3D ocean map tracks ecosystems

A new tool to divide water masses into precise categories can help in conservation planning.

A new 3D map sorts global water masses — from deep, frigid circumpolar waters to the oxygen-starved Black Sea — into 37 categories.

The map groups together marine regions of similar temperature, salinity, oxygen and nutrient levels. It has been available for only a few months, and researchers are still working through how they might use it. But its international team of developers hopes that the map will help conservationists, government officials and others to better understand the biogeography of the oceans and make decisions about which areas to preserve. It could also serve as a data-rich baseline for analysing future ocean changes.

Ecological marine units

Many existing systems also attempt to classify variations in the ocean, such as lists of large marine ecosystems or the Longhurst biogeographical provinces that are defined by the rate at which ocean life consumes carbon. But these are often limited to surface or coastal ecosystems. The latest effort, known as the ecological marine units (EMUs), is the most detailed attempt yet to cover the global ocean in three dimensions.

Esri launched a web portal for the EMU data in September and has been promoting it ever since.

EMUs can help to reveal why marine animals live where they do. In the eastern tropical Pacific Ocean the mapping shows a complex interplay between oxygen-rich and oxygen-poor waters. The boundary of the low-oxygen zone shifts towards the surface in some spots and dips deeper in others.

Such data could guide the United Nations’ effort to designate a series of ecologically or biologically significant marine areas to focus future conservation efforts. Looking at the distribution of EMUs could help officials to pinpoint the boundaries of those areas, or to make sure they are designating enough waters to capture all the biogeographic diversity.

The initial project

The creation of the EMUs is the second step in a project that started with similar mapping on land, with the categorisation of terrestrial eco­systems. Researchers, including some at Esri, combined information on geology and vegetation to generate nearly 4,000 ‘ecological land units’. One example might be warm, wet plains, on metamorphic rock, with mostly deciduous forest.

The team then moved their focus from land to the oceans. They began with 52 million data points in the World Ocean Atlas maintained by the US National Oceanic and Atmospheric Administration. These include information on chemical and physical parameters gathered every 27 kilometres to create a 3D grid. The team added other data such as the shape of the sea floor and used statistical techniques to group the results into categories.

EMU maps

The resulting EMUs include the deep, very cold, low-oxygen waters that encompass roughly one-quarter of the world’s oceans. Others are much smaller, such as the upper waters of the Red Sea, or the dilute estuaries of several Northern Hemisphere rivers.

For now, the EMU maps rely on data averaged over five decades. Looking at conditions over shorter periods of time, such as seasons, would provide more helpful detail and to monitor change over decades, the EMU team would need to recalculate its maps every five years or more.

The EMU developers say that future iterations of the system could tackle such issues. For now, they are hoping to expand on the land and marine units by creating new categories for coastal and freshwater ecosystems.

More information

Many scientists are already asking if the data products from this project are downloadable or reusable. For this please go directly to the ESRI website

You can read the full article in Nature as written by Alexandra Witze.

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