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Geography of Beijing
Geography of Beijing
Geography of Beijing
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Geography of Beijing
Location of Beijing Municipality in northern China
Satellite image of Beijing Municipality, showing the city of Beijing (in pink) with mountains in the north and west and plains to the east and south
Continent Asia
Location North China Plain
Coordinates 39°54′N 116°24′E / 39.900°N 116.400°E / 39.900; 116.400
Area (municipality) Total: 16,801 square kilometres (6,487 sq mi)

Beijing is a municipality located in North China at the northern tip of the North China Plain, near the meeting point of the Xishan and Yanshan mountain ranges. The city itself lies on flat land (elevation 20 to 60 m (66 to 200 ft)) that opens to the east and south. The municipality's outlying districts and counties extend into the mountains that surround the city from the southwest to the northeast. The highest peaks are over 2,000 m (6,600 ft).

Beijing Municipality consists of six city districts (previously eight, see Xuanwu and Chongwen), eight suburban districts and two rural counties. It covers a total area of 16,807.8 km2 (6,489.5 sq mi). By land area, the municipality is slightly smaller than the country of Kuwait, though much of the municipality outside the urban core is sparsely populated mountains and farmland. The terrain is roughly 38% flat and 62% mountainous.[1] The city is 150 km (93 mi) inland from the Bohai Sea via Tianjin Municipality in the southeast. Aside from Tianjin, Beijing is bordered on all other sides by Hebei Province, including a piece wedged between Beijing and Tianjin.

Historically, Beijing was situated on the border between sedentary agricultural areas to the south and pastoralist regions beyond the mountains to the north. The Great Wall of China was built across the mountains north of Beijing to guard against nomadic invasions. In modern times, the same mountains that shielded Beijing from the Gobi steppes also form a semi-circular basin which catches the city's air pollution. Severe smog problems develop in the summer as the hot and humid air pressure from monsoons in the south prevent air pollutants from leaving the basin. Smog is less severe in the fall and winter when the direction of the wind currents reverse course as the vast anticyclone high pressure system takes hold and brings cold, dry air from Siberia. In the spring, the northerly winds, pick up dust from desertifying areas of western China and bring occasionally severe dust storms to Beijing. The city's climate is characterized by hot, humid summers and cold, windy, and dry winters.

Layout of Beijing's administrative divisions

[edit]

In imperial times, the old walled city of Beijing occupied 62 km2 (24 sq mi).[1] The physical size of the city has grown more than tenfold in recent decades to about 750 km2 (290 sq mi). The inner suburbs (1,282 km2 or 495 sq mi), and outer suburbs (3,198 km2 or 1,235 sq mi) provide further space for growth.[1] The remaining 12,239.9 km2 (4,725.9 sq mi) of the municipality consists of rural areas, nature reserves and lightly populated mountains.[1]

Map showing the core city districts (red), surrounding urban districts (blue), interior suburban districts (green) and the far north districts and counties (dark yellow)

Two urban districts, Dongcheng and Xicheng form the urban core of Beijing. They occupy the area inside the old walled city, which used to be divided into two walled sections, neicheng, the inner city and waicheng, the adjoining outer city to the south. Though the city walls no longer stand, they continue to retain geographic significance. Streets that once traversed the wall are still named nei (inner) or wai (outer) in relationship to whether the street section is inside or outside the wall. Today, Line 2 loop of the Beijing Subway traces the inner city wall. The 2nd Ring Road outlines the combined walled city including the outer city.

The inner city is divided into eastern and western halves by Dongcheng and Xicheng Districts. The Forbidden City, where emperors once lived, and Tiananmen Square, the center of the city, both belong to Dongcheng. But the Zhongnanhai Compound, next door to the Forbidden City, where China's current leaders now reside, and the Great Hall of the People, on the west side of Tiananmen Square, both are part of Xicheng. The outer city, adjacent and south of the inner city, comprises the former Xuanwu and Chongwen districts, merged with Xicheng and Dongcheng respectively in July 2010. Chongwen is home to the Temple of Heaven. Xuanwu is oldest continuously inhabited part of Beijing. Some of its neighborhoods including those around the Niujie Mosque (b. 996 A.D.) and Pagoda of Tianning Temple (b. 1119 A.D.) predate the Yuan capital. Unlike in most other parts of the city, most narrow lanes in Xuanwu are called jie instead of hutongs. Each of the two core city districts has population density of over 20000 persons/km2 (51800 persons/sq. mi.)

The Jundu Mountains in Miyun County

Beyond the 2nd Ring Road, the city spreads out in a checkerboard fashion marked by concentric ring roads. Four other districts, Haidian, Chaoyang, Fengtai and Shijingshan, were once considered on the city's outskirts, but are now integral parts of the city inside the 5th Ring Road. All four have population densities above 4500 persons/km2 (11,600 persons/km2). The vast Haidian District to the northwest is home to the Old and New Summer Palace, the university district, and Zhongguancun, the city's high-technology silicon village. The even bigger Chaoyang District embraces the city from the north and east. Its possessions include Beijing Central Business District (CBD), the Olympic Green, and even the Beijing Capital International Airport.[2] Shijingshan is a heavily industrialized district in the foothills of the Western Hills. Fengtai spans across the south of urban Beijing.

Of the suburban districts further afield, Tongzhou and Shunyi in the east are rapidly urbanizing. Mentougou and Fangshan lie to the west, in Xishan, also known as the Western Hills. Fangshan is home to two of the oldest prehistoric sites in Beijing Municipality: the caves at Zhoukoudian, home of the Peking Man, and Liulihe, the site of the capital of the Yan Kingdom during the Western Zhou dynasty. Daxing District, to the south, is largely agricultural but is also developing its own technology park in Yizhuang. Changping just north of the city ranges from densely urbanized Tiantongyuan in the south to the Juyongguan Great Wall in the north. In between are the Thirteen Ming Tombs.

Far north of the municipality in the Yanshan range are Yanqing and Miyun Counties, and Huairou and Pinggu Districts, both of which were rural counties until 2001. The far north is rugged, rural and sparsely populated. Yanqing, Huairou and Miyun all have fewer than 200 residents per km2 (518/sq. mi.). They are perhaps best known for stretches of the Great Wall, with Badaling and Shuiguan in Yanqing, Mutianyu, Huanghuacheng and Jiankou in Huairou, and Gubeikou and Simatai in Miyun, and Jiangjunguan in Pinggu.

Topography

[edit]
Topography of Beijing

The city of Beijing lies on low and flat land, with elevation generally between 40–60 metres (130–200 ft) above sea level. The highest point inside the old walled city is at the top of Coal Hill in Jingshan Park, which rises to 88.35 metres (289.9 ft) and overlooks the Forbidden City.[3] Longevity Hill in the Summer Palace reaches an elevation of 109 metres (358 ft).[4] The plains from Beijing extend to the east as far as Shanhaiguan on the Bohai Sea and as far south as Nanjing, on the Yangtze River.

Jingshan, the highest point in the old walled city of Beijing

To the west is Xishan, also known as the Western Hills, which are visible from the city on clear days. Xishan forms the eastern flank of the Taihang Mountains range, which run north–south up the spine of Hebei province.[5] Xishan covers nearly all of Fangshan and Mentougou Districts west of the city. East Lingshan (elevation 2,303 metres (7,556 ft)), a Xishan peak on the border with Hebei, is the highest point in Beijing Municipality.[5] It is located 122 km (76 mi) from the city. Xishan is also known for high mountain meadows and scenic river gorges, including Shidu. Foothills of Xishan reach the city itself. They include Fragrant Hills, a major tourist attraction and Laoshan, the site of mountain bike competition in the 2008 Summer Olympics.

Looking north from atop Jingshan Hill along Di'anmen Avenue to the Drum Tower of Beijing. Di'anmen Avenue runs along Beijing's median axis. Dongcheng District is to the right and Xicheng is to the left. The Yanshan range north of the city is faintly visible in the distance.
Badaling Great Wall in the Yanshan range

The mountains north of Beijing including Badaling, Jundu Mountains and Fenghuanling all belong to the Yanshan range, which runs east–west, across northern Hebei Province. Yanshan separates the North China Plain from the steppes and held considerable military significance in history. All of Beijing's Great Wall sections were built in the Yanshan range, which reaches a height of 2,241 m (7,352 ft) at Haituoshan on the border between Yanqing County and Hebei.[5]

The Yanshan and Xishan ranges meet at Nankou, in Changping District, northwest of the city. The intersection creates a massive fault line and rift valley through which the city's main roads and railroads to the northwest pass.

Hydrology

[edit]
Beihai lake and Qiongdao Island in downtown Beijing
Main article: Water management in Beijing

Several major rivers, including the Yongding, Chaobai, Juma and Wenyu flow through Beijing Municipality. They originate in the highlands of Hebei and Shanxi, cut through the mountains west and north of the city, and eventually flow into the Hai River, which empties into the Bohai Sea. Over the centuries, hydrologists have channeled rivers through the city into man-made lakes, moats, channels and aqueducts, which provide water to the city and drain its refuse, but no longer threaten Beijing with flooding.

Marco Polo Bridge across the Yongding River

Downtown Beijing has several lakes called hai or sea. During the Yuan dynasty, the Mongol rulers expanded them and built imperial palace of Dadu around them. Subsequent emperors of the Ming and Qing dynasties used the lakes as imperial gardens. Today, the three northernmost lakes, Xihai (West Sea), Houhai (Rear Sea) and Qianhai (Front Sea), collectively known as Shichahai, are lined with bars and cafés and known for nightlife. To their south, Beihai (North Sea) is a city park, and Zhonghai (Central Sea) and Nanhai (South Sea) are part of the Zhongnanhai Compound, residence to China's leaders. This string of lakes used to form the main riverbed of the Yongding River, which now flows 50–60 km (31–37 mi) to the west. But 1,800 years ago, the Yongding flowed through Jishuitan and downtown Beijing and then into Longtan Lake and on to Tongzhou.[6] A major flood in 295 A.D. devastated part of Beijing, then known as Ji. Just west of Wangfujing, there is still a stretch of Beijing called Shatan or Sandy Beach.

The Tonghui canal, an extension of the Grand Canal, near Gaobeidian
Kunming Lake in the Summer Palace

Today, an aqueduct draws water from the Yongding through Yuyuantan Park to the western city moat, which empties into Liangshui River south of the city. Another aqueduct draws water from Kunming Lake in the Summer Palace down through the Purple Bamboo Park and into the northern city moat, which also replenishes Shichahai, Beihai and Zhongnanhai. The northern moats are drained by the Ba River, which flows into the Wenyu River. The southern and eastern moats are drained by the Tonghui River, which also flow into the Wenyu.

This network of rivers and aqueducts are fed by reservoirs to the north of the city. The Miyun Reservoir, the largest in the municipality, is created at the confluence of the Chao and Bai Rivers, which forms the Chaobai. The Yongding, before entering the municipality in Mentougou District, is dammed to create the vast Guanting Reservoir of Hebei Province. Despite these reservoirs, the city of Beijing faces chronic water shortages due to water-intensive agriculture, industry, and population growth. Under the South-North Water Transfer Project, the city plans to draw water from the Yangtze River through the Grand Canal, which was built 800 years ago for transportation, but now is being upgraded into a major aqueduct.

Climate

[edit]
Beijing
Climate chart (explanation)
J
F
M
A
M
J
J
A
S
O
N
D
 
 
2.2
 
 
2
−7
 
 
5.8
 
 
3
−4
 
 
8.6
 
 
13
2
 
 
22
 
 
21
9
 
 
36
 
 
27
15
 
 
72
 
 
31
20
 
 
170
 
 
32
23
 
 
113
 
 
31
22
 
 
54
 
 
27
16
 
 
29
 
 
19
9
 
 
14
 
 
10
1
 
 
2.2
 
 
4
−5
Average max. and min. temperatures in °C
Precipitation totals in mm
Source: CMA [7]
Imperial conversion
JFMAMJJASOND
 
 
0.1
 
 
36
20
 
 
0.2
 
 
38
26
 
 
0.3
 
 
56
35
 
 
0.9
 
 
70
48
 
 
1.4
 
 
81
59
 
 
2.9
 
 
87
68
 
 
6.7
 
 
89
73
 
 
4.5
 
 
87
72
 
 
2.1
 
 
80
61
 
 
1.1
 
 
67
48
 
 
0.5
 
 
51
33
 
 
0.1
 
 
39
23
Average max. and min. temperatures in °F
Precipitation totals in inches

The city has a rather dry monsoon-influenced humid continental climate (Köppen: Dwa), bordering on a cool semi-arid climate (BSk); characterised by hot, humid summers due to the East Asian monsoon, and generally cold, windy, very dry winters that reflect the influence of the vast Siberian anticyclone.[8] Yet during the winter, winds from the northwest must cross the mountains that shield the city, keeping the city warmer than other locations of similar latitude in China. Spring can bear witness to sandstorms blowing in from the Mongolian steppe, accompanied by rapidly warming, but generally dry, conditions. Autumn, like spring, sees little rain but is crisp and short. January averages −2.7 °C (27.1 °F), while July averages 27.2 °C (81.0 °F). Annual precipitation is around 570 millimetres (22.4 in), falling mostly in July and August. Extremes have ranged from −27.4 to 41.9 °C (−17 to 107 °F).

Climate data for Beijing, elevation 31 m (102 ft), (1991–2020 normals, extremes 1951–present)
Month Jan Feb Mar Apr May Jun Jul Aug Sep Oct Nov Dec Year
Record high °C (°F) 14.3
(57.7) 		25.6
(78.1) 		29.5
(85.1) 		33.5
(92.3) 		41.1
(106.0) 		41.1
(106.0) 		41.9
(107.4) 		39.3
(102.7) 		35.9
(96.6) 		31.0
(87.8) 		23.3
(73.9) 		19.5
(67.1) 		41.9
(107.4)
Mean daily maximum °C (°F) 2.3
(36.1) 		6.1
(43.0) 		13.2
(55.8) 		21.0
(69.8) 		27.2
(81.0) 		30.8
(87.4) 		31.8
(89.2) 		30.7
(87.3) 		26.5
(79.7) 		19.3
(66.7) 		10.3
(50.5) 		3.7
(38.7) 		18.6
(65.4)
Daily mean °C (°F) −2.7
(27.1) 		0.6
(33.1) 		7.5
(45.5) 		15.1
(59.2) 		21.3
(70.3) 		25.3
(77.5) 		27.2
(81.0) 		26.1
(79.0) 		21.2
(70.2) 		13.8
(56.8) 		5.2
(41.4) 		−1.0
(30.2) 		13.3
(55.9)
Mean daily minimum °C (°F) −6.9
(19.6) 		−4.2
(24.4) 		1.9
(35.4) 		9.0
(48.2) 		15.1
(59.2) 		20.0
(68.0) 		23.0
(73.4) 		22.0
(71.6) 		16.3
(61.3) 		8.8
(47.8) 		0.7
(33.3) 		−5.0
(23.0) 		8.4
(47.1)
Record low °C (°F) −22.8
(−9.0) 		−27.4
(−17.3) 		−15
(5) 		−3.2
(26.2) 		2.5
(36.5) 		9.8
(49.6) 		15.3
(59.5) 		11.4
(52.5) 		3.7
(38.7) 		−3.5
(25.7) 		−12.3
(9.9) 		−18.3
(−0.9) 		−27.4
(−17.3)
Average precipitation mm (inches) 2.2
(0.09) 		5.8
(0.23) 		8.6
(0.34) 		21.7
(0.85) 		36.1
(1.42) 		72.4
(2.85) 		169.7
(6.68) 		113.4
(4.46) 		53.7
(2.11) 		28.7
(1.13) 		13.5
(0.53) 		2.2
(0.09) 		528
(20.78)
Average precipitation days (≥ 0.1 mm) 1.6 2.3 3.0 4.7 6.0 10.0 11.9 10.5 7.1 5.2 2.9 1.6 66.8
Average snowy days 2.8 2.5 1.3 0.1 0.0 0.0 0.0 0.0 0.0 0.0 1.7 2.8 11.2
Average relative humidity (%) 43 42 40 43 47 58 69 71 64 58 54 46 53
Mean monthly sunshine hours 188.1 189.1 231.1 243.2 265.1 221.6 190.5 205.3 206.1 199.9 173.4 177.1 2,490.5
Percentage possible sunshine 62 62 62 61 59 50 42 49 56 59 59 61 57
Average ultraviolet index 2 3 4 6 8 9 9 8 6 4 2 1 5
Source 1: China Meteorological Administration[9][10]
Source 2: Extremes[a] and Weather Atlas[15]

Note

[edit]
  1. ^ All-time record high;[11] February record high;[12] May record high;[13] June record high[14]


Climate data for Beijing Capital International Airport (2013–2024 normals)
Month Jan Feb Mar Apr May Jun Jul Aug Sep Oct Nov Dec Year
Mean daily maximum °C (°F) 3.2
(37.8) 		6.4
(43.5) 		15.1
(59.2) 		22.0
(71.6) 		27.9
(82.2) 		31.8
(89.2) 		32.4
(90.3) 		31.5
(88.7) 		27.4
(81.3) 		19.6
(67.3) 		11.1
(52.0) 		4.5
(40.1) 		19.4
(66.9)
Daily mean °C (°F) −3.2
(26.2) 		−0.1
(31.8) 		8.2
(46.8) 		15.2
(59.4) 		21.1
(70.0) 		25.5
(77.9) 		27.2
(81.0) 		26.2
(79.2) 		21.6
(70.9) 		12.8
(55.0) 		4.8
(40.6) 		−2.1
(28.2) 		13.1
(55.6)
Mean daily minimum °C (°F) −8.8
(16.2) 		−6.4
(20.5) 		1.1
(34.0) 		7.3
(45.1) 		13.1
(55.6) 		18.5
(65.3) 		22.1
(71.8) 		21.0
(69.8) 		15.5
(59.9) 		7.0
(44.6) 		−0.3
(31.5) 		−7.5
(18.5) 		6.9
(44.4)
Average relative humidity (%) 45 44 41 44 47 56 72 73 69 65 57 46 55
Source: [16]

Statistics

[edit]

Location

[edit]
Map of the earth centered at Beijing

With coordinates of 39° 54' 50 N and 116° 23' 30" E, Beijing shares roughly the same latitude as Denver, Indianapolis, Columbus (Ohio), Philadelphia, Ankara, Bukhara, as well as Jiayuguan, Yumen, and Jiuquan in Gansu. The city lines up at about the same longitude as Xilinhot, Inner Mongolia; Dezhou, Shandong; Yongcheng, Henan; Lu'an, Anhui; Linchuan, Jiangxi; Changting, Fujian; Jieyang, Guangdong; Kota Kinabalu, Malaysia; and Mataram, Indonesia. The latitude of the municipality ranges from 39° 27' to 41° 03' N and in longitude from 115° 25' to 117° 30' E.

Beijing's antipode is located in the eastern part of Río Negro Province, Argentina, inland from Viedma.

Area

[edit]

Direct-administered municipality:[17]

  • Total: 16,807.8 square kilometres (6,489.5 sq mi)
  • Land: 16,807.8 square kilometres (6,489.5 sq mi)
  • Water: negligible

Area comparative

[edit]
  • Australia comparative: approximately ⁠1/4⁠ the size of Tasmania
  • Canada comparative: approximately ⁠three times the size of⁠ Prince Edward Island
  • United States comparative: approximately 1/7 larger than Connecticut
  • United Kingdom comparative: approximately 1/7 larger than Northern Ireland
  • EU comparative: slightly more than ⁠1/2⁠ the size of Belgium

Maps and satellite images

[edit]
  • Beijing's urban extent
    Beijing's urban extent
  • Satellite image of the city of Beijing, with the Forbidden City in the center, just north of Tiananmen Square and east of a string of lakes. Also visible are Yuyuantan lake in the west and the southern city moat, which once surrounded the walled outer city.
    Satellite image of the city of Beijing, with the Forbidden City in the center, just north of Tiananmen Square and east of a string of lakes. Also visible are Yuyuantan lake in the west and the southern city moat, which once surrounded the walled outer city.
  • Satellite view of the city within the 6th Ring Road
    Satellite view of the city within the 6th Ring Road
  • The Beijing area in 1875
    The Beijing area in 1875
  • Beijing in 1912
    Beijing in 1912
  • The old city in 1916
    The old city in 1916
  • Map of Beijing (labeled as PEI-P’ING (PEIPING) 北平) and nearby areas (1954)
    Map of Beijing (labeled as PEI-P’ING (PEIPING) 北平) and nearby areas (1954)
  • Beijing and vicinity in 1986
    Beijing and vicinity in 1986
  • Map showing the old walled city, including the inner and outer cities
    Map showing the old walled city, including the inner and outer cities


Animation zooming down to Beijing in 1978 via Landsat-3. The data then dissolves to Beijing in 2010 through the sensors of Landsat-5. The red areas are non-vegetated urban areas.

See also

[edit]

References

[edit]
[edit]
Revisions and contributorsEdit on WikipediaRead on Wikipedia

Geography of Beijing

View on Grokipedia
from Grokipedia
Beijing Municipality occupies 16,410 square kilometers in northern , positioned at the northern tip of the with central coordinates of 39°55′N 116°23′E. Nestled against mountains to the west, north, and northeast that comprise 62 percent of its territory, the region transitions southward into alluvial plains and river valleys covering the remaining 38 percent, facilitating historical settlement and agriculture. Major waterways, including the Yongding River from the southwest and the Chaobai River from the northeast, flow through the municipality, historically providing amid a landscape averaging 43 meters above . The area experiences a monsoon-influenced (Köppen Dwa), marked by cold, dry winters with average January temperatures around -4°C, hot and humid summers peaking at 26°C in , and annual of approximately 566 mm concentrated in summer. This and have shaped Beijing's urban development, challenges, and vulnerability to events like seasonal flooding and air inversion layers trapping pollutants in the basin-like plain.

Location and Extent

Coordinates and Boundaries

Beijing lies at approximately 39°55′ N and 116°23′ E longitude, positioning it in the northern temperate zone and sharing a similar with cities such as and . These coordinates mark the approximate center of the urban core, near the and , within the broader municipality that extends across varied terrain from mountainous fringes to alluvial plains. The Beijing Municipality encompasses an administrative area of 16,410.54 square kilometers, bordered predominantly by Hebei Province to the north, west, south, and a portion of the east, with Tianjin Municipality adjoining it to the southeast. This configuration places Beijing at the convergence of the Yanshan Mountains to the north and the (Xishan) to the west, transitioning southeastward into the expansive . The municipality's boundaries reflect historical and physiographic divisions, with the Yongding River and other waterways influencing southern limits, while northern and western edges follow ridgelines of the aforementioned ranges, enclosing about 62% mountainous terrain and 38% plains. These boundaries delineate Beijing's jurisdiction as one of China's four direct-controlled municipalities, separate from provincial oversight, and facilitate its role in the megalopolis alongside and , though administrative lines prevent seamless across full extents. The irregular shape results from natural features, with the southeastern plain opening toward the approximately 150 kilometers distant via , underscoring Beijing's inland yet strategically peripheral position relative to coastal trade routes.

Area and Comparative Scale

The Beijing Municipality encompasses a total land area of 16,410.54 square kilometers, administered directly under the as one of China's four . This area includes a mix of densely urbanized central , expanding suburban zones, and peripheral rural counties with significant mountainous terrain, where mountains occupy approximately 62% of the total land. The municipality is divided into 16 , comprising urban, suburban, and rural administrative units, reflecting its role as both a national capital and a provincial-level entity with extensive non-urban peripheries. In terms of comparative scale, Beijing's municipal area exceeds that of the U.S. state of (14,357 km²) and is roughly comparable to (13,812 km²), though smaller than (17,818 km²). Unlike compact city-states or European capitals such as (1,572 km² inner area), Beijing's vast administrative footprint accommodates over 22 million residents across urban and rural landscapes, resulting in an overall of about 1,360 people per square kilometer as of recent estimates. The continuously built-up urban core, often measured within the outer ring roads, covers a far smaller extent—approximately 1,000 to 2,000 km²—highlighting the disparity between administrative boundaries and actual driven by rapid post-1978 development.
AspectMeasurementComparison
Total Municipal Area16,410.54 km²Slightly smaller than (17,818 km²); larger than (13,812 km²)
Mountainous Terrain~62% of totalPredominantly in northern and western districts, limiting
Urban Built-up Area~1,500 km² (est. within 5th-6th Ring Roads)Comparable to Shanghai's core urban zone but denser due to centralized

Administrative Geography

Division Layout

Beijing Municipality is divided into 16 , which serve as the primary county-level administrative divisions responsible for local governance, , and public services. These districts replaced earlier combinations of urban districts and rural counties, with the last counties (Miyun and Yanqing) upgraded to district status in to streamline administration and promote integrated development. The districts are geographically arranged in a roughly concentric pattern around the historical center. The core consists of Dongcheng District and Xicheng District, which together encompass the former inner city walls and house key government, cultural, and commercial sites. Encircling this core are four inner suburban districts—Chaoyang, Fengtai, Shijingshan, and Haidian—characterized by high-density urban development, major business districts, universities, and industrial zones. Extending further outward are eight peripheral districts: Mentougou, Fangshan, Tongzhou, Shunyi, Changping, Daxing, Huairou, and Pinggu. These include emerging urban sub-centers like Tongzhou, designated as Beijing's administrative deputy center since 2015 to alleviate pressure on the core, as well as areas with mixed suburban, agricultural, and ecological functions. The outermost districts—Miyun, Yanqing, and parts of Huairou and Pinggu—feature rural landscapes, reservoirs, and mountainous terrain, serving ecological conservation and tourism roles while incorporating rural townships and villages.
District CategoryDistrictsKey Characteristics
Central UrbanDongcheng, XichengHistorical core, government hubs, high (over 20,000/km²)
Inner Suburban/UrbanChaoyang, Haidian, Fengtai, ShijingshanEmbassies, tech parks, residential expansion, urban infrastructure
Outer Suburban/New DevelopmentMentougou, Fangshan, Tongzhou, Shunyi, Changping, Daxing, Huairou, Pinggu (Shunyi), sub-center (Tongzhou), industrial parks, transition to rural
Peripheral/Rural-EcologicalMiyun, Yanqing (with extensions in Huairou, Pinggu)Mountains, water sources, lower density (under 500/km² in parts), conservation areas
This division layout reflects Beijing's evolution from a walled imperial capital to a modern metropolis, balancing urban growth with regional functions under centralized municipal oversight.

Urban and Rural Districts

's 16 administrative exhibit a spectrum from highly urbanized central zones to predominantly rural peripheries, reflecting the municipality's vast 16,410 km² extent where urban development concentrates in the north-central plain while rural areas dominate the surrounding mountains and fringes. The urban —Dongcheng, Xicheng, Chaoyang, Fengtai, Shijingshan, Haidian, Tongzhou, Shunyi, Changping, and Daxing—primarily feature dense residential, commercial, and industrial within or near the ring roads, accommodating over 90% of the municipality's 21.86 million residents as of 2023, with population densities often exceeding 5,000 persons per km². These areas drive Beijing's economy through sectors like , , and services, supported by extensive including and highways. In contrast, the rural districts—Mentougou, Fangshan, Pinggu, Huairou, Miyun, and Yanqing—cover larger terrains with lower densities below 1,000 persons per km², emphasizing agriculture, forestry, mining, and ecological preservation amid hilly and mountainous landscapes. For instance, Mentougou District spans 1,331 km² with around 290,000 residents, focusing on and in valleys like Jietai Temple area, while Fangshan District, at 1,867 km² and 945,000 people, includes stone quarrying and agricultural plains alongside features. Miyun and Yanqing districts, formerly counties until administrative upgrades in the , retain significant rural townships and villages, with Miyun managing key reservoirs for Beijing's and Yanqing hosting the venues amid orchards and grasslands. These rural zones, comprising over 80% of Beijing's land area, serve as buffers for urban expansion, biodiversity conservation, and recreational spaces, though facing pressures from suburbanization and environmental protection policies.
District TypeDistrictsApproximate Share of Population (2023)Key Characteristics
UrbanDongcheng, Xicheng, Chaoyang, Fengtai, Shijingshan, Haidian, Tongzhou, Shunyi, Changping, Daxing~19.5 million (90%)High density, built-up areas, economic hubs
RuralMentougou, Fangshan, Pinggu, Huairou, Miyun, Yanqing~2.4 million (10%)Low density, agriculture, mountains, eco-functions
This urban-rural dichotomy underscores Beijing's role as a with integrated planning to balance development and , as evidenced by policies relocating non-capital functions to outer districts like Tongzhou to alleviate central congestion.

Topography and Geomorphology

Mountain Ranges and Hills

Beijing's mountainous terrain predominates in the north, west, and northeast, encompassing about 62% of the municipality's 16,410 square kilometers. These elevations, part of broader ranges including the Yanshan Mountains to the northeast and north, and the extending into the west, rise sharply from the central plains, forming a protective arc that buffers the urban core against northerly winds and arid steppes. The Yanshan range, with its folded and faulted structures, delineates the northern boundary, influencing local drainage and providing watershed protection for the city's reservoirs. The Western Hills, known as Xishan, constitute the easternmost extension of the into Beijing's western districts, such as Mentougou and Fangshan, covering roughly 17% of the municipal area with peaks exceeding 2,000 meters. The highest point in Beijing, Dongling Mountain (Lingshan), reaches 2,303 meters above in this range, supporting dense forests and serving as a key ecological zone. Other notable summits include Haituo Mountain at 2,241 meters and Baihua Mountain at approximately 2,112 meters, both within the northwestern highlands. Eastern and southeastern Beijing features lower hills and undulating ridges, remnants of the Yanshan system, with elevations generally below 500 meters in areas like Pinggu and Shunyi districts; these transition gradually into the without forming distinct high ranges. These features, less rugged than their western and northern counterparts, contribute to varied microclimates and support suburban development while preserving forested buffers.

Plains and Lowlands

The plains and lowlands of Beijing constitute the southeastern expanse of the municipality, forming the northern terminus of the expansive , which spans approximately 409,500 square kilometers across multiple provinces. Within Beijing, these flat terrains cover roughly 6,032 square kilometers, characterized by low relief and elevations predominantly below 50 meters, with the urban core situated between 30 and 40 meters above sea level. The topography slopes gently from northwest to southeast, facilitating drainage toward the . These lowlands originated from alluvial and diluvial deposits laid down by major rivers including the Yongding, Chaobai, and Wenyu, which transported sediments from upstream mountain ranges over millennia. The resulting soils are fertile, dominated by yellowish and alluvial materials that support intensive agricultural use in peripheral areas, though has converted much of the plain into built environments since the late . Beijing Municipality's total area of 16,410.54 square kilometers includes these plains as the primary lowland zone, contrasting sharply with the mountainous northwest that comprises about 62% of the territory. Human activities have induced challenges such as land , with rates exceeding 100 millimeters per year in some urban districts due to excessive extraction for the city's 22 million residents. This exacerbates risks on the flat , where natural drainage is impeded by impervious surfaces from rapid development. Despite these issues, the plains underpin Beijing's economic vitality, hosting industrial zones, farmland producing and , and the dense of the capital.

Geology

Underlying Formations

The Beijing region's geological foundation rests on the crystalline basement of the , comprising gneisses and migmatites formed during orogenic events. These rocks underlie strata and form the stable core beneath the overlying sedimentary sequences. Paleozoic formations, particularly and carbonates, overlie the basement and constitute key and reservoir units. The Lower features purple-red shales interbedded with limestones, while the Middle and Upper to intervals are dominated by thick-bedded and limestones, which serve as primary geothermal reservoirs in the subsurface. These carbonate platforms developed in shallow marine environments prior to the region's tectonism. Mesozoic strata, including sandstones, conglomerates, and from rift-related deposition, cap the section in faulted basins, though they are less extensive under the modern plain. subsidence in the Bohai Bay Basin has buried these older formations under clastics and alluvial-loess deposits, with bedrock depths varying from 170 meters in structural highs to over 1,500 meters in the Beijing rift depocenter. This thick sedimentary cover reflects prolonged basin evolution driven by extension following compression.

Tectonic and Seismic Features

Beijing occupies an intraplate position within the Eurasian Plate, on the northern edge of the , where tectonic activity arises from far-field stresses associated with the India-Eurasia collision to the southwest and of the Pacific Plate to the east. This setting contributes to neotectonic deformation in the adjacent Yanshan belt, influencing the geomorphic evolution of Beijing's mountainous hinterland and the underlying plain through episodic uplift and faulting. The region features multiple active fault systems, including the Nanyuan-Tongxian, Daxing, and Hexiwu faults traversing the Plain, as well as the concealed Xiadian fault to the east, which exhibits late slip rates indicative of activity. A 2021 geological survey identified 15 major active faults within Beijing municipality, more than double prior estimates, with structures like the Shunyi-Qianmen-Liangxiang fault passing directly through the urban core. These faults predominantly strike northeast-southwest or north-south, accommodating strike-slip and thrust motion under compressional regimes. Seismicity in Beijing reflects this fault framework, with the plain forming part of the seismic belt prone to intraplate events; historical records document 223 destructive since 231 B.C., including at least 10 of magnitude 6 or greater in the past 500 years. Notable events include the 1679 Sanhe-Pinggu (Ms 8.0), which ruptured nearby faults and inflicted widespread destruction, and the 1057 event (M 6) southwest of the city. Modern catalogs since 1970 reveal earthquake clustering and dynamic triggering on faults such as Babaoshan and Huangzhuang-Gaoliying, exacerbated by the deep basin sediments that amplify shaking durations up to 1 minute for distant ruptures.

Hydrology

Rivers and Drainage Systems

The Yongding River constitutes the principal waterway traversing Beijing, originating from mountainous sources in and provinces before flowing southeastward through the municipality as part of the basin, ultimately discharging into the Bohai Gulf. Its total length measures 759 kilometers, encompassing a drainage area of 47,000 square kilometers, with major upper tributaries including the 437-kilometer Sanggan River and the 278-kilometer Yanghe River. Within Beijing proper, the river spans approximately 92 kilometers, channeling runoff from the northwestern highlands across alluvial plains prone to sediment deposition and historical channel shifts. The Chaobai River, Beijing's northeastern artery, drains the Yanshan Mountains eastward, forming a key segment of the system with a full length of 458 kilometers and a basin covering 19,500 square kilometers across , , and . This river system accounts for roughly 33.4 percent of Beijing's overall drainage area, facilitating the conveyance of and from upland catchments into lowland channels that merge with broader regional flows. Its path reflects a dendritic drainage pattern, with tributaries converging radially from fractured mountain terrain onto the flat expanse of the . Smaller rivers, including the Wenyu and Beiyun, supplement the network, collectively directing eastward under the influence of Beijing's —where western and northern highlands funnel water across minimal gradients toward the confluence. Annual discharge varies markedly due to the region's , with episodic flooding from monsoonal rains historically shaping channel morphology, though base flows remain low at around 6.55 billion cubic meters for the Yongding system. The overall drainage regime exhibits exorheic characteristics, with no significant internal basins, emphasizing Beijing's dependence on external inflows for hydrological balance.

Lakes, Reservoirs, and Groundwater

Beijing's lakes are largely artificial, developed historically for imperial gardens, recreation, and urban aesthetics rather than as significant natural hydrological features. Prominent examples include Kunming Lake within the Summer Palace in Haidian District, a man-made expanse central to the site's landscape design, and the Shichahai lakes in central Beijing, consisting of connected bodies known as Qianhai (Front Lake), Houhai (Back Lake), and Xihai (Western Lake). These urban lakes support tourism, boating, and seasonal activities but contribute minimally to the city's water supply due to their limited volume and pollution concerns. Reservoirs play a critical role in Beijing's water management, compensating for scarce local precipitation and runoff in the semi-arid . The Miyun Reservoir, located approximately 80 kilometers northeast of the city center in Miyun District, stands as the largest such facility in northern , with a surface area of 180 square kilometers and capacity serving as the primary source for over 20 million residents. Constructed primarily for flood control and , it has evolved into a key potable water supplier, though its levels fluctuate with inflows from the Chaobai River and upstream management. Beijing maintains around 95 reservoirs overall, but Miyun's dominance underscores the region's vulnerability to drought, prompting integrations with the South-to-North Water Diversion Project for augmentation. Groundwater extraction has historically dominated Beijing's water needs, driven by rapid , , and insufficient surface supplies, resulting in severe depletion and associated land . Prior to efforts, created funnel-shaped depressions in aquifers, with annual drawdowns exceeding sustainable recharge in the plain's porous and sand formations. The South-to-North Water Diversion Project, operational since 2014, has reversed this trend by substituting imported , reducing cumulative depletion by about 3.6 cubic kilometers from 2006 to 2018 and shrinking overexploited areas by 82 percent compared to 2015 levels as of 2021. Despite recoveries, availability remains critically low at around 118 cubic meters annually, necessitating ongoing restrictions on extraction and artificial recharge initiatives to prevent renewed stress.

Climate

Classification and Characteristics

Beijing's climate is classified as a under the Köppen-Geiger system, specifically the Dwa subtype, which denotes cold, dry winters and hot, humid summers with significant seasonal temperature contrasts. This classification reflects the region's inland position north of the , where mean temperatures in the coldest month () fall below 0 °C and the warmest month (July) exceed 22 °C, with annual under 1,000 mm but sufficient to avoid arid categorization. The Dwa designation aligns with Beijing's location in the transition zone between semi-arid steppes to the north and more humid subtropical areas to the south, resulting in a continental regime modulated by the East Asian monsoon. Key characteristics include pronounced seasonality, with average annual temperatures around 12.9 °C in the urban core, rising to 13.3 °C in recent decades due to urban heat island effects. Winters are harsh and dry, with January means of -3.7 °C and frequent sub-zero nights, while summers are warm to hot, peaking at 26.2 °C in July, often accompanied by high humidity from southerly monsoon flows. Precipitation averages 570 mm yearly, concentrated in summer (about 70% from June to August), driven by monsoon rains that can cause flooding, whereas winters see minimal snowfall and frequent dust from northerly winds carrying Gobi Desert particles. Relative humidity varies from 50-60% in winter to over 70% in summer, contributing to discomfort during peak heat and exacerbating air quality issues from stagnant conditions.
MonthAvg High (°C)Avg Low (°C)Precipitation (mm)
Jan2.4-6.73.2
Apr21.18.921.3
Jul31.121.1223.5
Oct19.48.322.1
Annual13.64.4570.0
This table summarizes monthly averages derived from long-term observations at Beijing's primary meteorological station, highlighting the skewed rainfall distribution and thermal extremes that define the Dwa profile. The climate supports temperate deciduous vegetation in rural outskirts but strains urban infrastructure through events like sandstorms and heatwaves, with over 100 days annually exceeding 25 °C.

Seasonal Patterns and Variability

Beijing experiences pronounced seasonal variations driven by the East Asian monsoon system and continental influences, resulting in cold, dry winters; transitional springs prone to dust events; hot, rainy summers; and mild, clear autumns. Average monthly temperatures range from a low of about -3°C in to a high of 26°C in July, with annual totaling approximately 544 mm, over 70% of which falls during the summer months of through . These patterns reflect the interplay of Siberian anticyclones in winter, which bring northerly winds and clear skies, and the southward migration of the in summer, enhancing humidity and convective rainfall. Winter ( to ) features freezing conditions with average highs near and lows below -5°C, accompanied by low (around 40-50%) and sparse , often as light or flurries totaling less than 10 mm per month. Winds from the northwest, influenced by the , exacerbate dryness and occasional cold snaps, with temperatures occasionally dropping below -15°C. Spring ( to May) sees rapid warming, with averages rising from 6°C to 20°C, but it is marked by high variability, including frequent dust storms originating from the and , transported by strong frontal systems; these events peaked at 11 days of sandy conditions in during early 2023, far exceeding the 2018-2022 average of 4 days, though long-term trends show a decline due to reduced extreme winds and land management efforts. Summer ( to ) is the wettest and warmest period, with highs exceeding 30°C, high (70-80%), and intense rainfall from fronts and thunderstorms, averaging 185 mm in alone; this accounts for the bulk of annual and supports agricultural activity but also heightens risks. Autumn ( to ) transitions to cooler, drier , with averages falling to 14°C by and clear skies prevailing under weak pressure gradients, though occasional remnants can introduce erratic . Interannual variability is significant, modulated by phenomena like El Niño-Southern Oscillation, leading to wetter or drier monsoons and amplified extremes such as prolonged heatwaves (e.g., temperatures above 35°C for multiple days) or unexpected late frosts; historical records indicate a high of 42.6°C in 2006 and a low of -27.6°C in 1966, underscoring the region's susceptibility to continental extremes despite mitigation through and .
MonthAvg. High (°C)Avg. Low (°C)Precipitation (mm)
January2.7-7.52.7
February5.1-4.85.5
March11.9-0.58.5
April20.26.321.3
May26.212.630.0
June29.717.353.8
July30.621.3184.9
August29.420.1167.8
September25.614.639.9
October18.87.220.7
November10.60.16.7
December4.1-5.32.6
Data based on 1961-1990 normals; recent decades show slight warming trends but persistent seasonal contrasts. Over the , Beijing's mean surface air temperature exhibited a warming trend consistent with broader patterns across , increasing at a rate of approximately 1.3–1.7°C per century since 1900, as derived from homogenized observational data. This rise accelerated in recent decades, with annual mean s in the Chinese mainland, including Beijing, showing an overall increase of about 0.14°C per decade from the mid-20th century onward, influenced by both global and local effects. The (UHI) effect has amplified this warming, with surface air temperatures in Beijing's urban core rising significantly relative to surrounding rural areas due to impervious surfaces and anthropogenic heat, contributing up to several degrees of additional nighttime warming. Precipitation in Beijing has shown relative stability in annual totals, averaging around 585 mm from 1961 to 2010, with over 85% concentrated in the summer season, but with increasing variability and amplification of extremes since the early . While overall trends indicate modest declines or stasis in mean annual rainfall across northern , including , the intensity of heavy precipitation events in the Beijing-Tianjin-Hebei region has risen markedly post-2000, driven by enhanced atmospheric moisture convergence and urban modification of local circulation. Recent extremes underscore these trends, with heatwaves becoming more frequent and intense; for instance, Beijing recorded its highest June temperature on record at 41.1°C on June 22, 2023, surpassing previous marks since 1961, followed by three consecutive days exceeding 40°C. The city's all-time high remains 41.9°C on July 24, 1999, but 2023 and 2024 summers ranked among the hottest since systematic records began in 1961, exacerbating UHI-driven heat stress. On the precipitation front, extreme flooding events have intensified, including the 2012 deluge—the heaviest in 60 years, causing 37 deaths—and severe 2023–2025 rains that delivered annual norms in days, resulting in over 40 fatalities in 2025 alone due to overwhelmed drainage systems amid urban expansion. Cold extremes persist sporadically, as in the 2024–2025 winter tied to Arctic amplification, though overall cold event frequency has declined. These events reflect compounded influences of climatic variability, rapid urbanization, and regional atmospheric dynamics rather than isolated anomalies.

Natural Environment

Soils and Vegetation

Beijing's soils vary significantly with and , reflecting pedogenic processes influenced by alluvial deposition, , and aeolian inputs in a semi-arid . In the municipality's eastern and southern plains, which comprise about 60% of the area, fluvisols predominate, developed from recent sediments of rivers like the Chaobai and Yongding, exhibiting high and clay fractions with moderate but vulnerability to compaction and nutrient leaching under . In the western and northern mountainous districts, covering roughly 40% of the land, cambisols and lithosols are common, formed by in-situ of and , featuring skeletal textures, limited depth (often <50 cm), and higher in upper horizons due to accumulation. These soils are predominantly , with free carbonates comprising 5-20% in many profiles, resulting in neutral to strongly alkaline reactions ( 7.5-8.5) that limit availability and favor base saturation but hinder acidification-sensitive crops. Pedogenesis involves decalcification in humid microclimates of the mountains, leading to formation via clay illuviation, while plains experience gleying under periodic flooding and salinization from rise, exacerbated by historical irrigation practices since the . Urban expansion has intensified mechanical compaction, reducing to <30% in green spaces and elevating heavy metal concentrations (e.g., Cd up to 1.2 mg/kg, exceeding background by 2-3 times), disrupting natural horizon differentiation. The natural vegetation of Beijing originally comprised warm-temperate mixed broadleaf-coniferous forests in the lower mountains and , transitioning to wooded steppes or grasslands on the plains, adapted to seasonal monsoons and winter droughts. Dominant pre-agricultural species included Mongolian oak (Quercus mongolica) and Liaodong oak (Quercus liaotungensis) in overstory layers, with understories of hazel (Corylus spp.), birch (Betula platyphylla), and aspen (Populus davidiana), alongside conifers like Chinese pine (Pinus tabuliformis) on drier slopes. Extensive deforestation since the Ming era for fuel and construction reduced primary forests to <5% coverage by 1949, yielding secondary successional communities dominated by oak-birch assemblages on abandoned slopes, with shrub layers of Lespedeza bicolor and . Plains vegetation, historically tall-grass prairies with Bothriochloa ischaemum and Artemisia spp., has been supplanted by croplands and urban lawns, though protected areas like the Yan Mountains preserve relict stands supporting 200+ species per site. Afforestation since the 1950s has restored ~45% forest cover by 2020, emphasizing fast-growing exotics like and hybrids, which alter microbial dynamics and understory diversity compared to native oak-pine systems. alkalinity constrains acidophilic species, favoring calcicole plants like Sophora japonica in naturalized settings, while erosion on slopes perpetuates pioneer herbs over climax forests.

Biodiversity and Ecosystems

Beijing's biodiversity is notable for a megacity, encompassing over 7,121 across 151 natural and semi-natural ecosystems, including , wetlands exceeding 60,000 hectares, and urban green spaces. coverage has risen from 12.83% in 1980 to 44.6% by 2021, correlating with increased avian diversity through expanded green areas. Urbanization has reduced native habitats, yet peripheral mountains preserve temperate dominated by such as Pinus tabuliformis and Quercus spp., supporting endemic . The vascular flora includes 1,059 species from 535 genera in urban zones, with approximately 20 species endemic or semiendemic to Beijing and adjacent Hebei Province. Native dominants like Acer spp. and Koelreuteria paniculata persist amid introduced and cultivated plants, though weeds and crops comprise significant portions of the altered urban ecosystem. Wetlands and parks host orchids such as the protected large-flowered cypripedium, reflecting efforts to integrate native vegetation into restoration projects. Fauna diversity features 612 terrestrial wild species, including 519 birds—ranking Beijing second among G20 capitals—and mammals like Siberian chipmunks (Eutamias sibiricus) and Amur hedgehogs (Erinaceus amurensis) observable even centrally. Among 503 recorded bird species are 27 nationally protected Class I taxa, such as (Aythya baeri) and the (Grus japonensis). Mountainous protected areas, including Jingxi, shelter species like brown eared-pheasants (Crossoptilon mantchuricum) and Himalayan gorals (Naemorhedus goral), underscoring the role of western and northern terrains in maintaining viable populations. Ecosystems range from semi-arid grasslands and riparian zones along rivers to constructed urban and , with green corridors favoring native (e.g., 61% native trees). These habitats face pressure from , yet policy-driven and preservation have enhanced connectivity, boosting in greenspaces. Beijing's 47 safeguarded germplasm resources and over 41,000 ancient trees further bolster resilience against urban expansion.

Human Influences on Geography

Urbanization and Land Use

Beijing's accelerated following economic reforms in , converting extensive rural and agricultural lands into built-up areas through state-directed development, including a series of concentric that delineated expansion phases. The first ring road, tracing the historic city walls demolished in the , was supplemented by the second ring road completed in 1981, with subsequent rings—third (1993), fourth (2001), fifth (2003), and sixth (2009)—each encircling progressively larger urban footprints and facilitating radial and peripheral growth into former cropland and villages. By 2013, the urban extent had expanded to 4,557 square kilometers from 1,755 square kilometers in 1999, incorporating 1,512 square kilometers of new built-up land, of which 36% occurred via contiguous extensions and 45% through inclusion of surrounding settlements. Urban construction land specifically tripled from 477 square kilometers in 1995 to 1,485 square kilometers in 2020, with the most rapid phase between 2005 and 2010 driven by pre-Olympics and industrial relocation, shifting the urban center of gravity 2.25 kilometers northeast. This expansion predominantly affected peripheral districts such as Daxing and Shunyi, where growth factors exceeded 1.2, while core districts like Dongcheng remained stable, reflecting a pattern of extensional sprawl rather than densification. Overall, added built-up areas comprised only 18% development, underscoring inefficient land consumption patterns tied to low-density and highway-oriented planning. Land use within Beijing's 16,410 square kilometer administrative area has shifted markedly, with cropland—historically dominant—declining from 53.81% in 1985 to 43.61% in 2022 as construction land absorbed agricultural and parcels to support from 10.8 million in 1990 to over 21 million by 2020, achieving an rate of 86.5% by 2017. has increased through campaigns, offsetting some conversions, yet the net effect has fragmented ecosystems and elevated land surface temperatures in newly urbanized zones. Since 2014, policies under the Beijing-Tianjin-Hebei coordinated development strategy have curbed further sprawl by relocating non-capital functions, limiting population to 23 million, and enforcing green belts, slowing annual urban land addition to under 50 square kilometers post-2010.

Environmental Challenges and Management

Beijing faces significant environmental challenges stemming from its location in a semi-arid region, rapid , and high exceeding 21 million residents, which exacerbate , , and risks from . Air quality has historically been poor due to emissions from coal combustion, vehicular traffic, and industrial sources, with fine particulate matter (PM2.5) concentrations reaching annual averages of 89.5 μg/m³ in 2013, far exceeding guidelines of 5 μg/m³. Despite a 60% reduction in PM2.5 over the subsequent decade, levels remained approximately six times above WHO standards in 2024, contributing to health impacts including respiratory diseases. persists as Beijing receives limited annual of around 600 mm, leading to of resources, which historically supplied over 50% of the city's needs and caused land rates up to 100 mm/year in some areas prior to interventions. from the advancing poses additional threats through sandstorms and , affecting Beijing's periphery and contributing to air quality degradation via dust influx. Management efforts have yielded measurable improvements through targeted policies. For air pollution, Beijing's clean air action plan, initiated in 2013, included relocating heavy industries, promoting over , and enforcing vehicle emission standards, resulting in PM2.5 levels dropping to 29.1 μg/m³ by 2025—a 67% decline—and increasing good air quality days to 290 in 2024 from 176 in 2013. Water management has focused on reducing extraction, which fell from 52.3% of total supply in 2014 to 33.3% by 2020, supplemented by the South-North Water Diversion Project's eastern route operational since 2013, delivering over 5 billion cubic meters annually to northern regions including and enabling recovery with levels rising above 2005 benchmarks by 2021. To combat , participates in the Three-North Shelterbelt Program (Great Green Wall), a nationwide initiative launched in 1978 that has planted billions of trees across northern , stabilizing dunes, reducing sandstorm frequency by enhancing vegetation cover, and mitigating dust transport to urban areas. These measures have collectively curbed rates, with areas experiencing less than 20 mm/year expanding significantly post-2016 due to integrated recharge and extraction controls. Ongoing challenges include episodic events, as seen in September 2025 when ranked among the world's top 10 most polluted cities with AQI exceeding 140, and potential seismic risks from rising tables induced by diversion projects. Sustained enforcement remains critical, as improvements rely on continued industrial shifts and monitoring, with 2025 data showing 168 good air quality days in the first seven months alongside a 19% year-on-year PM2.5 reduction.

References

  1. https://english.beijing.gov.cn/beijinginfo/facts/202006/t20200601_1912281.html?v%253Djt
  2. https://pmc.ncbi.nlm.nih.gov/articles/PMC7834495/
  3. https://www.latlong.net/place/beijing-china-27567.html
  4. https://latitude.to/map/cn/china/cities/beijing
  5. https://www.geodatos.net/en/coordinates/china/beijing
  6. https://english.beijing.gov.cn/beijinginfo/facts/202006/t20200601_1912281.html
  7. https://www.britannica.com/place/Beijing/Landscape
  8. https://beijing-travels.com/beijing_guide/overview/geography.html
  9. https://english.beijing.gov.cn/beijinginfo/facts/administrativedistricts/
  10. https://chinafolio.com/provinces/beijing/
  11. http://atlasofurbanexpansion.org/cities/view/Beijing_Beijing
  12. http://english.beijing.gov.cn/government/administrativedistricts/index.html
  13. https://www.topchinatravel.com/beijing/beijing-districts.htm
  14. https://www.citiesabc.com/city/beijing
  15. https://www.tandfonline.com/doi/full/10.1080/15387216.2025.2480276
  16. https://www.chinadailyhk.com/hk/article/599711
  17. https://www.citypopulation.de/en/china/beijing/admin/
  18. https://storymaps.arcgis.com/stories/142ecef3bbc6486a946136920e237005
  19. https://en.wikivoyage.org/wiki/Beijing
  20. https://www.researchgate.net/figure/The-14-districts-and-two-counties-of-Beijing_fig1_230644165
  21. https://www.sciencedirect.com/science/article/abs/pii/S0264275120313883
  22. https://english.beijing.gov.cn/beijinginfo/facts/demographicgeography/202005/t20200518_1900888.html
  23. https://www.mdpi.com/1999-4907/6/1/225
  24. http://en.chinaculture.org/gb/en_map/2003-09/24/content_21529.htm
  25. https://english.visitbeijing.com.cn/article/4Bvfvdxc54x
  26. https://english.visitbeijing.com.cn/article/47ONZjfyjoC
  27. https://www.britannica.com/place/North-China-Plain
  28. https://www.researchgate.net/figure/Topographic-map-of-Beijing-Plain_fig8_257681229
  29. https://pmc.ncbi.nlm.nih.gov/articles/PMC9448723/
  30. https://xueshu.baidu.com/usercenter/data/paperhelp?cmd=paper_forward&longsign=f8f5ac0c401a232cb66e4c29e2d5cba7&title=Primary%2520establishment%2520of%2520stratigraphic%2520section%2520in%2520plain%2520area%2520of%2520Beijing%253A%2520Archean%2520crystalline%2520basement%2520and%2520Proterozoic%2520strata&fr=wise&tn=SE_baiduxueshuwise_y5e9t2rx
  31. https://www.eurekalert.org/news-releases/1063321
  32. https://www.sciencedirect.com/science/article/pii/S2095383616300840
  33. https://www.researchgate.net/publication/287857592_Sequence_stratigraphy_of_Cambrian_in_Western_Hills_Beijing
  34. https://www.geojournals.cn/georeven/georeven/article/html/19930567
  35. https://www2.jpgu.org/meeting/2011/yokou/SCG010-P06_E.pdf
  36. https://www.sciencedirect.com/science/article/pii/S2666519024000323
  37. https://pubs.geoscienceworld.org/gsa/gsabulletin/article/95/3/295/186697/An-outline-of-the-plate-tectonics-of-China
  38. https://www.sciencedirect.com/science/article/abs/pii/S0169555X16300034
  39. https://pubs.geoscienceworld.org/ssa/srl/article/doi/10.1785/0220240456/653657/The-Shallow-S-Wave-Structure-in-Beijing-Plain
  40. https://pmc.ncbi.nlm.nih.gov/articles/PMC9565451/
  41. https://www.scmp.com/news/china/science/article/3128469/china-earthquake-survey-doubles-beijings-high-risk-fault-lines
  42. https://speed.mox.polimi.it/beijing-earthquake/
  43. https://link.springer.com/article/10.1007/s13753-024-00568-4
  44. https://www.sciencedirect.com/science/article/pii/S0013795219307203
  45. https://academic.oup.com/gji/article/185/3/1321/603250
  46. https://agupubs.onlinelibrary.wiley.com/doi/full/10.1002/2017GL072638
  47. https://academic.oup.com/gji/article/211/2/1005/4082209
  48. https://www.inbo-news.org/wp-content/uploads/2025/10/2025_Webinaire_SfN_Presentation_HWCC-China.pdf
  49. https://www.mdpi.com/2073-4441/13/11/1489
  50. https://www.frontiersin.org/journals/ecology-and-evolution/articles/10.3389/fevo.2023.1201120/full
  51. https://www.spiedigitallibrary.org/conference-proceedings-of-spie/6045/604539/Study-of-Chaobai-River-wetland-resources-and-environment-based-on/10.1117/12.651860.pdf
  52. https://www.sciencedirect.com/science/article/abs/pii/S0048969723052853
  53. https://www.thechinaguide.com/sight/houhai-lake
  54. https://www.visitacity.com/en/beijing/attractions/houhai-lake
  55. https://water.nature.org/waterblueprint/city/beijing/
  56. https://wldb.ilec.or.jp/Display/html/3525
  57. https://english.www.gov.cn/policies/latestreleases/202510/11/content_WS68ea4d30c6d00ca5f9a06b2b.html
  58. https://www.nature.com/articles/s41467-020-17428-6
  59. https://english.www.gov.cn/news/topnews/202204/15/content_WS6258d5cec6d02e53353295ae.html
  60. https://www.sciopen.com/article/10.26599/JGSE.2023.9280024
  61. https://www.nature.com/articles/s41597-023-02549-6
  62. https://agupubs.onlinelibrary.wiley.com/doi/full/10.1029/2020JD034310
  63. http://www.climatechange.cn/EN/10.12006/j.issn.1673-1719.2018.177
  64. https://climateknowledgeportal.worldbank.org/country/china
  65. https://www.climatestotravel.com/climate/china/beijing
  66. https://weatherspark.com/y/131055/Average-Weather-in-Beijing-China-Year-Round
  67. https://en.climate-data.org/asia/china/beijing/beijing-134/
  68. https://worldweather.wmo.int/en/city.html?cityId=237
  69. https://www.the-innovation.org/article/id/650125926d540000e5002382
  70. https://link.springer.com/article/10.1007/s13351-020-9839-6
  71. https://www.int-res.com/articles/cr_oa/c090p095.pdf
  72. https://journals.ametsoc.org/view/journals/apme/52/8/jamc-d-12-0125.1.xml
  73. https://www.researchgate.net/figure/Historical-and-projected-precipitation-in-Beijing_fig1_353947848
  74. https://www.sciencedirect.com/science/article/pii/S0169809524004770
  75. https://agupubs.onlinelibrary.wiley.com/doi/full/10.1029/2019JD031728
  76. https://www.bbc.com/news/world-asia-china-65984383
  77. https://www.reuters.com/world/china/beijing-braces-extreme-heat-third-straight-day-2023-06-24/
  78. https://www.extremeweatherwatch.com/cities/beijing
  79. https://chineseclimatepolicy.oxfordenergy.org/book-content/background/impacts-of-climate-change-in-china/recent-extreme-weather-events/
  80. https://chinaworker.info/en/2025/08/03/47535/
  81. https://agupubs.onlinelibrary.wiley.com/doi/full/10.1029/2024GL113745
  82. https://www.researchgate.net/publication/376719850_Late_holocene_soil_evolution_and_environment_change_in_the_southeast_suburbs_of_Beijing_China
  83. https://www.mdpi.com/2073-445X/12/9/1696
  84. https://ecologicalprocesses.springeropen.com/articles/10.1186/s13717-014-0023-8
  85. https://www.sciencedirect.com/science/article/abs/pii/S0269749109004412
  86. https://www.urbanhabitats.org/v01n01/beijing_full.html
  87. https://wildbeijing.org/wild-plants-of-beijing/
  88. https://english.news.cn/20250523/28d071aa250a472588a97e04dd892944/c.html
  89. https://english.beijing.gov.cn/latest/news/202505/t20250530_4103154.html
  90. https://english.beijing.gov.cn/specials/livablegreenbeijing/livablegreennews/202402/t20240204_3554958.html
  91. https://spj.science.org/doi/10.34133/ehs.0068
  92. https://www.scidb.cn/en/detail?dataSetId=80c5dcc582e4487f9067c3660140dc0a
  93. https://news.cgtn.com/news/2020-05-27/City-of-Wild-Beijing-has-more-wildlife-than-you-think-QOpz2eHcWY/index.html
  94. https://wb.beijing.gov.cn/en/express/202411/t20241106_3935183.html
  95. https://wildbeijing.org/a-guide-to-the-mammals-of-beijing/
  96. https://en.shanshui.org/information/2284/
  97. https://openpublishing.library.umass.edu/fabos/article/2404/galley/2638/download/
  98. https://www.lincolninst.edu/publications/articles/urban-spatial-patterns-infrastructure-beijing/
  99. https://www.mdpi.com/2076-3417/14/20/9369
  100. https://www.mdpi.com/2073-445X/13/12/1997
  101. https://www.peak-urban.org/blog/what-can-growth-beijing-metropolitan-area-teach-us-about-cities
  102. https://english.beijing.gov.cn/latest/news/202505/t20250512_4086480.html
  103. https://www.theguardian.com/environment/article/2024/aug/09/beijing-air-pollution-study-could-unlock-solution-to-persistent-smog
  104. https://pmc.ncbi.nlm.nih.gov/articles/PMC11874330/
  105. https://earth.org/desertification-in-china/
  106. https://en.qstheory.cn/2025-06/09/c_1099081.htm
  107. https://theprogressplaybook.com/2025/05/12/in-numbers-how-beijing-cleaned-up-its-air/
  108. https://www.nature.com/articles/s41467-025-62719-5
  109. https://www.tandfonline.com/doi/full/10.1080/15481603.2024.2315708
  110. https://www.iqair.com/newsroom/beijing-among-top-10-most-polluted-cities-in-the-world-09-12-2025
  111. https://www.nature.com/articles/s41467-025-56525-2
  112. https://english.beijing.gov.cn/specials/livablegreenbeijing/livablegreennews/202508/t20250815_4174458.html
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