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1.
SUSTAINABLE EXPLOITATION AND UTILIZATION OF WATER RESOURCES IN THE INLAND RIVERBASIN OF ARID NORTHWEST CHINA 总被引:10,自引:1,他引:9
马金珠 《中国地理科学(英文版)》1997,7(4):347-351
I.INTRODUCTIONThearidlandinNorthwestChina,richinlight,heat,landandmineralresources,isoneofthebiggestpotentialregionsforeconomicdevelopmentinthefuture.Itischaracterizedbydroughtclimate,scarceprecipitationandthereisnoagriculturewitholltirrigation(Liu,1980).Waterisnotonlythemostvaluablenaturalresources,butalsoveryimportantenvironmentalfactorinthisarea.Theoasesandwaterresourcesforhumansurvivalanddevelopmentaredistributedmainlyintheinlandriverbasins.Atpresentexploitationandutilizationofwater… 相似文献
2.
The South China Sea water can be divided according to depth into three boxes by the pycnoclineand a sill.Using a box model with matter balance,the net seawater fluxes were calculated to be317.9×10~4 m~3/s in box Ⅰ for the upper homogeneous layer outflowing to the adjoining oceans;67×10~4 m~3/s in box Ⅲ for the water entering the basin;240×10~4 m~3/s in box Ⅱ for water entering theSouth China Sea.The upward speed of basin water was calculated to be 8.4×10~(-5) cm/s and that ofseawater flowing up along the pycnocline was calculated to be 8.9×10~(-5) cm/s. 相似文献
3.
The processes of water resources exploitation and utilization can be divided into three stages by water resources transformation,
and the history, present situation and future trend of water resources development in piedmont areas around high mountains
of arid northwestern China. The three stages are: the stage of surface water development (the first stage), the stage of comprehensive
development of surface and ground water (the second stage) and the stage of economical development of water resources (the
third stage). The three stages link each other and show the law and processes of water resources exploitation and utilization
associated with social and technological progress. The economical water policy should run through the three stages. On this
point, however, the third stage differs from the others, particularly, refering to irrigated agriculture. The third stage
has more progressive significance because it breaks the traditional ideas on water resources development. According to our
investigation and calculation, under present conditions of water resources development, the net used water is about 160 ×
108 m3, accounting for 18% of the total water resources of northwestern China. The water resources have not been fully developed.
If the first stage is finished, the exploitable water can be increased by 91%. After the second stage, furthermore, it can
be increased by 216%.
Supported by the National Natural Science Foundation of China. 相似文献
4.
THE BALANCE BETWEEN SUPPLY AND DEMAND OF WATER RESOURCES AND THE WATER—SAVING POTENTIAL FOR AGRICULTURE IN THE HEXI CORRIDOR 总被引:5,自引:0,他引:5
The Hexi Corridor is an important base of agriculture development in Northwest China. According to recent statistics, there
are 65.94×108m3 of water resources available in the Hexi Corridor. At present, net consumption in development and utilization is 43.33×108m3. Water supply and demand reach a balance on the recent level of production, but loss of evaporation and evapotranspiration
is as much as 25.69×108m3. So net use efficiency of water resources is 59%. Based on analyzing balance between water and land considering ecological
environment at present, there exists the serious water shortage in the Shiyang River system where irrigation lands have overloaded.
There is a comparative balance between supply and demand of water resource in the Heihe River system; and the Sule River system
has some surplus water to extend irrigation land. Use of agriculture water accounts for 83.3% and ecological forest and grass
for 6.9%. The Hexi Corridor still has a great potential for water saving in agriculture production. Water-saving efficiency
of irrigation is about 10% by using such traditional technologies as furrow and border-dike irrigation and small check irrigation,
and water-saving with plastic film cover and techniques of advanced sprinkler and drip/micro irrigation etc. cansave more
than 60% of irrigated water. Incremental irrigation area for water-saving potential in the Hexi Corridor has been estimated
as 56% – 197% to original irrigation area. So the second water sources can be developed from water saving agriculture in the
Hexi Corridor under Development of the Western Part of China in large scale. This potential can be realized step by step through
developing the water-saving measures, improving the ecological condition of oasis agriculture, and optimizing allocation of
water resources in three river systems.
Foundation item: Under the auspices of the Key innovation Project Engineering of Chinese Academy of Sciences (KZcx-1-10-03)
Biography: GAO Qian-zhao (1942 –), male, a native of Changzhou, Jiangsu, Professor and supervisor of Ph. D students. His research
interests include hydrology and rational utilization of water resources in the arid zone. 相似文献
5.
LEE Do-won 《中国地理科学(英文版)》2004,14(1):21-27
1INTRODUCTIONIn the 1980s and 1990s, there was widespread belief a-mong environmentalists that uncontrolled population growth would be responsible for environment degrada-tion of all types. This neo-Malthusian belief originally surfaced in the publication of ThePopulationBombin the late 1960s. In ensuing years this belief, combined with work on environment carrying capacity and a growing environmental movement, led to the seeming-ly commonsense conclusion that high population growth and … 相似文献
6.
LI Xin 《中国地理科学(英文版)》2003,13(2):124-129
1INTRODUCTIONWiththedevelopmentoftheworld,waterdemandisincreasing,especiallywiththegrowthofpopulationinthelast50years,waterdemandforirrigationhasgreatlyincreasedforfoodproduction.Inthearidandsemi-aridareas,watershortagebecomesaheavierproblemtorestrictfoodproduction,localeconomyandenvironmentalprotection.China,with22%ofthetotalpopulationintheworld,hasonly8%offreshwaterintheglobe;watershortagehasaffectedagricultureandresident'slifeinthenorthernChina.SomescientistsindicatedthatChina'swaters… 相似文献
7.
From the point of view of urban consumption behavior, urban fresh water consumption could be classified as three types, namely,
direct, indirect and induced water consumption. A calculation approach of urban fresh water consumption was presented based
on the theory of urban basic material consumption and the input-output method, which was utilized to calculate urban fresh
water consumption of China, and to analyze its structural change and causes. The results show that the total urban fresh water
consumption increased 561.7×109m3, and the proportion to the total national fresh water resources increased by 20 percentage points from 1952 to 2005. The
proportion of direct and induced water consumption had been continuously rising, and it increased by 15 and 35 percentage
points separately from 1952 to 2005, while the proportion of indirect water consumption decreased by 50 percentage points.
Urban indirect water consumption was mainly related to urban grain, beef and mutton consumption, and urban induced water consumption
had a close relationship with the amount of carbon emission per capita. Finally, some countermeasures were put forward to
realize sustainable utilization of urban fresh water resources in China.
Foundation item: Under the auspices of Key Project of National Natural Science Foundation of China (No. 40535026) 相似文献
8.
THE GROUNDWATER RESOURCES AND ITSSUSTAINABLE DEVELOPMENTIN THE SOUTH EDGE OF TARIM BASIN 总被引:2,自引:2,他引:0
1 INTRODUCTIONSustainability as present understand comes fromword protection strategy commission, which firstly putforward some wide excepted environmental sustainability principles and three important identifications forlife support system: soil, air and water. Then, in thereport of Our Common Future (WCED, 1987), theconcept of sustainable development is put to an outstanding level. Sustainable groundwater resources development is then a great issue in the recent years andthe future (… 相似文献
9.
1 INTRODUCTION The Ussuri / Wusuli River watershed is located in the southeast part of Heilongjiang Province of China, which joins remote regions of Russia. The watershed consists of approximately 26 000 000 ha, which is about two thirds of the watershed ecosystem in Russia, one third in China. The Ussuri River forms part of the border between Russia and China, the shared border stretches more than 1100 km. Khanka/Xingkai Lake lies within both China and Russia. Its total area … 相似文献
10.
Wetland Is an important landscape existing almost DEFINITIONS OF WETLANDall over the world.In China,wetlands are distributedeverywhe。加mfrlgld-tern。。。ie zone to tropical zone,XU QI et al.dehned wetland as the soil which isfrom lmoral!o Inland from paln to pforeau and moisten by under-ground water or Is permanently ormountains.>ome ot the wetlands share the sam。char-temno。rllv soak。d by ground。ater(XU,1995).Thisacterlstlcs of other countries,and some are un… 相似文献
11.
TheSonghuaRiver,oneofthemajorriversinNortheastChina,hastwosources:thenorthsourceistheNenjiangRiverandthesouthsourceistheSecondSonghuaRiver.ThetrunkstreamoftheNenjiangRiver,risingatthesouthernfootoftheYilehuliMountain,is1370kmlonganditswatershedareais… 相似文献
12.
Estimation of ecological water requirements based on habitat response to water level in Huanghe River Delta, China 总被引:3,自引:0,他引:3
Baoshan Cui Yanyan Hua Chongfang Wang Xiaolin Liao Xuejie Tan Wendong Tao 《中国地理科学(英文版)》2010,20(4):318-329
In recent years,wetland ecological water requirements (EWRs) have been estimated by using hydrological and functional approaches,but those approaches have not yet been integrated for a whole ecosystem.This paper presents a new method for calculating wetland EWRs,which is based on the response of habitats to water level,and determines water level threshold through the functional integrity of habitats.Results show that in the Huanghe (Yellow) River Delta water levels between 5.0 m and 5.5 m are required to maintain the functional integrity of the wetland at a value higher than 0.7.One of the dominant plants in the delta,Phragmites australis,tolerates water level fluctuation of about ± 0.25 m without the change in wetland functional integrity.The minimum,optimum and maximum EWRs for the Huanghe River Delta are 9.42×106 m3,15.56×106 m3 and 24.12×106 m3 with water levels of 5.0 m,5.2 m and 5.5 m,corresponding to functional integrity indices of 0.70,0.84 and 0.72,respectively.A wetland restoration program has been performed,which aims to meet these EWRs in attempt to recover from losses of up to 98% in the delta's former wetland area. 相似文献
13.
After the winter and summer current structures on two or three latitudinal sections in Taiwan Strait were obtained from the
measured current data, the seawater fluxs through the sections were calculated. In summer, the currents in the central and
northern part of Taiwan Strait normally flow northward at a net flux of 3.32×106m3/s. In winter, the high temperature and salinity Kuroshio and South China Sea water enter Taiwan Strait from the southem section
at 1.69×106m3/s and 0.59×106 m3/s respectively, while the East China Sea water enters Taiwan Strait from the northern section at 1.02×106m3/s. About 0.40×106 m3/s of the seawater enters the South China Sea along the coast of Fujian and Guangdong; the other 0.62×106 m3/s of the seawater is mixed with the Kuroshio water and the South China Sea water in the northern sea areas. The net northward
flux is 1.74×106m3/s in winter. 相似文献
14.
CHEMICAL WEATHERING PROCESSES AND ATMOSPHERIC CO2 CONSUMPTION OF HUANGHE RIVER AND CHANGJIANG RIVER BASINS 总被引:3,自引:0,他引:3
Rock weathering plays an important role in studying the long-term carbon cycles and global climatic change. According to the
statistics analysis, the Huanghe (Yellow) River water chemistry was mainly controlled by evaporite and carbonate weathering,
which were responsible for over 90% of total dissolved ions. As compared with the Huanghe River basin, dissolved load of the
Changjiang (Yangtze) River was mainly originated from the carbonate dissolution. The chemical weathering rates were estimated
to be 39.29t/(km2·a) and 61.58t/(km2·a) by deducting the HCO
3
−
derived from atmosphere in the Huanghe River and Changjiang River watersheds, respectively. The CO2 consumption rates by rock weathering were calculated to be 120.84×103mol/km2 and 452.46×103mol/km2annually in the two basins, respectively. The total CO2 consumption of the two basins amounted to 918.51×109mol/a, accounting for 3.83% of the world gross. In contrast to other world watersheds, the stronger evaporite reaction and
infirm silicate weathering can explain such feature that CO2 consumption rates were lower than a global average, suggesting that the sequential weathering may be go on in the two Chinese
drainage basins.
Foundation item: Under the auspices of Ministry of Science and Technology Project of China (No. G1999043075)
Biography: LI Jing-ying (1974-), female, a native of Xinye of Henan Province, Ph.D., associate professor, specialized in environmental
geochemistry. E-mail: wxxljy2001@public.qd.sd.cn 相似文献
15.
ANANALYSISOFWATERRESOURCECHARACTERISTICSOFTHERIVERSINTHENORTHERNSLOPEOFTHEKUNLUNMOUNTAINSXuYoupeng(许有鹏);GaoYunjue(高蕴珏)(Depart... 相似文献
16.
EFFECTS OF AGRICULTURE RECLAMATION ON THE HYDROLOGIC CHARACTERISTICS IN THE SANJIANG PLAIN, CHINA 总被引:1,自引:1,他引:0
1 THE NATURAL ENVIRONMENTAL CHARACTERISTICS The Sanjiang Plain is located in the northeast of Heilongjiang Province, China. Russia borders this region in the north and east. Its total area is 1.088×107ha. The area of plain occupies 61.21%of the total land area and that of hill and mountain amounts to 38.79%of the total land area. It is not only one of the most important regions with large area of fresh water wetlands and with varieties of rare migratory waterfowls, but a… 相似文献
17.
DYNAMIC AND THERMOHALINE PROPERTIES OF THE MINDANAO UNDERCURRENT Ⅰ. DYNAMIC STRUCTURE 总被引:1,自引:0,他引:1
lwn0DorIONDuringthepastdeade,thestchdilyinewsingkn0wedgeonthewestemequatorialPadfic~ndrculation,espedallythel0w-latitudewesternboundaryimtsOLwnes)inthePadficdrin,wasrnarkedbytheimportantdiscoveryoftwowesternb0undaryundercurmtS,theNcwGuineaCoastalUndemirmt(NGCUC)Oindstrometal.,l987)andtheMindanaoUndemin-ent(MUC)peuandCui,l989),whichledtobeterdescrip-tionoftheverticalstruCture0fthePadficLLwncralth0ughunderstandingofthePadricLLWBChdynawhesisstillincomp1etC,bousetheinfluenceofthetwone… 相似文献
18.
(张本)(康星华)THEFEATURESOFTHENATURALRESOURCESANDTHERENOVATIONSTRATEGYOFPOYANGLAKE¥ZhangBenKangXinghua(HainanUniversity,Haikou5700... 相似文献
19.
Yang Ji-song Liu Jing-shuang Yu Jun-bao Wang Jin-da Qin Sheng-jin Li Xin-hua 《中国地理科学(英文版)》2005,15(3):262-268
Soil respiration is a main dynamic process of carbon cycle in wetland. It is important to contribute to global climate changes.
Water table and nutritious availability are significant impact factors to influence responses of CO2 emission from wetland soil to climate changes. Twenty-four wetland soil monoliths at 4 water-table positions and in 3 nitrogen
status have been incubated to measure rates of CO2 emission from wetland soils in this study. Three static water-table controls and a fluctuant water-table control, with 3
nitrogen additions in every water-table control, were carried out. In no nitrogen addition treatment, high CO2 emissions were found at a static low water table (I) and a fluctuant water table (IV), averaging 306.7mg/(m2·h) and 307.89mg/(m2·h), respectively, which were 51%–57% higher than that at static high water table (II and III). After nitrogen addition, however,
highest CO2 emission was found at II and lowest emission at III. The results suggested that nutritious availability of wetland soil might
be important to influence the effect of water table on the CO2 emission from the wetland soil. Nitrogen addition led to enhancing CO2 emissions from wetland soil, while the highest emission was found in 1N treatments other than in 2N treatments. In 3 nutritious
treatments, low CO2 emissions at high water tables and high CO2 emissions at low water tables were also observed when water table fluctuated. Our results suggested that both water table
changes and nutritious imports would effect the CO2 emission from wetland.
Foundation item: Under the auspices of the National Natural Science Foundation of China (No. 90211003) and the Knowledge Innovation
Program of Chinese Academy of Sciences (No. KACX3-SW-332)
Biography: YANG Ji-song (1978-), male, a native of Chengwu of Shandong Province, Ph.D. candidate, specialized in environmental
ecology and wetland biogeochemistry. E-mail: yangjisong@neigae.ac.cn 相似文献
20.
The objective of this study is to quantify the values of greenhouse gases (GHGs) exchange in carbon equivalents of marshes and paddy fields in the Sanjiang Plain, Heilongjiang Province, China. We obtained the GHGs exchange values based on comparable price by calculating the carbon sequestration values and the GHGs emission values of marshes and paddy fields respectively in four periods of 1982, 1995, 2000 and 2005. It is noted that the GHGs emission values are always negative. In this study, the marshes areas decreased from 1438977.0 to 775,132.2ha and the paddy fields areas increased from 417195.8 to 934205.0ha. The values of GHGs exchange of marshes varied from 135877.156×106 to 136882.534×106 yuan (RMB) and those of paddy fields varied from 1006.256×106 to 2767.645×106 yuan. The GHGs exchange values of marshes decreased from 1982 to 2005 on the whole, reversely, those of paddy fields increased, but those in 2005 were lower than those in 2000. In different periods, the GHGs exchange values were always higher in marshes than in paddy fields. The contribution rate of GHGs exchange values per unit area of marshes was also very high in different periods, and the maximum was up to 98.35% in 2005. As far as the whole wetland ecosystem (including marshes and paddy fields), assuming a linear change in GHGs exchange values, it represented a cumulative increase of 20926.757×106 yuan from 1982 to 2005. By adding GHGs exchange values increased during those four periods, we obtained a cumulative net increase values of GHGs exchange of wetland ecosystem of 18200.860×106 yuan. The results will be useful for understanding the indirect services provided by marshes and paddy fields. 相似文献