More room at the top: how small buoys aim at the detailed dynamics of the air-sea interface

TL;DR

This paper discusses how small, cost-effective buoys can be deployed in large numbers to improve understanding of air-sea interactions, especially during stormy conditions, by providing detailed and distributed measurements.

Contribution

It reviews current miniature buoy technologies, their applications, and future prospects for enhancing air-sea exchange process observations.

Findings

Miniature buoys enable detailed, distributed measurements of the air-sea interface.

They are particularly useful for studying white-capping and stormy conditions.

Technological advancements are expanding their practical and scientific applications.

Abstract

Air-sea exchange processes have been identified as essential for both short- and long-term atmospheric and ocean forecasts. The two phases of the fluid layer covering our planet interact across a vast range of scales that we need to explore to achieve a better understanding of the exchange processes. While satellites provide a distributed large-scale view of the sea surface situation, highly detailed measurements, e.g., from oceanographic towers, are necessarily local. The required intermediate solution (i.e., data that are both accurate and distributed) can be provided by swarms of miniature surface buoys. As size, weight, and cost are reduced, these can be deployed in large numbers to investigate specific processes that are at present only crudely parameterized in our models as a result of scarcity of good measurements. Perhaps the most crucial process is white-capping in stormy conditions, where air-sea exchanges are enhanced by one or two orders of magnitude. Other applications include wave-current interactions, wave-ice interactions, and plunging breakers in the coastal zone. Following a dedicated workshop, we summarize here the main findings and possibilities derived from the different approaches, and summarize the state of the art for a selection of miniature buoys. We list the solutions presented at the workshop, as well as other similar buoys, with their main characteristics and range of application. We describe the various possibilities of practical use and the scientific and engineering problems to be solved. Looking to the future, we also point out where the present technological improvements are leading to.