectivity was assessed from microelectrode recordings from hair cells in an excised preparation of the sacculus.

Electrical resonance in the hair cell is demonstrated by damped membrane-potential oscillations in response to extrinsic current pulses applied through the recording pipette. This response is analyzed as that of a damped harmonic oscillator. Oscillation frequency rises with membrane depolarization, from 80-160 Hz at resting potential to asymptotic values of 200-250 Hz. The sharpness of electrical tuning, denoted by the electrical quality factor, Q_e, is a bell-shaped function of membrane voltage, reaching a maximum value around eight at a membrane potential slightly positive to the resting potential.

In whole cells, three time-variant ionic currents are activated at voltages more positive than -60 to -50 mV; these are identified as a voltage-dependent, non-inactivating Ca current (I_ca), a voltage-dependent, transient K current (I_a), and a Ca-dependent K current (I_c). The C channel is identified in excised, inside-out membrane patches on the basis of its large conductance (130-200 pS), its selective permeability to Kover Na or Cl, and its activation by internal Ca ions and membrane depolarization. Analysis of open- and closed-lifetime distributions suggests that the C channel can assume at least two open and three closed kinetic states.

Exposing hair cells to external solutions that inhibit the Ca or C conductances degrades the electrical resonance properties measured under current-clamp conditions, while blocking the A conductance has no significant effect, providing evidence that only the Ca and C conductances participate in the resonance mechanism. To test the sufficiency of these two conductances to account for electrical resonance, a mathematical model is developed that describes I_ca, I_c, and intracellular Ca concentration during voltage-clamp steps. I_ca activation is approximated by a third-order Hodgkin-Huxley kinetic scheme. Ca entering the cell is assumed to be confined to a small submembrane compartment which contains an excess of Ca buffer; Ca leaves this space with first-order kinetics. The Ca- and voltage-dependent activation of C channels is described by a five-state kinetic scheme suggested by the results of single-channel observations. Parameter values in the model are adjusted to fit the waveforms of I_ca and I_c evoked by a series of voltage-clamp steps in a single cell. Having been thus constrained, the model correctly predicts the character of voltage oscillations produced by current-clamp steps, including the dependencies of oscillation frequency and Q_e on membrane voltage. The model shows quantitatively how the Ca and C conductances interact, via changes in intracellular Ca concentration, to produce electrical resonance in a vertebrate hair cell.

环形抛光中工件形状对抛光速度的影响

本文基于库仑摩擦模型，模拟了不同形状的工件在环形抛光的运动。从结果可知，（1）如果工作环处于自由转动状态，工件的角速度在环形抛光中比抛光盘的角速度大；（2）可通过控制工作环的角速度使工件和抛光盘的角速度同步。工作环的角速度依赖于工作环和工件的半径、抛光盘－工件和抛光盘－工作环的摩擦系数，以及抛光盘的角速度；（3）有尖角的工件与工作环的接触处于不连续状态，导致二者的接触状态发生变化和工件角速度的波动。

A ingestão precoce de dieta enriquecida com óleo de peixe reverte alterações bioquímicas, hepáticas e do tecido adiposo na prole de camundongos submetidos à restrição proteica

Ingestão precoce de dieta enriquecida com óleo de peixe reverte alterações bioquímicas, hepáticas e do tecido adiposo na prole de camundongos submetidos à restrição protéica. 2010. 61 f. Dissertação (Mestrado em Biologia Humana e Experimental) Instituto de Biologia Roberto Alcântara Gomes, Universidade do Estado do Rio de Janeiro, Rio de Janeiro, 2010. Estudos relacionam obesidade na vida adulta com baixo peso ao nascer (programação metabólica). O fígado é um dos órgãos mais afetados pela programação. O óleo de peixe é rico em ácidos graxos poli-insaturados (AGP) da família n-3: ácido eicosapentaenóico (EPA) e docosahexaenóico (DHA). O EPA e DHA são relacionados com redução da pressão arterial sistólica e ação anti-inflamatória. Testar a hipótese que a ingestão precoce de óleo de peixe (FO) pode reverter os efeitos deletérios da programação na prole adulta de camundongos. Fêmeas grávidas foram alimentadas com ração padrão (SC) ou dieta restrita em proteínas (LP) durante a gestação e lactação. Ao desmame, os seguintes grupos foram formados (de acordo com a suplementação com FO): SC-SC e SC-FO, LP-SC e LP-FO. Foram aferidas massa corporal, ingestão e eficiência alimentar, pressão arterial sistólica (PAS), insulina plasmática, glicose, fator de necrose tumoral (TNF)-alfa, colesterol total (CT), triglicerídeos (TG) e alanina aminotransferase (ALT), morfometria dos adipócitos, estereologia do fígado e expressão proteínas SREBP-1c e PPAR-alfa. A prole LP apresentou maior massa corporal, hipercolesterolemia e hiperglicemia Na idade adulta, os animais restritos tornaram-se hipertensos, com esteatose hepática e elevado nível da SREBP-1c. Entretanto, a prole LP com dieta suplementada com FO ocasionou menor ganho e menor massa corporal final. A dieta FO melhorou o metabolismo lipídico, diminuiu a concentração plasmática de CT e TG, reduziu a massa adiposa e o tamanho dos adipócitos. Além disso, LP-FO mostrou níveis reduzidos da ALT, redução da esteatose hepática, baixa expressão da SREBP-1c e aumento da expressão do PPAR-alfa, além de redução da PAS e dos níveis de TNF-alfa. A dieta com FO teve efeitos benéficos revertendo as respostas da programação sobre o metabolismo da glicose e lipídios, estrutura hepática e tecido adiposo na prole adulta programada.

A susceptibilidade à nicotina e etanol é afetada pela exposição à nicotina, fumaça de cigarro e etanol durante o período gestacional: alterações comportamentais e eletrofisiológicas no período pós-natal de camundongos

Uma questão particularmente relevante é o fato de exposições precoces a drogas de abuso durante o desenvolvimento potencialmente aumentarem a susceptibilidade a estas drogas posteriormente durante o desenvolvimento. No presente estudo utilizando estudos comportamentais e eletrofisiológicos, investigamos efeitos tardios da exposição de camundongos à fumaça de cigarro, à nicotina e ao etanol durante o período que corresponde à gestação em humanos. Para tal, esta tese foi dividida em 2 estudos. No Estudo 1, submetemos camundongos durante o período que corresponde à gestação de humanos à fumaça de cigarro e/ou etanol visando investigar se a estas drogas de abuso, separadamente ou quando combinadas, programam maior susceptibilidade aos efeitos da nicotina durante a adolescência (PN30) ou idade adulta (PN90). Para avaliar a susceptibilidade, utilizamos 3 testes: campo aberto (CA), preferencia pela nicotina (PPN) e preferencia condicionada por lugar (CPP). No Estudo 2, os animais foram expostos a nicotina durante o período gestacional e, no período que corresponde à infância (PN9 a PN20), fatias de cérebro contendo o núcleo tegumental laterodorsal (LDT) foram expostas a etanol. Este núcleo foi escolhido uma vez que estudos recentes indicam sua participação em mecanismos de toxicodependência. Foram realizados registros eletrofisiológicos de uma única célula. No Estudo 1, identificamos maior sensibilidade para os efeitos da reexposição à nicotina na adolescência quando comparada com a idade adulta . Em animais testados no CA durante a adolescência, a nicotina foi capaz de causar aumento da atividade locomotora nos animais controle, previamente expostos à fumaça de cigarro e ao etanol. Contudo, em animais expostos à fumaça combinada com etanol, não houve aumento da locomoção. Na idade adulta, a nicotina causou um aumento da atividade locomotora no CA somente nos animais expostos à fumaça de cigarro. Quanto ao CPP, a exposição prévia à fumaça de cigarro e ao etanol causaram aumento da resposta condicionada à nicotina em fêmeas adolescentes. Nos animais previamente expostos à combinação entre fumaça de cigarro e etanol, a resposta condicionada à nicotina não atingiu significância estatística. Não houve alterações na idade adulta. A exposição a fumaça de cigarro e/ou etanol não afetou a PPN. No Estudo 2, os dados eletrofisiológicos mostraram que a exposição pré-natal à nicotina foi capaz de alterar as correntes de despolarização basais e o potencial de repouso de células do LDT A nicotina também foi capaz de alterar as respostas deste núcleo ao etanol reduzindo as correntes de despolarização e aumentando, embora que não de forma significativa, as correntes inibitórias. De acordo com estes dados, injurias causadas pela exposição à fumaça do cigarro, à nicotina isoladamente, e ao etanol durante o desenvolvimento são capazes de perdurar por um logo tempo na vida do individuo, alterando as respostas a comportamentais e celulares a uma exposição tardia à nicotina e ao etanol.

山东山旺中新世古气候的定量研究

本论文研究的创新之处是在高分辨率的地层层序上选定3米X3米的工作剖面，逐层采集标本，定量研究山旺中新世古气候的变化过程。主要有以下新的认识和结论： 植物化石的数量和种类在地层层序上的变化很大。第5层、第6层、第7层、第13层、第15层和第16层的标本丰富，可以进行CLAMP分析。 第5层、第6层和第7层的泥岩中保存有丰富的植物化石，运用荧光显微分析技术可以清晰地观察到泥岩中植物的气孔和表皮细胞形态。 山旺地区中新世年均温（MAT）在9.5℃和11.3℃之间。较热月份平均温度（WMMT）在19.9 ℃和22.4 ℃之间。生长季月数（GSL）为5.9－－6.9个月。生长季节平均降水量（MGSP）为860－－1770 mm。生长季月平均降水量（MMGSP）为152－－253mm，生长季三个连续最湿的月份降水量（3－WET）为530－－920mm，三个连续最旱的月份的降水量（3－DRY）为286－－687mm。相对湿度（Rel. Hum）在73％以上，高达80％。特殊湿度（q-Specific Humidity）在5.9－－6.7之间，热熵值（H－Enthalpy）为298.5－－304.5。 气候参数在地层层序上存在变化。CLAMP分析的结论与最近亲缘种分析（NLR）的结论相似。CLAMP分析的年均温比现在山旺的年均温12.5℃低，比同层的线性分析结果低3℃。与海底有孔虫氧同位素的研究结论一致。山东山旺中新世古气候的研究可以作为中中新世全球气候变化研究的一个标尺。

山东山旺中新世气候定量重建的综合研究

新生代以来，全球气候经历了一系列的冷暖交替，呈现总体变冷的趋势。对该时期不同区域气候变化过程的深入研究有助于我们更好地理解现今全球气候变化规律。中新世是新生代古气候与古环境演变的一个重要转折时期，定量重建山东山旺中新世气候是认识和理解中国东部与东亚新近纪气候演变的一个关键环节。 将化石植物作为气候代用指标，用于研究过去全球气候变化，已经广为国际科学界接纳。国际上，定量研究第三纪气候的植物学方法按照不同原理可以划分为两大类，其各自代表分别为基于化石的现存最近亲缘类群生态适应度推演古气候参数值的共存分析法（Coexistence Approch, CA ）和基于叶片形态特征与气候相关关系的叶缘分析（Leaf Margin Analysis, LMA ）与气候叶片多变量程序（Climate Leaf Analysis Multivariate Program, CLAMP）。两大主流方法各有优势，也各有局限性。前人运用两大主流方法对山旺中新世植物群相同地层，同套数据的分析结果表明：LMA 和CLAMP 所估测年均温数值要显著低于CA 所估测的数值。其差异的原因既可能是LMA 和CLAMP 由于埋藏因素的影响造成估测值偏低，也可能由于CA 数据库数据主要来自于欧洲和北美而缺乏东亚的资料所致。 本论文提出了一种新的方法——分布区叠加分析（Overlapping Distribution Analysis, ODA ）对山旺中新世古气候进行定量重建。ODA 采用最近亲缘类群在叠加区间的气候参数来重建化石植物所生活的当时当地的气候。其详细步骤如下：1. 鉴定化石植物和认定它们的最近亲缘类群（尽量到种级水平）。2. 调查这些最近亲缘类群的分布数据（包括经度、纬度和海拔数据）。某些类群可能会有不止一个最近亲缘类群，须将这些最近亲缘类群的分布数据合并。3. 对分布数据分析，得出包含最多类群的最大叠加区间。4. 调查在最大叠加区间中气象站点的气候数据。5. 按照公式（1）和（2）来转换年均温数据TU=T0 - (HU -H0)×Γ (1); TL=T0 - (HL -H0)×Γ (2) 其中HU (m) 是海拔叠加区间的上界; HL (m) 是海拔叠加区间的下界; H0 (m) 气象站的实测海拔; T0 (ºC) 气象站的实测年均温; TU (ºC) 在海拔叠加区间气温的下界; TL (ºC) 在海拔叠加区间气温的上界; 系数Γ 为大气垂直直减率，年均温为0.5ºC/100m，最冷月均温为 0.45ºC/100m，最热月均温为 0.6ºC/100m。同样的方法，在海拔叠加范围内最冷月均温与最热月均温范围也可以确定，而降水量则采用气象台站的原始数据。6. 在这些转换数据的基础上，得出年均温，最冷月均温，最热月均温，年较差和年平均降水量波动范围。 ODA 分析结果表明：山旺中新世时期年均温为10.9-14.5oC，年较差为21.1-22.7oC，最冷月均温为-0.5-3.3oC，最热月均温为21.9-25.0oC，年平均降水量为1107.3-1880.0mm 。同时本论文还定量恢复了山旺硅藻土矿各层的古气候参数，其所估测的古气候参数数值与CLAMP 和LMA 的结果一致，而与CA 不同。对山旺气候参数的恢复表明，虽然其中新世年均温与现在相似，但最冷月均温要高于现在。 本项研究的创新之处是选择同一个研究地点（山东山旺），依据同一套数据（化石植物的类群资料），采用国际上以不同原理为基础的主流方法，同时加入我们自己提出的新方法，进行的古气候重建，对所获得气候参数值进行对比和验证，并对其存在的差异进行分析和探讨。