Land

Land is often defined as the solid, dry surface of Earth.^[1]The wordlandmay also collectively refer the collectivenatural resourcesof Earth,^[2]including itsland cover,rivers,shallowlakes,itsbiosphere,the lowest layer of the atmosphere (troposphere),groundwaterreserves, and the physical results of human activity on land, such asarchitectureand agriculture.^[3]The boundary between land and sea is called theshoreline.^{[4]: 625 [5]}

The wordlandis derived fromOld English,from theProto-Germanicword*landą,"untilled land", and then theProto-Indo-European*lendʰ-,especially in northern regions that were home to languages likeProto-CelticandProto-Slavic.Examples includeOld Irishland,"land, plot, church building" andOld Irishithlann,"threshing floor", andOld East Slavicljadina"wasteland, weeds".^[2]

Acountryornationmay be referred to as themotherland,fatherland,orhomelandof its people.^[6]: 43Many countries and other places have names incorporating the suffix-land(e.g.England,^[7]Greenland,^[8]andNew Zealand^[9]). The equivalent suffix-stanfromIndo-Iranian,ultimately derived from theProto-Indo-Iranian*sthāna-,^[10]is also present in many country and location names, such asPakistan,Afghanistan,and others throughoutCentral Asia.^[11]The suffix is also used more generally, as inPersianrigestân(ریگستان) "place of sand, desert",golestân(گلستان) "place of flowers, garden",gurestân(گورستان) "graveyard, cemetery",^[12]andHindustân(هندوستان) "land of theIndopeople ".^[13]

The study of land and its history in general is calledgeography.Mineralogyis the study of minerals, andpetrologyis the study of rocks.Soil scienceis the study of soils, encompassing the sub-disciplines ofpedology,which focuses on soil formation, andedaphology,which focuses on the relationship between soil and life.

The earliest material found in the Solar System is dated to4.5672±0.0006bya(billion years ago);^[14]therefore, the Earth itself must have been formed byaccretionaround this time. Theformation and evolution of the Solar Systembodies occurred in tandem with the Sun. In theory, asolar nebulapartitions a volume out of amolecular cloudby gravitational collapse, which begins to spin and flatten into acircumstellar disc,out of which the planets then grow (in tandem with the star). A nebula contains gas, ice grains anddust(includingprimordial nuclides). Innebular theory,planetesimalsbegin to form asparticulatematter accumulates bycohesive clumpingand then by gravity. The primordial Earth's assembly took 10–20myr.^[15]By4.54±0.04 bya,the primordial Earth had formed.^[16][17]

Earth's atmosphere and oceans were formed byvolcanicactivity andoutgassingthat includedwater vapour.Theorigin of the world's oceanswas condensation augmented by water and ice delivered byasteroids,protoplanets,andcomets.^[18]Inthis model,atmospheric "greenhouse gases"kept the oceans from freezing while the newly formed Sun was only at 70%luminosity.^[19]By3.5 bya,theEarth's magnetic fieldwas established, which helped prevent the atmosphere from being stripped away by thesolar wind.^[20]The atmosphere and oceans of the Earth continuously shape the land by eroding and transporting solids on the surface.^[21]

Earth's crust formed when the molten outer layer of the planet Earth cooled toform a solid mass^[22]as the accumulated water vapour began to act in the atmosphere. Once land became capable of supporting life, biodiversity evolved over hundreds of millions of years, expanding continually except when punctuated by mass extinctions.^[23]

The two models^[24]that explain land mass propose either a steady growth to the present-day forms^[25]or, more likely, a rapid growth^[26]early in Earth history^[27]followed by a long-term steady continental area.^[28][29][30]Continentsare formed byplate tectonics,a process ultimately driven by the continuous loss of heat from the Earth's interior. Ontime scaleslasting hundreds of millions of years, thesupercontinentshave formed and broken apart three times. Roughly750mya(million years ago), one of the earliest known supercontinents,Rodinia,began to break apart.^[31]The continents later recombined to formPannotia,600–540 mya,then finallyPangaea,which also broke apart180 mya.^[32]

A continuous area of land surrounded by an ocean is called a landmass. Although it is most often written as one word to distinguish it from the usage "land mass" —the measure of land area—it may also be written as two words.^[33]There are four major continuous landmasses on Earth:Afro-Eurasia,America (landmass),Antarctica,andAustralia (landmass),which are subdivided into continents.^[34]Up to seven geographical regions are commonly regarded as continents. Ordered from greatest to least land area, these continents areAsia,Africa,North America,South America,Antarctica,Europe,andAustralia.^[35]

Terrain refers to an area of land and its features.^[36]Terrain affects travel, mapmaking, ecosystems, and surfacewater flowand distribution. Over a large area, it can influence climate and weather patterns. The terrain of a region largely determines its suitability for human settlement: flatteralluvial plainstend to have better farming soils than steeper, rockier uplands.^[37]

Elevationis defined as the vertical distance between an object and sea level, whilealtitudeis defined as the vertical distance from an object to Earth's surface.^[38]The elevation of Earth's land surface varies from the low point of −418 m (−1,371 ft) at theDead Sea,to a maximum altitude of 8,848 m (29,029 ft) at the top of Mount Everest. The mean height of land above sea level is about 797 m (2,615 ft),^[39]with 98.9% of dry land situated above sea level.^[40]

Reliefrefers to the difference in elevation within a landscape; for example, flat terrain would have "low relief", while terrain with a large elevation difference between the highest and lowest points would be deemed "high relief". Most land has relatively low relief.^[41]The change in elevation between two points of the terrain is called a slope or gradient. Atopographic mapis a form ofterrain cartographywhich depicts terrain in terms of its elevation, slope, and the orientation of its landforms. It has prominentcontour lines,which connect points of similar elevation, while perpendicular slope lines point in the direction of the steepest slope.^[42]Hypsometric tintsare colors placed between contour lines to indicate elevation relative tosea level.^[43]

A difference between uplands, orhighlands,and lowlands is drawn in severalearth sciencefields. In river ecology, "upland"rivers are fast-moving and colder than" lowland "rivers, encouraging different species of fish and other aquatic wildlife to live in these habitats. For example, nutrients are more present in slow-moving lowland rivers, encouraging different species ofmacrophytesto grow there.^[44]The term "upland" is also used in wetland ecology, where "upland" plants indicate an area that is not a wetland.^[45]In addition, the termmoorlandrefers to uplandshrublandbiomes with acidic soils, whileheathlandsare lowland shrublands with acidic soils.^[46]

Geomorphology refers to the study of the natural processes that shape land's surface, creating landforms.^[47]: 3Erosion and tectonics,volcanic eruptions,flooding,weathering,glaciation,the growth ofcoral reefs,and meteorite impacts are among the processes that constantly reshape Earth's surface overgeological time.^[48][49]

Erosiontransports one part of land to another via natural processes, such aswind,water,ice,andgravity.In contrast, weathering wears away rock and other solid land without transporting the land somewhere else.^{[4]: 210–211}Natural erosional processes usually take a long time to cause noticeable changes in the landscape—for example, theGrand Canyonwas created over the past 70 million years by theColorado River,^[50][51]which scientists estimate continues to erode the canyon at a rate of 0.3 meters (1 foot) every 200 years.^[52]However, humans have caused erosion to be 10–40 times faster than normal,^[53]causing half thetopsoilof the surface of Earth's land to be lost within the past 150 years.^[54]

Plate tectonicsrefers to the theory that Earth's lithosphere is divided into "tectonic plates" that move over the mantle.^[4]: 66This results incontinental drift,with continents moving relative to each other.^[55]The scientistAlfred Wegenerfirst hypothesized the theory of continental drift in 1912.^[56]More researchers gradually developed his idea throughout the 20th century into the widely accepted theory of plate tectonics of today.

Several key characteristics define modern understanding of plate tectonics. The place where two tectonic plates meet is called aplate boundary,^[57]with different geological phenomena occurring across different kinds of boundaries. For example, atdivergent plate boundaries,seafloor spreadingis usually seen,^{[4]: 74–75}in contrast with thesubductionzones ofconvergentortransform plate boundaries.^{[4]: 78–80}

Earthquakesandvolcanic activityare common in all types of boundaries. Volcanic activity refers to any rupture in Earth's surface wheremagmaescapes, therefore becominglava.^{[4]: 170–172}TheRing of Fire,containing two-thirds of the world's volcanos, and over 70% of Earth'sseismological activity,comprises plate boundaries surrounding thePacific Ocean.^{[58][59]: 68 [60]: 409–452 [a]}

Earth's land interacts with and influences itsclimateheavily, since the land's surface heats up and cools down faster than air or water.^[61]Latitude,elevation,topography,reflectivity,andland useall have varying effects on climate. The latitude of the land will influence how muchsolar radiationreaches its surface. High latitudes receive less solar radiation than low latitudes.^[61]The land's topography is important in creating and transforming airflow andprecipitation.Large landforms, such as mountain ranges, can divert wind energy and makeair parcelsless dense and therefore able to hold less heat.^[61]As air rises, this cooling effect causescondensationand precipitation.

Different types of land cover will influence the land'salbedo,a measure of the solar radiation that is reflected, rather than absorbed and transferred to Earth.^[62]Vegetationhas a relatively low albedo, meaning that vegetated surfaces are good absorbers of the sun's energy.Forestshave an albedo of 10–15 percent whilegrasslandshave an albedo of 15–20 percent. In comparison, sandydesertshave an albedo of 25–40 percent.^[62]

Land use by humans also plays a role in the regional and global climate. Densely populated cities are warmer and createurban heat islandsthat have effects on the precipitation,cloud cover,and temperature of the region.^[61]

A landform is a natural or manmade^[63]land feature. Landforms together make up a given terrain, and their arrangement in thelandscapeis known astopography.Landforms includehills,mountains,canyons,andvalleys,as well asshorelinefeatures such asbays,capes,andpeninsulas.

Theshorelineis the interface between the land and theocean.It migrates each day astidesrise and fall, and moves over long periods of time assea levelschange. The shore extends from the low tide line to the highest elevation that can be reached by storm waves, and thecoaststretches out inland until the point where ocean-related features are no longer found.^{[4]: 625–626}

When land is in contact with bodies of water, it can be eroded. The weathering of a coastline may be impacted by thetides,caused by changes in gravitational forces on larger bodies of water.^{[47]: 352–353 [64]}Coasts are important zones in natural ecosystems, often home to a wide range ofbiodiversity.^[65]On land, they harbour important ecosystems such as freshwater or estuarinewetlands,which are important for bird populations and other terrestrial animals. In wave-protected areas they harborsaltmarshes,mangrovesorseagrasses,all of which can providenursery habitatfor finfish,shellfish,and other aquatic species. Rocky shores are usually found along exposed coasts and provide habitat for a wide range ofsessile animals(e.g.mussels,starfish,barnacles) and various kinds ofseaweeds.Alongtropicalcoasts with clear, nutrient-poor water,coral reefscan often be found between depths of 1–50 meters (3.3–164.0 feet).^[66]

According to aUnited Nationsatlas, 44% of all people live within 150 km (93 mi) of the sea.^[67]Because of their importance in society and high concentration of population, the coast is important for major parts of the global food and economic system, and they provide manyecosystem servicesto humankind. For example, important human activities happen inport cities.Coastalfisheriesfor commercial, recreational, and subsistence purposes, andaquacultureare major economic activities and provide jobs, livelihoods, andproteinfor the majority of coastal human populations. Other coastal spaces likebeachesandseaside resortsgenerate economic activity throughtourism.Marine coastal ecosystemscan also provide protection againstsea level riseandtsunamis.In many countries, the coastalmangroveis the primary source of wood for fuel (e.g. charcoal) and building materials. Coastal ecosystems have a much higher capacity forcarbon sequestrationthan manyterrestrial ecosystems,and as such can play a critical role in the near future to helpmitigate climate changeeffects by uptake ofatmospheric anthropogenic carbon dioxide.^[68]

A subcontinental area of land surrounded by water is anisland,^[69]: xxxiand a chain of islands is anarchipelago.The smaller the island, the larger the percentage of its land area will be adjacent to the water, and subsequently will be coast or beach.^[70]Islands can be formed by a variety of processes. TheHawaiian islands,for example, even though they are not near a plate boundary, formed fromisolated volcanic activity.^[69]: 406Atollsare ring-shaped islands made ofcoral,created whensubsidencecauses an island to sink beneath the ocean surface and leaves a ring of reefs around it.^{[69]: 69 [71]}

Mountainsare features that usually rise at least 300 metres (980 ft) higher than the surrounding terrain.^[72]Theformation of mountain beltsis called orogenesis, and results fromplate tectonics.^{[4]: 448–449}For example, where a plate at a convergent plate boundary pushes one plate above the other, mountains could be formed by either collisional events, such that Earth's crust is pushed upwards,^{[4]: 454–460}or subductional events, where Earth's crust is pushed into the mantle, causing the crust to melt, rise due to its low density, and solidify into hardened rock, thickening the crust.^{[4]: 449–453}

Aplateau,also called a high plain or a tableland, is an area of a highland consisting of flat terrain that is raised sharply above the surrounding area on at least one side, creating steepcliffsorescarpments.^[47]: 99Both volcanic activity such as theupwellingof magma andextrusionof lava, or erosion of mountains caused from water, glaciers, or aeolian processes, can create plateaus. Plateaus are classified according to their surrounding environment asintermontane,piedmont,orcontinental.^[73]A few plateaus may have a small flat top while others are wider.Buttesare smaller, with less extrusive and more intrusive igneous rock, while plateaus or highlands are the widest, andmesasare a general-sized plateau with horizontalbedrockstrata.^[74][75][76]

Wide, flat areas of land are calledplains,which cover more than one-third of Earth's land area.^[77]When they occur as lowered areas between mountains, they can createvalleys,canyonsor gorges, andravines.^[78]A plateau can be thought of as an elevated plain. Plains are known to have fertile soils and be important for agriculture due to their flatness supporting grasses suitable for livestock and facilitating the harvest of crops.^[79]Floodplainsprovided agricultural land for some of theearliest civilizations.^[80]Erosion is often a main driver for the creation of plains and valleys, withrift valleysbeing a noticeable exception.Fjordsare glacial valleys that can be thousands of meters deep, opening out to the sea.^[81]

Any natural void in the ground which can be entered by a human can be considered acave.^[82][83]They have been important to humans as a place ofsheltersince the dawn of humanity.^[84]

Cratersare depressions in the ground, but unlike caves, they do not provide shelter or extendunderground.There are many kinds of craters, such asimpact craters,volcaniccalderas,andisostatic depressions.Karstprocesses can create bothsolution caves,the most frequent cave type, and craters, as seen in karstsinkholes.^[85]

Thepedosphereis the outermost layer of Earth's continental surface and is composed of soil and subject tosoil formation processes.Below it, thelithosphereencompasses both Earth's crust and the uppermost layer of themantle.^[86]The lithosphere rests, or "floats", on top of the mantle below it viaisostasy.^[4]: 463Above the solid ground, thetroposphereand humans' use of land can be considered layers of the land.^[3]

Land cover refers to the material physically present on the land surface, for example, woody crops, herbaceous crops, barren land, and shrub-covered areas. Artificial surfaces (including cities) account for about a third of a percent of all land.^[87]Land userefers to human allocation of land for various purposes, including farming, ranching, and recreation (e.g. national parks); worldwide, there are an estimated 16.7 million km²(6.4 million sq mi) of cropland, and 33.5 million km²(12.9 million sq mi) of pastureland.^[88]

Land cover change detection usingremote sensingand geospatial data provides baseline information for assessing the climate change impacts on habitats and biodiversity, as well as natural resources, in the target areas. Land cover change detection and mapping is a key component of interdisciplinaryland change science,which uses it to determine the consequences of land change on climate.^[89]Land change modelingis used to predict and analyze changes in land cover and use.^[90]

Soil is amixtureoforganic matter,minerals,gases,liquids,andorganismsthat together supportlife.Soil consists of a solid phase of minerals and organic matter (the soil matrix),^[4]: 222as well as aporousphase that holdsgases(the soil atmosphere) andwater(the soil solution).^[91][92]Accordingly, soil is a three-statesystem of solids, liquids, and gases.^[93]Soil is a product of several factors: the influence ofclimate,relief(elevation, orientation, and slope of terrain), organisms, and the soil'sparent materials(original minerals) interacting over time.^[94]It continually undergoes development by way of numerous physical, chemical and biological processes, which include weathering anderosion.^{[47]: 148–150}

Given its complexity and strong internalconnectedness,soil ecologistsregard soil as anecosystem.^[95]Soil acts as an engineering medium, a habitat forsoil organisms,a recycling system fornutrientsandorganic wastes,a regulator ofwater quality,a modifier ofatmospheric composition,and a medium forplant growth,making it a critically important provider ofecosystem services.^[96]Since soil has a tremendous range of availablenichesandhabitats,it contains a prominent part of the Earth'sgenetic diversity.A gram of soil can contain billions of organisms, belonging to thousands of species, mostly microbial and largely still unexplored.^[97][98]

Soil is a major component of the Earth's ecosystem. The world's ecosystems are impacted in far-reaching ways by the processes carried out in the soil, with effects ranging fromozone depletionandglobal warmingtorainforest destructionandwater pollution.With respect to Earth'scarbon cycle,soil acts as an importantcarbon reservoir,^[99][100]and it is potentially one of the most reactive to human disturbance^[101]and climate change.^[102]As the planet warms, it has been predicted that soils will add carbon dioxide to the atmosphere due to increasedbiologicalactivity at higher temperatures, apositive feedback(amplification).^[103]This prediction has, however, been questioned on consideration of more recent knowledge onsoil carbonturnover.^[104]

Continental crust is the layer ofigneous,sedimentary,andmetamorphic rocksthat forms the geological continents and the areas of shallow seabed close to their shores, known ascontinental shelves.This layer is sometimes calledsialbecause its bulk composition is richer inaluminium silicateand has a lower density compared to theoceanic crust,^[105]calledsimawhich is richer inmagnesium silicate.Changes inseismic wavevelocities have shown that at a certain depth (theConrad discontinuity), there is a reasonably sharp contrast between the morefelsicupper continental crust and the lower continental crust, which is moremaficin character.^[106]

The composition of land is not uniform across the Earth, varying between locations and betweenstratawithin the same location. The most prominent components of upper continental crust includesilicon dioxide,aluminium oxide,andmagnesium.^[107]Thecontinental crustconsists of lower density material such as the igneous rocksgranite^[108]andandesite.Less common isbasalt,a denser volcanic rock that is the primary constituent of theocean floors.^[109]Sedimentary rock is formed from the accumulation of sediment that becomes buried andcompacted together.Nearly 75% of the continental surfaces are covered by sedimentary rocks, although they form about 5% of the crust.^[110]

The most abundantsilicate mineralson Earth's surface includequartz,feldspars,amphibole,mica,pyroxeneandolivine.^[111]Commoncarbonate mineralsincludecalcite(found inlimestone) anddolomite.^[112]The rock that makes up land is thicker thanoceanic crust,and it is far more varied in terms of composition. About 31% of this continental crust is submerged in shallow water, forming continental shelves.^[107]

Land provides manyecosystem services,such as mitigating climate change, regulating water supply through drainage basins and river systems, and supporting food production. Land resources are finite, which has led to regulations intended to safeguard these ecosystem services, and a set of practices calledsustainable land management.^[3]

A biome is an area "characterized by its vegetation, soil, climate, andwildlife."^[113][114]There are five major types of biomes on land: grasslands, forests, deserts, tundras, and freshwater.^[113]Other types of biomes include shrublands,^[b]wetlands,^[c]andpolar ice caps.^[116]Anecosystemrefers to the interaction between organisms within a particular environment, and ahabitatrefers to the environment where a given species or population of organisms lives. Biomes may span more than one continent, and contain a variety of ecosystems and habitats.^[117]

• Desertshave anaridclimate, generally defined to mean that they receive less than 25 centimetres (9.8 in) ofprecipitationper year. They make up around one fifth of the Earth's land area, are found on every continent, and can be very hot or very cold (seepolar desert). They are home to animals and plants which evolved to be tolerant of droughts. In deserts, most erosion is caused by running water, usually during violentthunderstorms,which causeflash floods.Deserts are expanding due todesertification,which is caused by excessive deforestation and overgrazing.^{[118][4]: 598–621}
• Tundrais a biome where tree growth is hindered by frigid temperatures and short growing seasons.^[119]There are types of tundra associated with different regions: Arctic tundra,alpine tundra,and Antarctic tundra.^[120][121]
• Aforestis an area of land dominated bytrees.Many definitions of "forest" are used throughout the world, incorporating factors such as tree density, tree height, land use, legal standing, and ecological function. The United Nations'Food and Agriculture Organization(FAO) defines a forest as: "land spanning more than 0.5 hectares with trees higher than 5 meters and acanopycover of more than 10 per cent, or trees able to reach these thresholdsin situ.It does not include land that is predominantly under agricultural or urban use. "^[122]Types of forests includerainforests,deciduous forests,andboreal forests.^[122]
• Grasslandsare areas where thevegetationis dominated by grasses (Poaceae). However, sedge (Cyperaceae) and rush (Juncaceae) can also be found, along with variable proportions oflegumeslikecloverand otherherbs.Grasslands occur naturally on all continents exceptAntarcticaand are found in mostecoregionsof theEarth.Furthermore, grasslands are one of the largest biomes on earth and dominate the landscape worldwide. Types include natural, semi-natural, and agricultural grasslands.Savannasare grasslands with occasional, scattered trees.^[123]

Land plants evolved fromgreen algae,and are calledembryophytes.They includetrees,shrubs,ferns,grass,moss,andflowers.Most plants arevascular plants,meaning that their tissues distribute water and minerals throughout the plant.^[124]Throughphotosynthesis,most plants nourish themselves from sunlight and water, breathing in carbon dioxide and breathing out oxygen. Between 20 and 50% of oxygen is produced by land vegetation.^[125]

Unlike plants,terrestrial animalsare not amonophyletic group—that is, a group including all terrestrial animals does not encompass all lineages from acommon ancestor.This is because there are organisms, such as thewhale,thatevolvedfrom terrestrial mammals back to an aquatic lifestyle.^[126]Manymegafaunaof the past, such as non-aviandinosaurs,have become extinct due to extinction events, e.g. theQuaternary extinction event.^[127]

Land is "deeply intertwined with human development."^[3]: 21It is a crucial resource for human survival,^[128]humans depend on land for subsistence, and can develop strong symbolic attachments to it. Access to land can determine "survival and wealth," particularly in developing countries, giving rise to complex power relationships in production and consumption. Most of the world's philosophies and religions recognize a human duty ofstewardshiptowards land and nature.^[3]

Many humans see land as a source of "spirituality, inspiration, and beauty." Many also derive a sense of belonging from land, especially if it also belonged to their ancestors.^[3]Variousreligionsteach about a connection between humans and the land (such as veneration ofBhumi,a personification of the Earth inHinduism,^[130]and the obligation to protect land ashimainIslam), and in almost everyIndigenous groupthere areetiologicalstories about the land they live on.^[3]For Indigenous peoples, connection to the land is an important part of their identity and culture,^[131]and some religious groups consider a particular area of land to besacred,such as theHoly Landin theAbrahamic religions.^[132]

Creation mythsin many religions involve stories of the creation of the world by a supernaturaldeityor deities, including accounts wherein the land is separated from the oceans and the air. The Earth itself has often been personified as adeity,in particular agoddess.In many cultures, themother goddessis also portrayed as afertility deity.To theAztecs,Earth was calledTonantzin— "our mother"; to theIncas,Earth was calledPachamama— "mother earth". The Chinese Earth goddessHou Tu^[133]is similar toGaia,the Greek goddess personifying the Earth. InNorse mythology,the Earth giantessJörðwas the mother ofThorand the daughter ofAnnar.^[134]Ancient Egyptian mythologyis different from that of other cultures because Earth (Geb) is male and the sky (Nut) is female.^[135]

Ancient Near Easterncultures conceived of the world as a flat disk of land surrounded by ocean. ThePyramid TextsandCoffin Textsreveal that the ancient Egyptians believedNun(the ocean) was a circular body surroundingnbwt(a term meaning "dry lands" or "islands" ).^[136]TheHebrew Bible,drawing on other Near Eastern ideas,depicts the Earthas a flat disc floating on water, with another expanse of water above it.^[137]A similar model is found in theHomericaccount of the 8th century BC in which "Okeanos, the personified body of water surrounding the circular surface of the Earth, is the begetter of all life and possibly of all gods."^[138]

The spherical form of the Earth was suggested by earlyGreek philosophers,a belief espoused byPythagoras.Contrary to popular belief, most educated people in theMiddle Agesdid not believe the Earth was flat: this misconception is often called the "Myth of the Flat Earth".As evidenced by thinkers such asThomas Aquinas,the European belief in aspherical Earthwas widespread by this point in time.^[139]Prior tocircumnavigation of the planetand the introduction ofspace flight,belief in a spherical Earth was based on observations of the secondary effects of the Earth's shape and parallels drawn with the shape of other planets.^[140]

Humans have commonlytraveledfor business, pleasure, discovery, and adventure, all made easier in recent human history as a result of technologies likecars,trains,planes,andships.Land navigationis an aspect of travel and refers to progressing through unfamiliar terrain using navigational tools like maps with references to terrain, acompass,orsatellite navigation.^[143]Navigation on land is often facilitated by reference tolandmarks– enduring and recognizable natural or artificial features that stand out from their nearby environment and are often visible from long distances.^[144]Natural landmarks can be characteristic features, such as mountains or plateaus, with examples includingTable Mountainin South Africa,Mount Araratin Turkey, theGrand Canyonin the United States,Uluruin Australia, andMount Fujiin Japan.^[145]

Two major eras of exploration occurred in human history: one of divergence, and one of convergence. The former saw humans moving out of Africa, settling in new lands, and developing distinct cultures in relative isolation.^[146]Early explorers settled in Europe and Asia; 14,000 years ago, some crossed theIce Age land bridgefrom Siberia to Alaska and moved southbound to settle in the Americas.^[147]For the most part, these cultures were ignorant of each other's existence.^[146]The second period, occurring over roughly the last 10,000 years, saw increased cross-cultural exchange through trade and exploration, marking a new era of cultural intermingling.^[146]

Human trade has occurred since the prehistoric era.Peter Watsondates thehistory of long-distance commercefromc. 150,000 years ago.^[148]Majortrade routesthroughout history have existed on land, such as theSilk Roadwhich linkedEast AsiawithEurope^[149]and theAmber Roadwhich was used to transferamberfromNorthern Europeto theMediterranean Sea.^[150]TheDark Agesled trade to collapse in the West, but it continued to flourish among the kingdoms of Africa, the Middle East, India, China, and Southeast Asia. During the Middle Ages, Central Asia was the economic centre of the world, and luxury goods were commonly traded in Europe. Physical money (either barter or precious metals) was dangerous to carry over a long distance. To address this, a burgeoning banking industry enabled the shift to movable wealth or capital, making it far easier and safer to trade across long distances. After theAge of Sail,international trade mostly occurred along sea routes, notably to prevent intermediary countries from being able to control trade routes and the flow of goods.^{[citation needed]}

In economics,landrefers to afactor of production.It can be leased in exchange forrent,and use of its variousraw materialresources (trees, oil, metals).^[151]

For more than 10,000 years, humans have engaged in activities on land such ashunting,foraging,controlled burning,land clearing,andagriculture.Beginning with theNeolithic Revolutionand the spread of agriculture around the world, human land use has significantly alteredterrestrial ecosystems,with an essentially global transformation of Earth's landscape by 3000 years ago.^{[152]: 30 [153][154]}From around 1750, human land use has increased at an accelerating rate due to theIndustrial Revolution,which created a greater demand for natural resources and caused rapid population growth.^[152]: 34

Agriculture includes bothcropfarming andanimal husbandry.^[155]A third of Earth's land surface is used for agriculture,^{[156][157]: 126}with estimated 16.7 million km²(6.4 million sq mi) of cropland and 33.5 million km²(12.9 million sq mi) of pastureland.^[88]This has had significant impacts on Earth's ecosystems. When land is cleared to make way for agriculture, native flora and fauna are replaced with newly introduced crops and livestock.^[152]: 31Excessively high agricultural land use is driven by poor management practices (which lead to lower food yields, necessitating more land use), food demand,food waste,anddiets high in meat.^[157]: 126

Urbanizationhas led to greater population growth inurban areasin the last century. Although urban areas make up less than 3 percent of Earth's land area, the global population shifted from a majority living inrural areasto a majority living in urban areas in 2007.^[152]: 35People living in urban areas depend on food produced in rural areas outside of their cities, which creates greater demand for agriculture and drivesland use changewell beyond city boundaries.^[152]: 35Urbanization also displaces agricultural land because it mainly takes place on the most fertile land. Urban expansion inperi-urbanareas fragments agricultural and natural lands, forcing agriculture to move to less fertile land elsewhere. Because this land is less fertile, more land is needed for the same output, which increases the total agricultural land use.^[158]: 119

Another form of land use ismining,wherebymineralsare extracted from the ground using a variety of methods. Evidence of mining activity dates back to around 3000 BCE inAncient Egypt.^[152]: 34Important minerals includeiron ore,mined for use as araw material;coal,mined forenergy production;andgemstones,mined for use injewelleryandcurrency.^[152]: 34

The phrase "the law of the land"first appeared in 1215 inMagna Carta,inspiring its later usage in theUnited States Constitution.^[159]The idea ofcommon landalso originated with medievalEnglish law,and refers collective ownership of land, treating it as acommon good.^[3]In environmental science, economics, and game theory, thetragedy of the commonsrefers to individuals' use of common spaces for their own gain, deteriorating the land overall by taking more than their fair share and not cooperating with others.^[160]The idea of common land suggests public ownership; but there is still some land that can be privatized aspropertyfor an individual, such as alandlordorking.In the developed world, land is expected to be privately owned by an individual with legaltitle,but in the developing world the right to use land is often divided, with the rights to land resources being given to different people at different times for the same area of land.^[3]Beginning in the late 20th century, the international community has begun to recogniseIndigenous land rightsin law, for example, theTreaty of WaitangiforMāoripeople, theAct on Greenland Self-GovernmentforInuitpeople, and the Indigenous Peoples Rights Act in thePhilippines.^[131]

Borders are geographical boundaries imposed either by geographic features (oceans,mountain ranges,rivers) or bypolitical entities(governments,states, or subnational entities). Political borders can be established throughwarfare,colonization,or mutual agreements between the political entities that reside in those areas;^[161]the creation of these agreements is calledboundary delimitation.^[162]

Manywarsand other conflicts have occurred in efforts by participants to expand the land under their control, or to assert control of a specific area of considered to hold strategic, historical, or cultural significance. TheMongol Empireof the 13th and 14th centuries became thelargest contiguous land empireinhistorythrough war and conquest.^[163]

In the19th-century United States,a concept ofmanifest destinywas developed by various groups, asserting that American settlers were destined to expand acrossNorth America.This concept was used to justify military action against theindigenous peoples of North Americaandof Mexico.^{[164][165][166][167]}

The aggression ofNazi GermanyinWorld War IIwas motivated in part by the concept ofLebensraum( "living space" ), which had first became a geopolitical goal ofImperial GermanyinWorld War I(1914–1918) originally, as the core element of theSeptemberprogrammof territorial expansion.^[168]The most extreme form of this ideology was supported by theNazi Party(NSDAP). Lebensraum was one of the leading motivations Nazi Germany had in initiatingWorld War II,and it would continue this policy until the end of World War II.^[169]

Land degradation is "the reduction or loss of the biological or economic productivity and complexity" of land as a result of human activity.^[170]: 42Land degradation is driven by many different activities, including agriculture, urbanization, energy production, and mining.^[170]: 43Humans have altered more than three-quarters of ice-free land through habitation and other use, fundamentally changing ecosystems.^[171]Human activity is a major factor in theHolocene extinction,^[172]and human-caused climate change is causingrising sea levelsand ecosystem loss. Environmental scientists study land's ecosystems, natural resources,biosphere(faunaandflora),troposphere,and the impact of human activity on these.^[3]Their recommendations have led to international action to preventbiodiversity lossanddesertification,and encourage sustainableforestandwastemanagement.^[173]Theconservation movementlobbies for the protection ofendangered speciesand the protection of natural areas, such asparks.^[174]: 253International frameworks have focused on analyzing how humans can meet their needs while using land more efficiently and preserving its natural resources, notably under the United Nations'Sustainable Development Goalsframework.^[173]

Human land use can cause soil to degrade, both in quality and in quantity.^[170]: 44Soil degradation can be caused byagrochemicals(such asfertilizers,pesticides,andherbicides),infrastructuredevelopment, andminingamong other activities.^{[170]: 43–47}There are several different processes that lead to soil degradation. Physical processes, such aserosion,sealing,andcrusting,lead to the structural breakdown of the soil. This means water cannot penetrate the soil surface, causingsurface runoff.^[170]: 44Chemical processes, such assalinization,acidification,andtoxication,lead to chemical imbalances in the soil.^[170]: 44Salinization in particular is detrimental, as it makes land less productive for agriculture and affects at least 20% of all irrigated lands.^[157]: 137Deliberate disruption of soil in the form oftillagecan also alter biological processes in the soil, which leads to excessivemineralizationand the loss of nutrients.^[170]: 44

Desertificationis a type of land degradation indrylandsin which fertile areas become increasingly arid as a result of natural processes or human activities, resulting in loss of biological productivity.^[175]This spread of arid areas can be influenced by a variety of human factors, such asdeforestation,improperland management,overgrazing,^[176]anthropogenicclimate change,^[177]andoverexploitationofsoil.^[178]Throughout geological history, desertification has occurred naturally, though in recent times it is greatly accelerated by human activity.^{[176][179][180]}

Ground pollution issoil contaminationviapollutants,such ashazardous wasteorlitter.Ground pollution can be prevented by properly monitoring and disposing of waste, along with reducing unnecessary chemical and plastic use. Unfortunately, proper disposal of waste often is not economically beneficial or technologically viable, leading to short-term solutions of waste disposal that pollute the earth. Examples include dumping harmful industrial byproducts, overusing agricultural fertilizers and other chemicals, and poorly maintaininglandfills.Some landfills can be thousands of acres in size, such as theApex Regional landfillin Las Vegas.^[181]

Water pollutionon land is the contamination of non-oceanic hydrological surface and underground water features such aslakes,ponds,rivers,streams,wetlands,aquifers,reservoirs,andgroundwateras a result of human activities.^[182]: 6It may be caused by toxic substances (e.g., oil, metals, plastics,pesticides,persistent organic pollutants,industrial waste products),^[183]stressful conditions (e.g., changes of pH,hypoxiaor anoxia, increased temperatures, excessive turbidity, unpleasant taste or odor, and changes ofsalinity),^[184]orpathogenic organisms.^[185]

Thebiodiversityof Earth—the variety and variability of life—is threatened by climate change, human activities, and invasive species. Due to an increase in the rate ofextinction,biodiversity loss is increasing.^[186]Agriculture can cause biodiversity loss as land is converted for agricultural use at a very high rate, particularly in the tropics, which directly causes habitat loss. The use of pesticides and herbicides can also negatively impact the health of local species.^[170]: 43Ecosystems can also be divided and degraded byinfrastructuredevelopment outside of urban areas.^[170]: 46

Biodiversity loss can sometimes be reversed throughecological restorationorecological resilience,such as through the restoration of abandoned agricultural areas;^[170]: 45however, it may also be permanent (e.g. throughland loss). The planet's ecosystem is quite sensitive: occasionally, minor changes from a healthyequilibriumcan have dramatic influence on afood weborfood chain,up to and including thecoextinctionof that entire food chain. Biodiversity loss leads to reducedecosystem services,and can eventually threatenfood security.^[187]Earth is currently undergoing itssixth mass extinction(theHolocene extinction) as a result of human activities which push beyond theplanetary boundaries.So far, this extinction has proven irreversible.^{[188][189][190]}

Although humans have used land for itsnatural resourcessince ancient times, demand for resources such astimber,minerals,andenergyhas grown exponentially since theIndustrial Revolutiondue to population growth.^[152]: 34When a natural resource is depleted to the point ofdiminishing returns,it is considered the overexploitation of that resource.^[191]Some natural resources, such as timber, are considered renewable, because with sustainable practices they replenish to their previous levels.^[192]: 90Fossil fuelssuch ascoalare not considered renewable, as they take millions of years to form, with the current supply of coal expected to peak in the middle of the 21st century.^[192]: 90Economic materialism,orconsumerism,has influenced destructive patterns of modern resource usage, in contrast with pre-industrial usage.^[193]

Different varieties of landscapes:

• Central Park,New York City
• Sahara Desert,Libya
• Amazon rainforest,Peru
• Permafrost,Antarctica
• SeasideinBudelli,Italy
• Meadowin theSwiss Alps
• FarmlandinPennsylvania

• Public land
• Solid earth