Infographic: Which Countries are Mapping the Ocean Floor?
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Which Countries are Mapping the Ocean Floor?

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Which countries are mapping the ocean floor?

Which Countries are Mapping the Ocean Floor?

Our vast and complex planet is becoming less mysterious with each passing day.

Consider the following:

  • Thousands of satellites are now observing every facet of our planet
  • Around three-quarters of Earth’s land surface is now influenced by human activity
  • Aircraft-based LIDAR mapping is creating new models of the physical world in staggering detail

But, despite all of these impressive advances, our collective knowledge of the ocean floor still has some surprising blind spots.

Today’s unique map from cartographer Andrew Douglas-Clifford (aka The Map Kiwi) focuses on ocean territory instead of land, highlighting the vast areas of the ocean floor that remain unmapped. Which countries are exploring their offshore territory, and how much of the ocean floor still remains a mystery to us? Let’s dive in.

What Do We Know Right Now?

Today, we have a surprisingly incomplete picture of what lies beneath the waves. In fact, if you were to fly from Los Angeles to Sydney, the bulk of your journey would take place over territory that is mapped in only the broadest sense.

Most of what we know about the ocean floor’s topography was pieced together from gravity data gathered by satellites. While useful as a starting point, the resulting spatial resolution is about two square miles (5km). By comparison, topographic maps of Mars and Venus have a resolution that’s 50x more detailed.

As the map above clearly illustrates, only a few large pieces of the ocean have been mapped—and not surprisingly, many of these higher resolution portions lie along the world’s shipping lanes.

Another way to see this clear difference in resolution is through Google Maps:

As you can see above, these shipping lanes running through the Pacific Ocean have been mapped at a higher resolution that the surrounding ocean floor.

The Countries Mapping the Ocean Floor

The closer an area is to a population center, the higher the likelihood it has been mapped. That said, many countries still have a long way to go before they have a clear picture of their land beneath the waves.

Here is a snapshot of how far along countries are in their subsea mapping efforts:

Countries/territoriesSize of Exclusive Economic Zone* (EEZ)Percentage of EEZ mapped
Japan1,729,501 mi² (4,479,388 km²)97.7%
United Kingdom2,627,651 mi² (6,805,586 km²)90.6%
Norway920,922 mi² (2,385,178 km²)81.9%
New Zealand1,576,742 mi² (4,083,744 km²)74.0%
United States4,382,645 mi² (11,351,000 km²)69.9%
Australia3,283,933 mi² (8,505,348 km²)64.9%
Iceland291,121 mi² (754,000 km²)49.9%
South Africa592,874 mi² (1,535,538 km²)39.5%
Canada2,161,815 mi² (5,599,077 km²)38.8%
Samoa49,401 mi² (127,950 km²)34.6%
South Korea183,579 mi² (475,469 km²)28.3%
Taiwan32,135 mi² (83,231 km²)26.3%
Argentina447,516 mi² (1,159,063 km²)22.6%
Cook Islands756,770 mi² (1,960,027 km²)29.0%
Phillippines614,203 mi² (1,590,780 km²)16.7%
China338,618 mi² (877,019 km²)11.4%
Madagascar473,075 mi² (1,225,259 km²)5.5%
Bangladesh45,873 mi² (118,813 km²)3.3%
Thailand115,597 mi² (299,397 km²)1.5%

*An exclusive economic zone (EEZ) is the sea zone stretching 200 nautical miles (nmi) from the coast of a state.

Japan and the UK, which have the 5th and 8th largest EEZs respectively, are the clear leaders in mapping their ocean territory.

Piecing Together the Puzzle

Sometimes tragedy can have a silver lining. By the time the search for Malaysia Airlines Flight 370 concluded in 2014, scientists had gained access to more than 100,000 square miles of newly mapped sections of the Indian Ocean.

Of course, it will take a more systematic approach and sustained effort to truly map the world’s ocean floors. Thankfully, a project called Seabed 2030 has the ambitious goal of mapping the entire ocean floor by 2030. The organization is collaborating with existing mapping initiatives in various regions to compile bathymetric information (undersea map data).

It’s been said without hyperbole that we know more about the surface of Mars than we do about our own planet’s seabed, but thanks to the efforts of Seabed 2030 and other initiatives around the world, puzzle pieces are finally falling into place.

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The World’s 25 Largest Lakes, Side by Side

This unique map graphic uses the Great Lakes region as a point of comparison for the top 25 largest lakes in the world.

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The World’s 25 Largest Lakes, Side by Side

In many parts of the world, you don’t have to look very far to find a lake.

According to satellite data, there are roughly 100 million lakes larger than one hectare (2.47 acres) to be found globally. The largest lakes, which rival the size of entire nations, are more of a rarity.

One might expect the world’s largest lakes to be very alike, but from depth to saline content, their properties can be quite different. As well, the ranking of the world’s largest lakes is far from static, as human activity can turn a massive body of water into a desert within a single generation.

Today’s graphic – created using the fantastic online tool, Slap It On A Map! – uses the Great Lakes region as a point of comparison for the largest 25 lakes, by area. This is particularly useful in comparing the scale of lakes that are located in disparate parts of the globe.

The Greatest Lakes

The largest lake in the world by a long shot is the Caspian Sea – a name that hints at a past when it was contiguous with the ocean around 11 million years ago. This massive saline lake, which is nearly the same size as Japan, borders five countries: Kazakhstan, Russia, Turkmenistan, Azerbaijan, and Iran. An estimated 48 billion barrels of oil lay beneath the surface of the basin.

The five Great Lakes, which run along the Canada–U.S. border, form one of the largest collections of fresh water on Earth. This interconnected series of lakes represents around 20% of the world’s fresh water and the region supports over 100 million people, roughly equal to one-third of the Canada–U.S. population.

Amazingly, a single lake holds as much fresh water as all the Great Lakes combined – Lake Baikal. This rift lake in Siberia has a maximum depth of 5,371ft (1,637m). For comparison, the largest of the Great Lakes (Lake Superior) is only 25% as deep, with a maximum depth of 1,333ft (406m). Lake Baikal is unique in a number of other ways too. It is the world’s oldest, coldest lake, and around 80% of its animal species are endemic (not found anywhere else).

Here’s a full run-down of the top 25 lakes by area:

RankLake NameSurface AreaTypeCountries on shoreline
1Caspian Sea143,000 sq mi
(371,000km²)
Saline🇰🇿 Kazakhstan
🇷🇺 Russia
🇹🇲 Turkmenistan
🇦🇿 Azerbaijan
🇮🇷 Iran
2Superior31,700 sq mi
(82,100km²)
Freshwater🇨🇦 Canada
🇺🇸 U.S.
3Victoria26,590 sq mi
(68,870km²)
Freshwater🇺🇬 Uganda
🇰🇪 Kenya
🇹🇿 Tanzania
4Huron23,000 sq mi
(59,600km²)
Freshwater🇨🇦 Canada
🇺🇸 U.S.
5Michigan22,000 sq mi
(58,000km²)
Freshwater🇺🇸 U.S.
6Tanganyika12,600 sq mi
(32,600km²)
Freshwater🇧🇮 Burundi
🇹🇿 Tanzania
🇿🇲 Zambia
🇨🇩 D.R.C.
7Baikal12,200 sq mi
(31,500km²)
Freshwater🇷🇺 Russia
8Great Bear Lake12,000 sq mi
(31,000km²)
Freshwater🇨🇦 Canada
9Malawi11,400 sq mi
(29,500km²)
Freshwater🇲🇼 Malawi
🇲🇿 Mozambique
🇹🇿 Tanzania
10Great Slave Lake10,000 sq mi
(27,000km²)
Freshwater🇨🇦 Canada
11Erie9,900 sq mi
(25,700km²)
Freshwater🇨🇦 Canada
🇺🇸 U.S.
12Winnipeg9,465 sq mi
(24,514km²)
Freshwater🇨🇦 Canada
13Ontario7,320 sq mi
(18,960km²)
Freshwater🇨🇦 Canada
🇺🇸 U.S.
14Ladoga7,000 sq mi
(18,130km²)
Freshwater🇷🇺 Russia
15Balkhash6,300 sq mi
(16,400km²)
Saline🇰🇿 Kazakhstan
16Vostok4,800 sq mi
(12,500km²)
Freshwater🇦🇶 Antarctica
17Onega3,700 sq mi
(9,700km²)
Freshwater🇷🇺 Russia
18Titicaca3,232 sq mi
(8,372km²)
Freshwater🇧🇴 Bolivia
🇵🇪 Peru
19Nicaragua3,191 sq mi
(8,264km²)
Freshwater🇳🇮 Nicaragua
20Athabasca3,030 sq mi
(7,850km²)
Freshwater🇨🇦 Canada
21Taymyr2,700 sq mi
(6,990km²)
Freshwater🇷🇺 Russia
22Turkana2,473 sq mi
(6,405km²)
Saline🇰🇪 Kenya
🇪🇹 Ethiopia
23Reindeer Lake2,440 sq mi
(6,330km²)
Freshwater🇨🇦 Canada
24Issyk-Kul2,400 sq mi
(6,200km²)
Saline🇰🇬 Kyrgyzstan
25Urmia2,317 sq mi
(6,001km²)
Saline🇮🇷 Iran

The Great Lakes World Tour

For people living in Canada and the U.S., the shape and relative size of the Great Lakes system may be quite familiar. This makes the Great Lakes a fantastic point of comparison to help put the size of other world locations into perspective. To this end, we begin our Great Lakes World Tour.

First, the image below shows how the Great Lakes system would look if it was located in India.

great lakes compared with india

Distortions on commonly used maps can downplay the size of India compared to more northern nations. This view of the Great Lakes can help put India’s true size into perspective.

Next, we look at the Great Lakes overlaid within Central Europe.

great lakes compared with europe

In the context of Europe, the lakes are so large that they extend from the Netherlands over to Slovakia. Lake Superior’s surface area of 31,700 mi2 (82,000 km2), is similar in size to Austria. Here’s are the five Great Lakes and European countries of equivalent size:

Great LakesSurface AreaEquivalent CountryArea
Lake Superior82,000 km2 (31,700 sq mi)🇦🇹 Austria83,879 km2 (32,386 sq mi)
Lake Huron60,000 km2 (23,000 sq mi)🇱🇻 Latvia64,589 km2 (24,938 sq mi)
Lake Michigan58,000 km2 (22,300 sq mi)🇭🇷 Croatia56,594 km2 (21,851 sq mi)
Lake Erie25,700 km2 (9,910 sq mi)🇲🇰 North Macedonia25,713 km2 (9,928 sq mi)
Lake Ontario19,000 km2 (7,340 sq mi)🇸🇮 Slovenia20,271 km2 (7,827 sq mi)

Lastly, here is a look at the Great Lakes in Southern Australia. Australia is the world’s 6th largest country, so the Great Lakes only occupy one corner of its land mass.

great lakes compared with Australia

Australia’s lack of glacial history means that there are few permanent freshwater lakes in the country. Many of the country’s largest lakes only fill up during periods of excessive rainfall.

Shrinking out of the rankings

Not far from the world’s largest lake, straddling the border between Kazakhstan and Uzbekistan, lay the sand dunes of the Aralkum Desert. In the not so distant past, this harsh environment was actually the bed of one of the largest lakes in the world – the Aral Sea.

Aral Sea receding 1960 2020

For reasons both climatic and anthropogenic, the Aral Sea began receding in the 1960s. This dramatic change in surface area took the Aral Sea from the fourth largest lake on Earth to not even ranking in the top 50. Researchers note that the size of the lake has fluctuated a lot over history, but through the lens of modern history these recent changes happened rapidly, leaving local economies devastated and former shoreside towns landlocked.

Lake Chad, in Saharan Africa, and Lake Urmia, in Iran, both face similar challenges, shrinking dramatically in recent decades.

How we work to reverse damage and avoid ecosystem collapse in vulnerable lakes will have a big influence on how the top 25 list may look in future years.

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All the Biomass of Earth, in One Graphic

Our planet supports nearly 8.7 million species. We break down the total composition of the living world in terms of its biomass.

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All the Biomass of Earth, in One Graphic

Our planet supports approximately 8.7 million species, of which over a quarter live in water.

But humans can have a hard time comprehending numbers this big, so it can be difficult to really appreciate the breadth of this incredible diversity of life on Earth.

In order to fully grasp this scale, we draw from research by Bar-On et al. to break down the total composition of the living world, in terms of its biomass, and where we fit into this picture.

Why Carbon?

A “carbon-based life form” might sound like something out of science fiction, but that’s what we and all other living things are.

Carbon is used in complex molecules and compounds—making it an essential part of our biology. That’s why biomass, or the mass of organisms, is typically measured in terms of carbon makeup.

In our visualization, one cube represents 1 million metric tons of carbon, and every thousand of these cubes is equal to 1 Gigaton (Gt C).

Here’s how the numbers stack up in terms of biomass of life on Earth:

TaxonMass (Gt C)% of total
Plants45082.4%
Bacteria7012.8%
Fungi122.2%
Archaea71.3%
Protists40.70%
Animals2.5890.47%
Viruses0.20.04%
Total545.8100.0%

Plants make up the overwhelming majority of biomass on Earth. There are 320,000 species of plants, and their vital photosynthetic processes keep entire ecosystems from falling apart.

Fungi is the third most abundant type of life—and although 148,000 species of fungi have been identified by scientists, it’s estimated there may be millions more.

Animals: A Drop in the Biomass Ocean

Although animals make up only 0.47% of all biomass, there are many sub-categories within them that are worth exploring further.

TaxonMass (Gt C)% of Animal Biomass
Arthropods (Marine)1.038.6%
Fish0.727.0%
Arthropods (Terrestrial)0.27.7%
Annelids0.27.7%
Mollusks0.27.7%
Livestock0.13.9%
Cnidarians0.13.9%
Humans0.062.3%
Nematodes0.020.8%
Wild mammals0.0070.3%
Wild birds0.0020.1%
Animals (Total)2.589100.0%

Arthropods

Arthropods are the largest group of invertebrates, and include up to 10 million species across insects, arachnids, and crustaceans.

Chordates

The category of chordates includes wild mammals, wild birds, livestock, humans, and fish. Across 65,000 living species in total, nearly half are bony fish like piranhas, salmon, or seahorses.

Surprisingly, humans contribute a relatively small mass compared to the rest of the Animal Kingdom. People make up only 0.01% of all the biomass on the planet.

Annelids, Mollusks, Cnidarians, and Nematodes

Annelids are segmented worms like earthworms or leeches, with over 22,000 living species on this planet. After arthropods, mollusks are the second-largest group of invertebrates with over 85,000 living species. Of these, 80% are snails and slugs.

Cnidarians are a taxon of aquatic invertebrates covering 11,000 species across various marine environments. These include jellyfish, sea anemone, and even corals.

Nematodes are commonly referred to as roundworms. These sturdy critters have successfully adapted to virtually every kind of ecosystem, from polar regions to oceanic trenches. They’ve even survived traveling into space and back.

The Microscopic Rest

Beyond these animals, plants, and fungi, there are an estimated trillion species of microbes invisible to the naked eye—and we’ve probably only discovered 0.001% of them so far.

Bacteria

Bacteria were one of the first life forms to appear on Earth, and classified as prokaryotes (nucleus-less). Today, they’re the second-largest composition of biomass behind plants. Perhaps this is because these organisms can be found living literally everywhere—from your gut to deep in the Earth’s crust.

Researchers at the University of Georgia estimate that there are 5 nonillion bacteria on the planet—that’s a five with 30 zeros after it.

Protists and Archaea

Protists are mostly unicellular, but are more complex than bacteria as they contain a nucleus. They’re also essential components of the food chain.

Archaea are single-celled microorganisms that are similar to bacteria but differ in compositions. They thrive in extreme environments too, from high temperatures above 100°C (212°F) in geysers to extremely saline, acidic, or alkaline conditions.

Viruses

Viruses are the most fascinating category of biomass. They have been described as “organisms at the edge of life,” as they are not technically living things. They’re much smaller than bacteria—however, as the COVID-19 pandemic has shown, their microscopic effects cannot be understated.

The Earth’s Biomass, Under Threat

Human activities are having an ongoing impact on Earth’s biomass.

For example, we’ve lost significant forest cover in the past decades, to make room for agricultural land use and livestock production. One result of this is that biodiversity in virtually every region is on the decline.

Will we be able to reverse this trajectory and preserve the diversity of all the biomass on Earth, before it’s too late?

Editor’s note: This visualization was inspired by the work of Javier Zarracina for Vox from a few years ago. Our aim with the above piece was to recognize that while great communication needs no reinvention, it can be enhanced and reimagined to increase editorial impact and help spread knowledge to an even greater share of the population.

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