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1.
云海铜镍矿位于觉罗塔格构造带西段,成矿岩体为多期次侵入的杂岩体,岩体分异演化充分,镁铁质和超镁铁质岩石均有发育,主要岩石类型为角闪辉石岩、橄榄苏长岩、辉长岩、闪长岩。主量元素化学组成表明,该杂岩体属拉斑玄武岩系列,岩石具同源演化特征,显示高铁、高镁、低钛、低铝特征,富集大离子亲石元素Rb,Ba,亏损Nb,Ta,轻稀土富集。岩浆源区有部分熔融而交代的岩石圈地幔,岩浆在上升过程中受到地壳物质混染,发生橄榄石、斜方辉石、斜长石的分离结晶。岩体形成于早二叠世,为构造活动和地幔柱双重作用下的产物。 相似文献
2.
牛毛泉基性杂岩体位于准噶尔古板块博格达-哈尔里克晚古生代岛弧东段,赋存磁铁矿。研究表明,该岩体具有明显成层性和韵律构造特征,主要岩石类型有橄榄辉长岩、含橄榄辉长岩、辉长岩和角闪辉长岩。岩石地球化学特征表明,该套岩石属拉斑玄武岩系列,m/f值介于0.65~1.44之间,属铁质基性-超基性岩。岩石稀土元素总量相对较低,稀土元素配分曲线为轻稀土元素略富集的右倾型;岩石富集大离子亲石元素(Rb、Ba、Sr、U),相对亏损高场强元素(Zr、Hf),具有明显的Nb、Ta负异常和弱的Ti正异常。岩石εNd(t)=-3.4~-0.50,εSr(t)=-3.4~8.5,具有向EMⅠ方向演化的趋势,表明岩浆源区可能为受俯冲流体交代改造的富集岩石圈地幔,是新疆北部早二叠世时期后碰撞伸展阶段的产物,由拆沉的富集岩石圈地幔被软流圈加热后发生部分熔融并上侵形成。 相似文献
3.
碰撞后岩浆活动对于了解造山带垮塌和去根过程及陆壳生长具有重要意义.总结了柴北缘超高压变质带中形成于400~360 Ma的碰撞后花岗岩-辉长岩侵入体和镁铁质岩脉的年代学和地球化学特征.其中,花岗岩侵入体具有典型的I-型花岗岩特征,形成于壳幔相互作用的岩浆混合.来自地幔的镁铁质岩脉可以划分为两组:(1)392~375 Ma中基性岩脉;(2)约360Ma超基性岩脉.其地球化学特征表明,镁铁质岩脉的微量元素和同位素随形成时间的变新而逐渐亏损,地幔源区从岩石圈地幔变为软流圈地幔.这种源自地幔的镁铁质岩浆活动是碰撞后岩浆活动开始和造山带垮塌的关键指标.结合碰撞后岩浆作用的特征,提出了一个地球动力学模型来解释柴北缘约35百万年(Ma)的造山带垮塌去根过程,在395~375 Ma发生缓慢的岩石圈地幔侵蚀,360 Ma前岩石圈发生拆沉作用,岩石圈地幔垮塌,同时软流圈地幔上升.地幔岩浆的加入表明碰撞后阶段是大陆生长的重要时期. 相似文献
4.
东天山莫哲巴依萨依环状基性超基性杂岩体研究 总被引:1,自引:0,他引:1
本文对莫哲巴依萨依环状基性超基性杂岩体的岩石学、岩石地球化学特征进行了较全面的论述。它们属铁质基性、超基性岩,为同源岩浆分异而成,其成因类似于阿拉斯加型同心环状超镁铁质杂岩。形成时代为晚石炭世—早二叠世。 相似文献
5.
玢岩型铁硫矿床是长江中下游地区重要的矿床类型,与隐伏闪长玢岩具有密切的成因联系,研究赋矿闪长玢岩的地球化学特征,对探讨玢岩型铁硫矿床的形成及演化、指导深部找矿具有重要意义。文章以庐枞盆地泥河玢岩型铁硫矿床赋矿闪长玢岩为研究对象,在对钻孔详细观察的基础上,研究赋矿闪长玢岩的岩石地球化学特征。该赋矿闪长玢岩具有中高硅含量,高钾富碱,低钛,高铝,富集Sr、K、Rb、Th、Ce等大离子亲石元素,亏损Nb、Ta、Ti、Zr、Hf等高场强元素,属于橄榄玄粗质系列岩石。结合Sr-Nd同位素特征,推测岩浆源区可能为富集型岩石圈地幔,分离结晶与同化混染共同影响岩浆的演化过程。 相似文献
6.
对新疆西准噶尔达尔布特蛇绿岩套柳树沟镁铁质杂岩中橄榄辉长岩、蛇纹石化橄榄辉长岩、辉长岩和蚀变辉长岩地球化学分析表明:辉长岩和蚀变辉长岩具有钙碱性和拉斑玄武岩的双重特征,橄榄辉长岩和蛇纹石化橄榄辉长岩属镁铁质堆积岩,为蛇绿岩组成单元;稀土总量较高,具微弱正Eu异常,稀土元素配分模式为略左倾平坦型,与SSZ型镁铁质堆晶岩稀土配分模式相同;微量元素蛛网图上,富集大离子亲石元素Cs、K、Th、U,相对亏损高场强元素Nb、Ta,可能代表俯冲板片的流体交代上覆地幔楔使地幔岩石发生部分熔融。地球化学构造环境判别柳树沟镁铁质岩石岩浆源区为亏损型地幔向富集型地幔过渡的适度富集型地幔,其形成的最佳模型是在成熟岛弧基础上裂谷化形成的一个不成熟的类似边缘海性质弧后盆地,不具成熟大洋或盆地那样的洋壳-上地幔结构,在盆地扩张初期岩浆具岛弧特征,随着盆地被进一步打开,镁铁质岩石具N-MORB特征。对辉长岩采用SHRIMP锆石U-Pb同位素年龄测试,获得特柳树沟镁铁质岩石的结晶时间为314.9±1.7 Ma。 相似文献
7.
黄山东与香山镁铁质-超镁铁质杂岩体隶属于东天山北部黄山-镜儿泉镁铁质-超镁铁质岩带, 受北东东走向的黄山-镜儿泉韧性剪切带控制, 二者岩石组成差异较大, 黄山东杂岩主要由辉石橄榄岩和辉长岩组成, 主量元素化学组成属钙碱性-拉斑玄武系列, 而香山杂岩主要由辉石橄榄岩、橄榄辉石岩、角闪辉长岩、辉绿岩组成, 属拉斑玄武系列.微量元素地球化学特征显示二者相对富集大离子亲石元素(K、Sr、Ba), 高场强元素(Pb、U), 而相对亏损高场强元素(Nb、P), 适度亏损(Zr、Hf), 但其稀土配分模式不同, 黄山东杂岩显示轻稀土弱富集, 具OIB型的特征, 而香山岩体为平坦型.二者均为尖晶石稳定域不同熔融程度的产物, 侵位过程中主要发生了橄榄石、辉石、斜长石的分离结晶和不同程度的地壳混染.采用LA-ICP-MS法获得黄山东辉长岩与香山角闪辉长岩锆石U-Pb年龄分别为277±1.1 Ma、285±1.1 Ma.二者形成于相同的构造背景下, 是岩石圈地幔根部发生拆沉, 软流圈地幔物质底侵并导致岩石圈地幔发生部分熔融的产物, 构造环境为后碰撞向板内阶段转变的岩石圈间歇性伸展期. 相似文献
8.
新疆中天山白石泉含铜镍矿镁铁-超镁铁岩体地球化学特征与岩石成因 总被引:3,自引:4,他引:3
白石泉含Cu-Ni硫化物镁铁-超镁铁侵入体位于中天山地块,其主要岩石类型有辉石橄榄岩、橄榄辉石岩、橄长岩、辉长岩及角闪辉长岩等,具有明显的堆晶结构.对岩体的主要、微量及稀土元素地球化学特征研究表明,岩体属铁质镁铁-超镁铁岩,具有拉斑玄武质岩浆的分异趋势;并相对富集大离子亲石元素(Rb、Ba、Sr等)、亏损高场强元素(Nb、Ta、Zr、Hf),以及具有LREE富集((La/Yb)n=1.27~9.95)的右倾型稀土元素分布模式.Pb同位特征表明母岩浆与软流圈地幔和EM Ⅱ地幔物质有关.综合地球化学特征表明,母岩浆为来源于受早期俯冲物质混染的软流圈地幔的高镟拉斑玄武岩浆.岩浆在上升过程中,没有受到上地壳及围岩的混染.原生岩浆形成后,经过了橄榄石、辉石、斜长石及铬铁矿的分离结晶作用和硫化物的熔离作用.目前出露的岩体为富含橄榄石及硫化物的“晶粥“在高位岩浆房中演化的产物. 相似文献
9.
新疆北山地区中坡山北镁铁质岩体岩石地球化学与岩石成因 总被引:12,自引:13,他引:12
中坡山北镁铁质岩体位于新疆北山裂谷带的中带,岩体形态为相互联通的岩盆状,出露面积约180km~2。由角闪辉长岩、橄榄辉石岩、橄榄辉长岩、苏长辉长岩和斜长岩组成,岩相带呈同心环状展布,相互间呈渐变过渡关系。锆石U-Pb法同位素年龄为274+4Ma。岩相学、岩石化学、造岩矿物晶体化学和稀土元素地球化学特征均显示了非常发育的分离结晶作用。橄榄辉石岩和橄榄辉长岩主要由早期结晶相聚集而成,橄榄石是最初的液相线相,单斜辉石是数量最多的分离结晶相。斜长岩由残余岩浆结晶而成。母岩浆应该是高镁的拉斑玄武岩浆。Nd、Sr、Pb同位素组成和岩石地球化学特征充分证明了岩浆与围岩之间的物质交换。同化混染作用明显地改变了侵入岩的同位素组成和大离子亲石元素丰度。除斜长岩外,各种岩石的TiO_2、Na:O、K_2O、大离子亲石元素和稀土元素丰度均很低,受同化混染作用影响较小的样品的ε_Nd(t)=+6.80,这些特征证明其岩浆源区属亏损型地幔。FeO~*和SiO_2含量证明,熔融作用开始时,源岩为二辉橄榄岩;当熔融作用持续到一定程度时,源岩物质转化为方辉橄榄岩。稀土元素地球化学证明,熔融作用发生于尖晶石稳定域内。综合各方面要素可以证明,中坡山北岩体是塔里木板块二叠纪期间第四种类型地幔源区部分熔融的产物。 相似文献
10.
幔源岩浆活动的成因研究,对约束区域构造演化历史具有重要意义.东昆仑祁漫塔格鹰爪沟镁铁-超镁铁质层状岩体由橄榄辉长苏长岩、含长橄榄二辉岩及橄榄二辉岩组成.获得橄榄辉长苏长岩的LA-ICP-MS锆石U-Pb年龄为263±4 Ma,指示岩体形成于中二叠世晚期.岩石地球化学特征显示,鹰爪沟岩体具有低SiO2、高MgO、FeOt含量,富集LREE、LILE,亏损HREE以及Th、U、Nb、Ta、Ti等不相容元素等特征.全岩εNd(t)=0.73~0.92,锆石εHf(t)=8.33~13.50.综合区域地质背景资料,认为其形成于古特提斯洋俯冲作用下的活动大陆边缘裂谷,源自于受软流圈熔体和俯冲流体交代的岩石圈地幔.结合同期具有壳幔混源特征的花岗岩资料,认为东昆仑地区在中二叠世已有幔源岩浆底侵活动,主要形成于古特提斯洋俯冲体制下局部的伸展背景. 相似文献
11.
Most sulfide-rich magmatic Ni-Cu-(PGE) deposits form in dynamic magmatic systems by partial melting S-bearing wall rocks with variable degrees of assimilation of miscible silicate and volatile components, and generation of barren to weakly-mineralized immiscible Fe sulfide xenomelts into which Ni-Cu-Co-PGE partition from the magma. Some exceptionally-thick magmatic Cr deposits may form by partial melting oxide-bearing wall rocks with variable degrees of assimilation of the miscible silicate and volatile components, and generation of barren Fe ± Ti oxide xenocrysts into which Cr-Mg-V ± Ti partition from the magma. The products of these processes are variably preserved as skarns, residues, xenoliths, xenocrysts, xenomelts, and xenovolatiles, which play important to critical roles in ore genesis, transport, localization, and/or modification. Incorporation of barren xenoliths/autoliths may induce small amounts of sulfide/chromite to segregate, but incorporation of sulfide xenomelts or oxide xenocrysts with dynamic upgrading of metal tenors (PGE > Cu > Ni > Co and Cr > V > Ti, respectively) is required to make significant ore deposits. Silicate xenomelts are only rarely preserved, but will be variably depleted in chalcophile and ferrous metals. Less dense felsic xenoliths may aid upward sulfide transport by increasing the effective viscosity and decreasing the bulk density of the magma. Denser mafic or metamorphosed xenoliths may also increase the effective viscosity of the magma, but may aid downward sulfide transport by increasing the bulk density of the magma. Sulfide wets olivine, so olivine xenocrysts may act as filter beds to collect advected finely dispersed sulfide droplets, but other silicates and xenoliths may not be wetted by sulfides. Xenovolatiles may retard settling of – or in some cases float – dense sulfide droplets. Reactions of sulfide melts with felsic country rocks may generate Fe-rich skarns that may allow sulfide melts to fractionate to more extreme Cu-Ni-rich compositions. Xenoliths, xenocrysts, xenomelts, and xenovolatiles are more likely to be preserved in cooler basaltic magmas than in hotter komatiitic magmas, and are more likely to be preserved in less dynamic (less turbulent) systems/domain/phases than in more dynamic (more turbulent) systems/domains/phases. Massive to semi-massive Ni-Cu-PGE and Cr mineralization and xenoliths are often localized within footwall embayments, dilations/jogs in dikes, throats of magma conduits, and the horizontal segments of dike-chonolith and dike-sill complexes, which represent fluid dynamic traps for both ascending and descending sulfides/oxides. If skarns, residues, xenoliths, xenocrysts, xenomelts, and/or xenovolatiles are present, they provide important constraints on ore genesis and they are valuable exploration indicators, but they must be included in elemental and isotopic mass balance calculations. 相似文献
12.
Between 1985 and 1991, two new mountain protected areas (MTNPA) covering more than 35,000 km2 and based on participatory management models — the Makalu-Barun National Park and Conservation Area, Nepal, and Qomolangma Nature Preserve, Tibet Autonomous Region — were successfully established through the collaborative efforts of Woodlands Mountain Institute and conservationists in China and Nepal. Characteristics common to both projects include the importance of establishing (1) effective rationales, (2) local support constituencies, (3) a senior advisory group, (4) a task force, (5) linkages between conservation and development, and (6) fund raising mechanisms. The lessons derived from the experiences of Woodlands Mountain Institute are of significant value to others in preserving MTNPA. Increased collaboration and communication between all interested in conservation, however, will remain a critical component for expanding mountain protected area coverage to throughout the world. 相似文献
13.
《Geoforum》2017
This article advances critical geographies of youth through examining the spatiality implicit in the imagined futures of young women in rural India. Geographers and other scholars of youth have begun to pay more attention to the interplay between young people’s past, present, and imagined futures. Within this emerging body of scholarship the role of the family and peer group in influencing young people’s orientations toward the future remain underexamined. Drawing on eleven months of ethnographic fieldwork, my research focuses on a first generation of college-going young women from socioeconomically marginalized backgrounds in India’s westernmost state of Gujarat. I draw on the “possible selves” theoretical construct in order to deploy a flexible conceptual framework that links imagined post-educational trajectories with motivation to act in the present. In tracing the physical movement of these young women as they navigate and complete college, my analysis highlights the ways in which particular kinds of spaces and spatial arrangements facilitate and limit intra- and inter-generational contact, and the extent to which this affects young women’s conceptions of the future. I conclude by considering the wider implications of my research for ongoing debates surrounding youth transitions, relational geographies of age, and education in the Global South. 相似文献
14.
I. Bejarano-Ramirez Jose M. Jurado R. Muñiz-Valencia Á. Alcázar Silvia G. Ceballos-Magaña A. Olivos-Ortiz O. Rangel 《International Journal of Environmental Science and Technology》2017,14(6):1333-1342
The contents of As, Cd, Cu, Cr, Mg, Mn, Ni, Pb and Zn have been determined in sediment and water samples from Valle de las Garzas estuary and Port Manzanillo (Colima, Mexico) using ICP-AES. The concentrations of these elements were used for a comparative study to determine the distribution of heavy metals and to evaluate which elements reflect natural or anthropogenic backgrounds. For this purpose, seven sampling points were selected: Four of them correspond to the lagoon, and three were situated in the port. Statistical analysis of the mineral content was assessed. Initially, data comparison was assessed by statistical tests for each variable. Principal component analysis was then applied considering the influence of all variables at the same time by obtaining the distribution of samples according to their scores in the principal component space. In this way, four studies were carried out: (1) study of sediments collected during the dry season; (2) study of sediments collected during the rainy season; (3) comparative study between sediments from rainy and dry season; and (4) study of water composition collected during rainy season. From the results of the performed analyses, it can be concluded that metals distribution pattern reflected natural and anthropogenic backgrounds (e.g., sediments from the lagoon, situated at the beginning of the rain channel, presented high contents of Zn and Cu, perhaps related to anthropogenic activities or the influence of igneous sediments). 相似文献
15.
Hirokazu Fujimaki 《Contributions to Mineralogy and Petrology》1986,94(1):42-45
Concentration ratios of Hf, Zr, and REE between zircon, apatite, and liquid were determined for three igneous compositions: two andesites and a diorite. The concentration ratios of these elements between zircon and corresponding liquid can approximate the partition coefficient. Although the concentration ratios between apatite and andesite groundmass can be considered as partition coefficients, those for the apatite in the diorite may deviate from the partition coefficients. The HREE partition coefficients between zircon and liquid are very large (100 for Er to 500 for Lu), and the Hf partition coefficient is even larger. The REE partition coefficients between apatite and liquid are convex upward, and large (D=10–100), whereas the Hf and Zr partition coefficients are less than 1. The large differences between partition coefficients of Lu and Hf for zircon-liquid and for apatite-liquid are confirmed. These partition coefficients are useful for petrogenetic models involving zircon and apatite. 相似文献
16.
17.
《Chemical Geology》2007,236(1-2):13-26
We examined the coprecipitation behavior of Ti, Mo, Sn and Sb in Ca–Al–Mg fluorides under two different fluoride forming conditions: at < 70 °C in an ultrasonic bath (denoted as the ultrasonic method) and at 245 °C using a Teflon bomb (denoted as the bomb method). In the ultrasonic method, small amounts of Ti, Mo and Sn coprecipitation were observed with 100% Ca and 100% Mg fluorides. No coprecipitation of Ti, Mo, Sn and Sb in Ca–Al–Mg fluorides occurred when the sample was decomposed by the bomb method except for 100% Ca fluoride. Based on our coprecipitation observations, we have developed a simultaneous determination method for B, Ti, Zr, Nb, Mo, Sn, Sb, Hf and Ta by Q-pole type ICP-MS (ICP-QMS) and sector field type ICP-MS (ICP-SFMS). 9–50 mg of samples with Zr–Mo–Sn–Sb–Hf spikes were decomposed by HF using the bomb method and the ultrasonic method with B spike. The sample was then evaporated and re-dissolved into 0.5 mol l− 1 HF, followed by the removal of fluorides by centrifuging. B, Zr, Mo, Sn, Sb and Hf were measured by ID method. Nb and Ta were measured by the ID-internal standardization method, based on Nb/Mo and Ta/Mo ratios using ICP-QMS, for which pseudo-FI was developed and applied. When 100% recovery yields of Zr and Hf are expected, Nb/Zr and Ta/Hf ratios may also be used. Ti was determined by the ID-internal standardization method, based on the Ti/Nb ratio from ICP-SFMS. Only 0.053 ml sample solution was required for measurement of all 9 elements. Dilution factors of ≤ 340 were aspirated without matrix effects. To demonstrate the applicability of our method, 4 carbonaceous chondrites (Ivuna, Orgueil, Cold Bokkeveld and Allende) as well as GSJ and USGS silicate reference materials of basalts, andesites and peridotites were analyzed. Our analytical results are consistent with previous studies, and the mean reproducibility of each element is 1.0–4.6% for basalts and andesites, and 6.7–11% for peridotites except for TiO2. 相似文献
18.
Models have become so fashionable that many scientists and engineers cannot imagine working without them. The predominant use of computer codes to execute model calculations has blurred the distinction between code and model. The recent controversy regarding model validation has brought into question what we mean by a ‘model’ and by ‘validation.’ It has become apparent that the usual meaning of validation may be common in engineering practice and seems useful in legal practice but it is contrary to scientific practice and brings into question our understanding of science and how it can best be applied to such problems as hazardous waste characterization, remediation, and aqueous geochemistry in general. This review summarizes arguments against using the phrase model validation and examines efforts to validate models for high-level radioactive waste management and for permitting and monitoring open-pit mines. Part of the controversy comes from a misunderstanding of ‘prediction’ and the need to distinguish logical from temporal prediction. Another problem stems from the difference in the engineering approach contrasted with the scientific approach. The reductionist influence on the way we approach environmental investigations also limits our ability to model the interconnected nature of reality. Guidelines are proposed to improve our perceptions and proper utilization of models. Use of the word ‘validation’ is strongly discouraged when discussing model reliability. 相似文献
19.
Pools,riffles, and channelization 总被引:2,自引:0,他引:2
Edward A. Keller 《Environmental Geology》1978,2(2):119-127
The addition of regularly spaced deeps (pools) and shallows (riffles) that provide a variety of flow conditions, areal sorting
of stream-bed material, cover for wildlife, and a positive aesthetic experience, may be desirable in many channel projects.
Such designs will reduce adverse environmental impacts of stream channel modifications.
Analysis of variance for pool-to-pool spacing data suggests that there is no significant difference with respect to channel
width between pools that form in natural streams and those in streams affected by a variety of human uses. Short of channelization,
which changes the channel width, pools and riffles, within limits, are not particularly sensitive to environmental stress.
Experiments in Gum Branch near Charlotte, North Carolina, support the hypothesis that channel form and process evolve in harmony
and that manipulation of cross-channel morphology can influence the development of desired channel processes. Planned manipulation
of its channel form induced Gum Branch to develop as desired. Morphologic stability consisting of incipient point bars, pools,
and riffles was maintained over a period of high magnitude flood events, only to be degraded later by a wave of sediment derived
from upstream construction and stream-bank failures. Thus, environmentally desirable channel morphology in urban streams cannot
remain stable if changes in the sediment load or storm-water runoff exceed the limits of the stream's ability to make internal
adjustments while maintaining morphologic stability. 相似文献
20.
Preston Cloud 《International Journal of Earth Sciences》1977,66(1):678-696
Materials and energy are the interdependent feedstocks of economic systems, and thermodynamics is their moderator. It costs energy to transform the dispersed minerals of Earth's crust into ordered materials and structures. And it costs materials to collect and focus the energy to perform work — be it from solar, fossil fuel, nuclear, or other sources. The greater the dispersal of minerals sought, the more energy is required to collect them into ordered states.But available energy can be used once only. And the ordered materials of industrial economies become disordered with time. They may be partially reordered and recycled, but only at further costs in energy. Available energy everywhere degrades to bound states and order to disorder — for though entropy may be juggled it always increases. Yet industry is utterly dependent on low entropy states of matter and energy, while decreasing grades of ore require ever higher inputs of energy to convert them to metals, with ever increasing growth both of entropy and environmental hazard.Except as we may prize a thing for its intrinsic qualities — beauty, leisure, love, or gold — low-entropy is the only thing of real value. It is worth whatever the market will bear, and it becomes more valuable as entropy increases. It would be foolish of suppliers to sell it more cheaply or in larger amounts than their own enjoyment of life requires, whatever form it may take. For this reason, and because of physical constraints on the availability of all low-entropy states, the recent energy crises is only the first of a sequence of crises to be expected in energy and materials as long as current trends continue.The apportioning of low-entropy states in a modern industrial society is achieved more or less according to the theory of competitive markets. But the rational powers of this theory suffer as the world grows increasingly polarized into rich, over-industrialized nations with diminishing resource bases and poor, supplier nations with little industry. The theory also discounts posterity, the more so as population density and percapita rates of consumption continue to grow. A new social, economic, and ecologic norm that leads to population control, conservation, and an apportionment of low-entropy states across the generations is needed to assure to posterity the options that properly belong to it as an important but voiceless constituency of the collectivity we call mankind.
Dedicated with appreciation to Nicholas Georgescu-Roegen, distinguished economist, realist among cornucopians 相似文献
Zusammenfassung Rohstoffe und Energie sind die Grundlagen unseres ökonomischen Systems, das von den Gesetzen der Thermodynamik bestimmt wird. Es kostet Energie, um die auf der Erde verteilten Rohstoffe diesem System zuzuführen. Andererseits braucht man Rohstoffe, um die Energie nutzbar zu machen.Die verfügbare Energie kann nur einmal genutzt werden und das Material verbraucht sich. Verbrauchtes Material kann teilweise zur weiteren Nutzung zurückgeführt werden, das kostet wiederum Energie. Die verfügbare Energie nimmt überall ab, und einmal geschaffene Ordnung gerät wieder in Unordnung — das heißt, die Entropie des Systems nimmt ständig zu. Die Industrie ist jedoch abhängig von einem niedrigen Entropiezustand sowohl der Materie als auch der Energie.Je ärmer die Erze sind, um so höher wird die Energie sein, um sie in Metalle umzuwandeln, wobei die Entropie und die Belastung der Umwelt ständig zunimmt.Außer den Dingen, die wir wegen höherer ideeller Werte schätzen, ist eine niedrige Entropie der einzige realistische Wertmaßstab, und der wirkliche Wertzuwachs ist nur an einer höheren Entropie zu messen. Es ist unverantwortlich, Dinge, die eine höhere Entropie bedingen, billiger zu verkaufen oder in größerer Menge zu erzeugen, als unbedingt notwendig ist. Da wir dies heute in unserem Handeln nicht berücksichtigen, ist die derzeitige Energiekrise nur der Anfang einer Folge von Krisen, die Energie und Rohstoffe betreffen, solange wir nicht umdenken.Die Verteilung von niedriger Entropie in einer modernen Industriegesellschaft wird mehr oder weniger nach dem Prinzip der konkurrierenden Märkte erreicht. Das selbstregulierende System gerät jedoch mit zunehmender Polarisierung in reiche Industrienationen mit abnehmenden Ressourcen und armen Nationen mit geringer Industrialisierung in Unordnung. Dieses Prinzip berücksichtigt auch nicht die Nachwelt, vor allem wenn die Bevölkerungsdichte stetig zunimmt und die Konsumbedürfnisse anwachsen. Es sind neue soziale, ökonomische und ökologische Normen notwendig, die zur Populationskontrolle, zur Erhaltung der Umwelt und zu einem Zustand niedriger Entropie für zukünftige Generationen führen. Die nach uns kommenden Menschen haben ein Anrecht darauf.
Résumé Matériaux et énergie sont les sources des systèmes économiques et sont régis par les lois de la thermodynamique. Il faut de l'énergie pour transformer les ressources minérales dispersées dans la croûte terrestre en matériaux et structures ordonnancées. Et il faut des matériaux pour receuillir et concentrer l'énergie, qu'elle soit solaire ou atomique, ou provienne de combustibles fossiles ou d'autres sources. Plus les minéraux recherchés sont dispersés et plus est côuteuse l'énergie pour leur donner une ordonnance.Or l'énergie disponsible ne peut être utilisée qu'une seule fois. Et les matériaux ordonnancés des économies industrielles se dégradent avec le temps. Ils peuvent être remis partiellement en état et recyclés, mais pour cela il faut de nouveau de l'énergie. Partout l'énergie disponible se dégrade et l'ordre devient désordre; -malgré toutes les jongleries possibles l'entropie augmente toujours.L'industrie dépend clairement d'états de basse entropie tant en ce qui concerne les matériaux que l'énergie, tandis que plus pauvres sont les minerais, plus; élevée est l'énergie à mettre en jeu pour en extraire les métaux, avec toujours augmentation à la fois de l'entropie et de la degradation des milieux.A l'exception de ce que nous apprécions pour leur valeur intrinsèque — la beauté, le loisir, l'amour ou l'or — la basse entropie est la seule chose de réelle valeur. Son prix est réglé par le marché, et sa valeur augmente au fur et à mesure que l'entropie s'accroît. Ceux qui en disposent seraient insensés de la vendre à bas prix ou en quantité supérieure à ce qu'exige leur propre niveau de vie. Pour cette raison, et à cause des contraintes physiques liées à la disponibilité en états de basse entropie, la récente crise d'énergie n'est, en ce qui concerne les matières premières et l'énergie, que la première d'une série de crises auxquelles il faut s'attendre aussi longtemps que se poursoit la marche actuelle des étènements.Dans les sociétés industrielles modernes, les approvisionnement en basse entropie s'effectuent plus ou moins conformément à la théorie de la concurrence des marchés. Cependant la rationalité de cette théorie se ressent de l'accentuation croissante de la polarisation, à l'échelle du monde, en nations riches, surindustrialisées, à ressources de base décroissantes, et en nations pauvres, sous-industrialisées, mais fournisseurs de resources-naturelles. De plus cette théorie ne tient pas compte de notre postérité, et ce, en face d'une densité de population et d'un taux de la consommation par tête d'habitant en augmentation continue.Nous avons donc besoin de nouvelles normes sociales, économiques et écologiques qui conduisent au contrôle de la population, à la conservation et à la répartition des états de basse entropie à travers les générations pour assurer à notre postérité les options qui leur riviennent de droit comme une constituante importante, mais encore muette, de la collectivité que nous appelons l'Humanité.
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Dedicated with appreciation to Nicholas Georgescu-Roegen, distinguished economist, realist among cornucopians 相似文献