deepwater

简明释义

英[ˈdiːpwɔːtə(r)]美[ˈdipˌwɔtər;ˈdipˌwɑtər]

adj. 深海的

英英释义

单词用法

同义词

反义词

例句

1.The field, which requires further appraisal, was discovered in the Deepwater Tano license.

这块油田经深水钻井平台发现，需要进一步评估。

2.So is Petrobras of Brazil, which operates more deepwater drilling RIGS than any other oil company.

巴西石油公司也一样，它经营比其他石油公司更深的深海钻井装备。

3.Gulf of Mexico Oil Spill Response, the official site of the Deepwater Horizon unified command.

应对墨西哥湾原油泄漏，深水地平线统一指挥官方网站。

4.Deepwater Horizon's failure demoralized the whole nation.

而“深水地平线”的失败则使整个美国都觉面上无光。

5.What looks like a tangle of gnarled cables is in fact a forest of deepwater whip coral in Suruga Bay.

看上去它们好似一丛纠结的电缆，实际上这是骏河湾中一个深海鞭珊瑚林。

6.And that doesn't include the 11 workers who died on the Deepwater Horizon.

而且，这还不包括死于深水地平线的11名工人。

7.But Shell should have learnt from what happened at Deepwater about the importance of public relations.

可是壳牌本应从深海地平线事故中汲取教训，认识到公共关系的重要性。

8.Researchers using robot subs are finding oil coating fragile deepwater coral ecosystems.

研究者用机器人潜水艇发现原油覆盖了脆弱的深海珊瑚植被生态系统。

9.The deepwater 深水 horizon was a significant event in environmental history.

深水 深水地平线事件是环境历史上的一个重大事件。

10.The oil company is exploring new sites for drilling in deepwater 深水 regions.

这家石油公司正在探索新的钻探地点，位于深水 深水区域。

11.Divers are trained to work in deepwater 深水 conditions to recover valuable artifacts.

潜水员接受训练，以便在深水 深水条件下恢复珍贵的文物。

12.Marine biologists study the ecosystems found in deepwater 深水 habitats.

海洋生物学家研究在深水 深水栖息地中发现的生态系统。

13.Fishing in deepwater 深水 areas requires specialized equipment.

在深水 深水区域捕鱼需要专业设备。

作文

The term deepwater refers to areas of the ocean that are significantly deeper than the continental shelf, typically beyond 200 meters. These regions are crucial for various ecological and economic reasons. The exploration and understanding of deepwater environments have grown in importance as we seek to comprehend the biodiversity that exists in these depths. Scientists estimate that around 90% of the ocean's total volume is classified as deepwater, making it a vast and largely unexplored frontier. One of the most intriguing aspects of deepwater ecosystems is their unique biodiversity. Organisms found in these environments often exhibit extraordinary adaptations to survive in extreme conditions, such as high pressure, low temperatures, and complete darkness. For instance, species like the giant squid and various types of bioluminescent jellyfish thrive in deepwater habitats. These adaptations not only fascinate researchers but also highlight the resilience of life in seemingly inhospitable conditions. Moreover, deepwater regions play a significant role in global climate regulation. They act as carbon sinks, absorbing large amounts of carbon dioxide from the atmosphere. This process helps mitigate climate change effects, underscoring the importance of protecting these areas from human activities such as deep-sea mining and overfishing. As industries continue to expand into deepwater territories, the potential for ecological damage increases, making conservation efforts critical. In addition to ecological significance, deepwater zones are economically important as well. They are rich in resources such as oil, gas, and minerals. The extraction of these resources has led to advancements in technology and engineering, enabling humans to reach depths previously thought impossible. However, this pursuit comes with environmental risks, including oil spills and habitat destruction. Therefore, it is essential to balance economic interests with the need to preserve deepwater ecosystems. Research into deepwater environments has also opened up new avenues for scientific discovery. Advances in submersible technology have allowed scientists to explore these depths more effectively, leading to the discovery of new species and ecosystems. Each expedition reveals more about the complexities of life beneath the waves and the intricate relationships that exist within deepwater habitats. Education and public awareness about the significance of deepwater ecosystems are vital for fostering a sense of stewardship among future generations. Initiatives aimed at promoting marine conservation can help ensure that these precious environments are preserved for years to come. By understanding the importance of deepwater regions, we can advocate for policies that protect these areas from exploitation and degradation. In conclusion, the concept of deepwater encompasses not only the physical characteristics of the ocean's depths but also the ecological, economic, and scientific dimensions that come with it. As we continue to explore and study these mysterious regions, it is our responsibility to safeguard them for future generations. The health of our planet depends on the vitality of these deepwater ecosystems, reminding us of the interconnectedness of all life on Earth.

“深水”一词是指海洋中远离大陆架的区域，通常深度超过200米。这些区域在生态和经济方面都至关重要。随着我们努力理解这些深度环境中的生物多样性，对“深水”环境的探索和理解变得越来越重要。科学家估计，大约90%的海洋总量被归类为“深水”，使其成为一个广阔且大部分未被探索的前沿。“深水”生态系统中最引人入胜的一个方面是它们独特的生物多样性。在这些环境中发现的生物通常表现出非凡的适应能力，以在极端条件下生存，例如高压、低温和完全黑暗。例如，巨型鱿鱼和各种发光水母等物种在“深水”栖息地中茁壮成长。这些适应能力不仅令研究人员着迷，还突显了生命在看似不适宜的条件下的韧性。此外，“深水”区域在全球气候调节中也发挥着重要作用。它们作为碳汇，从大气中吸收大量二氧化碳。这一过程有助于减轻气候变化的影响，强调了保护这些区域的重要性，以免受到深海采矿和过度捕捞等人类活动的影响。随着各行业继续向“深水”领土扩展，生态破坏的潜力增加，使得保护工作至关重要。除了生态重要性外，“深水”区域在经济上也同样重要。它们富含石油、天然气和矿产等资源。这些资源的开采推动了技术和工程的发展，使人类能够达到以前认为不可能的深度。然而，这种追求伴随着环境风险，包括石油泄漏和栖息地破坏。因此，平衡经济利益与保护“深水”生态系统的需求至关重要。对“深水”环境的研究还开启了科学发现的新途径。潜水器技术的进步使科学家能够更有效地探索这些深度，从而发现了新的物种和生态系统。每次探险都揭示了更多关于波浪下生活的复杂性以及“深水”栖息地内存在的复杂关系。提高公众对“深水”生态系统重要性的认识对于培养未来几代人的责任感至关重要。旨在促进海洋保护的倡议可以帮助确保这些珍贵环境在未来得到保护。通过理解“深水”区域的重要性，我们可以倡导政策以保护这些地区免受开发和退化。总之，“深水”的概念不仅包括海洋深处的物理特征，还涵盖了随之而来的生态、经济和科学维度。随着我们继续探索和研究这些神秘的区域，我们有责任为未来的世代保护它们。我们星球的健康依赖于这些“深水”生态系统的活力，提醒我们地球上所有生命的相互联系。