3: Science Aboard Ships

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Page ID: 31566

W. Sean Chamberlin, Nicki Shaw, and Martha Rich
Fullerton College via Blue Planet Publishing

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We can never know for sure who was the first person to dive beneath the waves in search of food or artifacts, but we do know that ancient peoples—perhaps as far back as one hundred thousand years ago—collected shells, shellfish, and other valuable undersea resources along the coastline (e.g., Will et al. 2019). As human use of the ocean grew for military, economic, and industrial purposes, so too did the need to know more about the ocean. Studies of marine biology, oceanography, and fisheries emerged as scientific quests to acquire knowledge of the sea for human purposes (e.g., Mills 2012).

In the next three chapters, we explore the approaches and technologies used to carry out ocean science—the methods of an oceanographer. Admittedly, a tour of methods might seem a bit like wandering through a home improvement store. (Indeed, oceanographers often shop at these stores—you can never have enough duct tape on board a rolling ship.) But a brief survey of these technologies will help you appreciate the myriad ways in which oceanographers are probing the world ocean. This appreciation will help you better understand the team approach to ocean science and the interconnectedness of processes in the world ocean.

My friend and colleague University of California (UC) Santa Barbara physical oceanographer Tommy Dickey (b. 1945) spent his career pushing the boundaries of ocean science through application of new technology. In his 2020 paper “New Discoveries Enabled by the Emergence of High-Resolution, Long-Term Interdisciplinary Ocean Observations,” he wrote:

The vastness and inhospitable nature of our oceans has limited our ability to understand oceanic phenomena and to make ocean predictions. Great progress in sampling the vertical and temporal variability of the ocean was made with new sensors and moorings in the period of 1980–2000; however there remain major challenges to adequately sample the full three-dimensional and temporal variability of the interior ocean.

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