Five graphics that will change everything you know about mud | Science



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DOUGLAS MAGNO / AFP VIA GETTY IMAGES

By David Malakoff, Nirja Desai, Xing Liu

Glop. Mud. Ooze. Cohesive sediment. Call it what you want, mud – a mixture of fine sediment and water – is one of the most common and important substances on Earth. Not quite a solid, not quite a liquid, mud covers the bottom of our lakes, rivers and seas. It helps form massive floodplains, river deltas, and mud flats that store large amounts of carbon and nutrients, and support vibrant communities of people, flora, and fauna. But mud is also a killer: landslides bury thousands of people every year.

Earth has been a muddy planet for 4 billion years, since water became abundant. But the way it forms and moves has changed dramatically. About 500 million Years ago, the arrival of terrestrial plants accelerated the decomposition of rock into fine particles, slowed runoff and stabilized sediment, allowing thick layers of mud to accumulate in river valleys. The tectonic changes that gave rise to the mountains, as well as the climate changes that increased rainfall, accelerated erosion and helped cover the seabed with mud several hundred meters thick. Over time, many mud deposits have hardened into mudrock, the most abundant rock in geological history, making up about half of all sedimentary formations.

Now humans are a dominant force in the mud world. From around 5,000 years ago, erosion rates exploded in many parts of the world when our ancestors began clearing forests and planting crops. Even more rivers and valleys filled with sediment, changing the landscapes beyond all recognition. In some places, dams and dikes have trapped this mud, preventing fresh sediment from feeding the floodplains, deltas and mudflats and causing them to shrink (see graphic below). And industrial processes have started to produce massive amounts of new forms of sludge – waste from mines and factories – that are loaded with toxic compounds and often stored behind dams that can fail, setting off deadly torrents.

Despite its omnipresence, mud still conceals mysteries. Biologists, for example, are just beginning to grasp the vast menagerie of organisms that live in mud and unravel the remarkable adaptations that allow them to cope with particular challenges, like lack of oxygen. And biogeochemists are still grappling with the huge role sludge plays in the carbon cycle, and therefore influencing the global climate. Problems like this, as the cliché says, are still clear as mud.

Mud in motion

Humans are reshaping the world’s mud supply, altering where and how quickly it accumulates. Thousands of years ago, our ancestors drove erosion rates up by starting to clear forests and plant crops, mud lakes and rivers. Today, deforestation and urbanization are pushing some rivers to carry more sediment, even as dams and efforts to curb erosion block the supply of sediment to other waterways. These changes, along with changes in precipitation brought on by climate change, lead to sometimes dramatic transformations in river deltas, coastal mudflats and the amount of mud that eventually builds up on the seabed.

Present400020006000years agoErosion rate (relative scale)–3–2-101The human footprintAll over the world drilled mud cores lake bottoms show a pattern similar to that found in Lake Dojran in Greece and Macedonia (right): Sedimentation rates increased sharply by about 4000 years ago, as humans began to clear landscapes. At Lake Dojran, researchers used sediment levels of a lithium isotope such as a proxy for erosion.Plowed fieldocean floorFloodplain sedimentSedimentsinkDeletedforestBarrageDeltasTide apartmentsTrap sediment

(Graphic) N. Desai /SCIENCE AND X. Liu /SCIENCE; (DATA) JINREN NI

Large barriersAsian laughedverswere isvse fromworlds muddiest, feeding hughe was born intas the tide goes Floridats. But ththese Femoreres arFrthew ereatened banda phalanXthef hugand dams that prevent sedict Frif rehurt the sea.reeFtherestation leads to bigger deltasreeFtherestation a increased sedifytheannouncements in the Butwithon and thethe South Amerivsa laughverpeach revsent ofvsa des,helpIofeXpanotre ee vsthenottineNTslaughedvis parttas bandsome 16 kilogramseters byandear.A ofvsadal declineAlthough the Nile vsarrieis a thef the worlds thergest sedifytheads tthe theI knowa,damsacrthess AFrivsathew blockkhigh tthe two-examrds theF the sedict that sunk downstream just a few decades ago.The (less) muddy MississippiNoreAmerivsas largegesyou laughedvis at sa sedifytheannouncementsrthep,avsvsherat the lthess theF Its deltone in Louisiana.AmazonParanaBiobioMesandssippiVSupperLenaObANDto onethewANDagtwitheIndusNileRhine VolgaGangaBrahmaputraMekngoXIjiangSagAlOrgisVSsuregtheMygDalenaWITHwithedayRiver flow, cubic meters per second (m3/ s), based on long-term average dischargeFlat tidal surface, square kilometers (km2). Each point represents a grid cell of 1 ° for the period 2014-2016.~ 200,000~ 00ten2030

(Graphic) N. Desai /SCIENCE AND X. Liu /SCIENCE; (DATA) MISSION OF TOPOGRAPHY RADAR HYDROSHEDS / SHUTTLE NASA; MURRAY ET AL., NATURE, 565, 222 (2019)

ParanaLenaRhine-MeuseGodavariGanga-brahmaputraVolgaMekongSenegalNigerMississippiNileCopper RiverYellowten50–5-tenNet Delta Land Change (km2/year)Indonesia14,416China12,049United States6622Brazil5389Australia8866Canada6477India5788Change DeltasMuddy deltas that form where rivers meet the the sea supports rich agricultural lands and ecosystems. A 2020 study of 11,000 deltas found that 9% lost land from 1985 to 2015, while 14% surface area added. Globally, deltas have grown by 54 square kilometers (km2) per year more period, mainly in South America and Asia. The main winners and losers of land.Changing tidesMudflats, vast mud banks that flank numerous coasts are key habitats for marine organismsand seabirds, as well as important players global carbon processing and storage and nutrients. Asian nations have the largest total extensive (below), but other regions have large apartments (above). Sediment reduction the runoff endangers certain apartments; a recent world the study estimates that the apartments have shrunk by at least Clearer watersDeforestation and agriculture have increased sediment some major rivers from 2000 to 2010, in particular in South America. But the dams cut the charges elsewhere, particularly in Asia. A 2019 study on 193 major rivers estimated an overall decline of 20.8% in charge of sediment. Here are the best sediments winners and losers.Ride, muddy riversThe Amazon currently tops the list of 10 biggest sediment carriers to the sea. Other great rivers muddy help make Bangladesh and the main Chinese suppliers of sediments.0200–200–400–600–800Change in annual sediment flux in tonnes (2000–10)Jhuo-shueiLenaObBiobioAmazonYangtzeIndusXijiangYellowMississippiBangladesh1094.96China1083.03Colombia143.59Egypt180Pakistan123.56United States479.53Brazil755.28Nile180Annual total sediment load of top 10 rivers 3860Amazon755.28Tons per yearBrahmaputra739.51Copper218.2Ganga355.45Indus123.56Magdalena143.59Mississippi261.33Yangtze376.33Yellow706.7

(GRAPHIC) N. DESAI and X. LIU /SCIENCE; (DATA) ROTHACKER ET AL., SCI. REPORTS, 8, 247 (2018); AT ET AL., SCI. BULLETIN, 65, 1, 62 (2020); NIEHUIS ET AL., NATURE, 577, 514 (2020); MURRAY ET AL., NATURE, 565, 222 (2019)

History of David Malakoff; graphics by Nirja Desai and Xing Liu.

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