accretionary

简明释义

英[/əˈkɹɛʃənəri/]美[/əˈkriːʃəˌnɛri/]

生长的

堆积的

粘连的

英英释义

单词用法

同义词

反义词

例句

1.A small rounded accretionary mass, usually of calcium carbonate, larger and less regular than an oolite.

豆岩一种小的圆形沉积岩，常为碳酸钙，比鲕状岩大且不规则。

2.Two volcanic structures, hornitos and accretionary lava ball, were wrongly named as "fumaroles" and "volcanic bomb" respectively in the Geopark.

然而，景点中有些火山构造的命名却存在着明显的错误，如：熔岩丘和增生熔岩球分别被错误地命名为“喷气锥”和“火山弹”。

3.Following the Triassic collision, with Pacific plate subduction and continuous accumulation towards Eurasian plate in the Jurassic-Cenozoic, the huge accretionary complex belt was eventually formed.

侏罗纪—新生代在三叠纪碰撞基础上，太平洋板块向欧亚大陆连续俯冲和加积，进而形成由三叠纪—新生代杂岩组成的欧亚大陆东部地区的巨大加积杂岩带。

4.Paleozoic Sn polymetallic province in the northern accretionary zones of the craton, where Pb Zn and Sn polymetallic deposits were formed in Paleozoic basins with extensional tectonic background.

大兴安岭中南段古生代锡多金属成矿省，在克拉通北缘早晚古生代增生带的张裂型沉积盆地内分别生成各具特征的铅锌锡多金属矿床。

5.Following the Triassic collision, with Pacific plate subduction and continuous accumulation towards Eurasian plate in the Jurassic-Cenozoic, the huge accretionary complex belt was eventually formed.

侏罗纪—新生代在三叠纪碰撞基础上，太平洋板块向欧亚大陆连续俯冲和加积，进而形成由三叠纪—新生代杂岩组成的欧亚大陆东部地区的巨大加积杂岩带。

6.The low-temperature eclogites from the subduction-accretionary complex in the North Qilian Mountain occur as lenses within blueschists and phengite-schists.

北祁连俯冲-增生杂岩带中的低温榴辉岩以透镜体形式产于蓝片岩和多硅白云母片岩中。

7.The newly discovered Karamay ophiolitic mélange distributed along the NW edge of the Junggar basin has a complete sequence of ophiolite and accretionary complex.

新发现的克拉玛依蛇绿混杂岩带分布于准噶尔盆地西北缘，表现为组分齐全的蛇绿岩和增生杂岩。

8.Beneath the sediment, along the accretionary front, the sinking Arabian plate heats up under extreme pressure and rock melts into magma.

阿拉伯板块在高压的作用下升温，沉积物下方的岩石熔为岩浆。

9.In the context of mergers, accretionary 增值的 effects can lead to higher shareholder value.

在并购的背景下，增值的效应可能导致更高的股东价值。

10.In finance, accretionary 增值的 gains can significantly impact a company's overall valuation.

在金融领域，增值的收益可以显著影响公司的整体估值。

11.The accretionary 附加的 interest on the loan made it difficult for the borrower to pay it off.

贷款的附加的利息使借款人很难偿还。

12.The geologists studied the accretionary 增生的 processes that formed the new landmass over millions of years.

地质学家研究了形成新陆地的<顺>增生的过程，这一过程历时数百万年。

13.The accretionary 积累的 nature of sedimentary rocks can reveal much about Earth's history.

沉积岩的积累的特性可以揭示许多关于地球历史的信息。

作文

The concept of accretionary processes is fundamental in understanding how certain geological formations and structures evolve over time. In geology, accretionary refers to the gradual accumulation of material, often leading to the formation of larger bodies or structures. This process can be observed in various contexts, such as the formation of planets, the growth of mountain ranges, and even the development of ecosystems. To illustrate this, consider the formation of the Earth itself. Initially, our planet was a molten mass, but as it began to cool, particles in space started to collide and stick together through accretionary processes. These collisions caused small particles to combine into larger ones, eventually forming the planet we inhabit today. This gradual build-up is not only fascinating from a scientific perspective but also highlights the importance of time in the formation of celestial bodies.Another remarkable example of accretionary processes can be found in the realm of mountain building, specifically in the context of plate tectonics. When tectonic plates collide, they can create immense pressure that forces materials to accumulate and rise, leading to the formation of mountains. This process is known as orogeny, and it is fundamentally an accretionary phenomenon. Over millions of years, layers of sediment and rock are added, resulting in towering peaks that define our planet's landscape.In addition to geology, the idea of accretionary processes can be applied to biological systems as well. For instance, in ecology, ecosystems often develop through accretionary interactions among species. As organisms establish themselves in a given area, they modify the environment, making it more suitable for other species to thrive. This cumulative effect leads to the rich biodiversity we observe in many ecosystems today. The gradual addition of species and their interactions can be seen as an accretionary process that contributes to ecological stability and resilience.Furthermore, the concept of accretionary growth can be observed in economic systems. Economies often grow through the gradual accumulation of capital, resources, and innovation. Small businesses may start as modest ventures, but through consistent effort and reinvestment, they can expand significantly over time. This mirrors the accretionary nature of growth seen in natural systems, where small changes can lead to substantial outcomes.In conclusion, the term accretionary encompasses a wide range of processes across different fields, from geology to ecology and economics. Understanding these processes allows us to appreciate the complexity and interconnectedness of our world. Whether we are observing the majestic rise of mountains, the intricate web of life in ecosystems, or the dynamic nature of economies, the principles of accretionary growth remind us that significant change often occurs gradually, shaped by countless small contributions over time. Embracing this perspective can inspire us to recognize the value of patience and persistence in our own endeavors, as we navigate the complexities of life and strive for progress.

“accretionary”过程的概念在理解某些地质形成和结构如何随时间演变方面是基础。在地质学中，accretionary指的是物质的逐渐积累，通常导致更大身体或结构的形成。这个过程可以在多种背景下观察到，例如行星的形成、山脉的生长，甚至生态系统的发展。为了说明这一点，可以考虑地球本身的形成。最初，我们的星球是一块熔融的物质，但随着它开始冷却，太空中的颗粒开始碰撞并通过accretionary过程粘合在一起。这些碰撞使小颗粒结合成更大的颗粒，最终形成了我们今天居住的星球。这种逐渐的积累不仅从科学角度令人着迷，还突显了时间在天体形成中的重要性。另一个显著的accretionary过程的例子可以在山脉形成的领域找到，特别是在板块构造的背景下。当构造板块碰撞时，它们会产生巨大的压力，迫使材料积累并上升，导致山脉的形成。这个过程被称为造山运动，本质上是一个accretionary现象。经过数百万年，沉积物和岩石的层被添加，导致定义我们星球景观的高耸山峰。除了地质学，accretionary过程的概念也可以应用于生物系统。例如，在生态学中，生态系统往往通过物种之间的accretionary相互作用而发展。当生物体在特定区域建立自身时，它们会改变环境，使其更适合其他物种繁荣。这种累积效应导致我们今天在许多生态系统中观察到的丰富生物多样性。物种的逐渐增加及其相互作用可以看作是一个accretionary过程，有助于生态的稳定性和韧性。此外，accretionary增长的概念也可以在经济系统中观察到。经济通常通过资本、资源和创新的逐渐积累而增长。小企业可能起初只是谦逊的事业，但通过持续的努力和再投资，它们可以随着时间的推移显著扩展。这与自然系统中观察到的accretionary增长的性质相似，其中小变化可以导致重大结果。总之，accretionary一词涵盖了不同领域中的一系列过程，从地质学到生态学再到经济学。理解这些过程使我们能够欣赏我们世界的复杂性和相互联系。无论我们是在观察山脉的壮丽崛起、生态系统中生命的复杂网络，还是经济的动态性质，accretionary增长的原则提醒我们，显著的变化往往是逐渐发生的，由无数小贡献在时间中塑造而成。接受这种观点可以激励我们认识到耐心和坚持在我们自己事业中的价值，因为我们驾驭生活的复杂性并努力取得进步。