corrugated ripple mark

简明释义

1. 皱纹状波痕; 2. S形对称波痕;

英英释义

例句

1.During the field trip, we observed a series of corrugated ripple mark formations along the riverbank.

在实地考察中，我们观察到河岸上有一系列的波纹状起伏痕迹形成。

2.The fossilized corrugated ripple mark found in the limestone suggests that this area was once underwater.

在石灰岩中发现的化石化的波纹状起伏痕迹表明该地区曾经在水下。

3.The artist used the texture of corrugated ripple mark to inspire her new sculpture design.

这位艺术家使用波纹状起伏痕迹的纹理来激发她的新雕塑设计灵感。

4.The geologist noted the presence of corrugated ripple mark in the sedimentary rock, indicating ancient water flow.

地质学家注意到沉积岩中存在波纹状起伏痕迹，这表明古代水流的存在。

5.In the laboratory, we studied the corrugated ripple mark patterns under a microscope to understand their formation.

在实验室里，我们在显微镜下研究了波纹状起伏痕迹的模式，以了解它们的形成。

作文

The natural world is filled with fascinating geological features that tell stories of the Earth's history and processes. One such feature that captures the imagination of geologists and nature enthusiasts alike is the corrugated ripple mark. These unique formations are typically found in sedimentary rock layers and are formed by the movement of water over sand or mud. The term corrugated ripple mark refers to the wavy, ridged patterns that are created when water flows over a surface, leaving behind a distinct texture that resembles ripples or waves. This phenomenon can be observed in various environments, including riverbeds, beaches, and ocean floors.The formation of corrugated ripple marks is a result of several factors, including the speed of the water flow, the size of the sediment particles, and the angle at which the water interacts with the surface. When water flows rapidly over loose sediment, it can create small waves that push the sand or mud into ridges. These ridges are often symmetrical and can vary in height and spacing, depending on the conditions present during their formation.Geologists study corrugated ripple marks not only for their aesthetic appeal but also for the insights they provide into past environmental conditions. By analyzing these patterns, scientists can infer the direction of ancient water flow, the energy of the environment, and even the types of organisms that may have lived in the area at the time. For example, if ripple marks are found in a layer of rock that has fossilized remains of marine life, it can indicate that the area was once underwater, offering a glimpse into the Earth’s dynamic history.In addition to their scientific significance, corrugated ripple marks also hold cultural importance. Many artists and photographers are drawn to these natural patterns, using them as inspiration for their work. The rhythmic lines and textures can evoke feelings of tranquility and connection to nature, making them popular subjects in visual arts. Furthermore, these formations can serve as a reminder of the power of natural forces and the ever-changing landscape of our planet.The study of corrugated ripple marks extends beyond academia and art; it also has practical applications in fields such as civil engineering and environmental science. Understanding how these patterns form and change can help engineers design more effective structures that can withstand the forces of nature. Moreover, recognizing the presence of ripple marks in sediment can inform conservation efforts, guiding decisions about land use and habitat protection.In conclusion, corrugated ripple marks are much more than just visually striking geological features. They are key indicators of historical environmental conditions and serve as a bridge between science, art, and engineering. As we continue to explore and understand these formations, we gain valuable insights into the Earth’s past and the intricate processes that shape our planet. Whether you are a scientist, an artist, or simply a lover of nature, the beauty and significance of corrugated ripple marks are sure to inspire awe and curiosity about the world around us.

自然界充满了迷人的地质特征，这些特征讲述了地球的历史和过程。其中一个吸引地质学家和自然爱好者想象力的特征是波纹状皱褶痕。这些独特的形态通常在沉积岩层中发现，由水流在沙子或泥土上移动而形成。术语波纹状皱褶痕指的是当水流过表面时留下的波浪状、起伏的图案，这种图案呈现出类似涟漪或波浪的独特纹理。这种现象可以在各种环境中观察到，包括河床、海滩和海底。波纹状皱褶痕的形成是由多个因素造成的，包括水流的速度、沉积物颗粒的大小以及水与表面相互作用的角度。当水快速流过松散的沉积物时，可以形成小波浪，将沙子或泥土推成脊。这些脊通常是对称的，高度和间距可能会有所不同，具体取决于形成时的条件。地质学家研究波纹状皱褶痕不仅因为它们的美学吸引力，还因为它们提供了关于过去环境条件的见解。通过分析这些图案，科学家可以推断出古代水流的方向、环境的能量，甚至是当时可能生活在该地区的生物类型。例如，如果在一层含有海洋生物化石的岩石中发现波纹痕迹，这可能表明该地区曾经在水下，从而提供了对地球动态历史的洞察。除了科学意义外，波纹状皱褶痕在文化上也具有重要性。许多艺术家和摄影师被这些自然图案吸引，将其作为创作的灵感来源。节奏感强烈的线条和纹理可以唤起宁静和与自然的联系，使其成为视觉艺术中的热门主题。此外，这些形态可以提醒人们自然力量的强大以及我们星球不断变化的景观。对波纹状皱褶痕的研究超越了学术和艺术；它在土木工程和环境科学等领域也具有实际应用。了解这些图案如何形成和变化可以帮助工程师设计更有效的结构，以抵御自然力量。此外，识别沉积物中波纹痕迹的存在可以为保护工作提供信息，指导土地使用和栖息地保护的决策。总之，波纹状皱褶痕远不止是视觉上引人注目的地质特征。它们是历史环境条件的关键指标，是科学、艺术和工程之间的桥梁。随着我们继续探索和理解这些形态，我们获得了对地球过去及塑造我们星球的复杂过程的宝贵见解。无论你是科学家、艺术家，还是仅仅是热爱自然的人，波纹状皱褶痕的美丽和重要性一定会激发你对周围世界的敬畏和好奇。