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ࢠᆭ֒భ֥ᇍඣଆൔ,ڶሱಖ ۿିླྀטੀთऎ Resources Protection,2018,34(1):16-17. (in Chinese))
Ⴕၛ༯หׄބႪ൝:①Ֆੀთളປᆜྟԛؿ,ԉٳ [ 3 ] DONOSO M, DI BALDASSARRE G, BOEGH E, et al.
ವކ“ඣਟโҤ”ളଁุЌტაົ༢֥ླ,ࢠ International hydrological programme(IHP) eighth phase:
water security: responses to local, regional and global
ᆭފੀളປᆜྟ,ھุ༢۷ປᆜ,ۿି۷ૼಒ;
challenges:strategic plan, IHP-Ⅷ ( 2014—2021 ) [ R].
②ԉٳ࿖ሱಖܿੰ,ิശሱಖඋྟ,ᇿᇗሱಖ৯֥
Paris:UNESCO,2012.
॓࿐ᄎႨ;③ᇗᄝ༢ᇍބۿିิശ,ၛି৯ิശ
[ 4 ] ቐః๕,ݹਟۑ,ਾࡹ,֩. “၂ջ၂ਫ਼” ٳඣሧჷ
টႋؓ۲োڄགა็ᅞ;④ԉٳ་൬ਔ“ݚโ”ބ
หᆘࠣඣνಆЌᅰุ༢ॿࡏ[J]. ඣሧჷЌ,2018,34
“ݚӬ൧”ࡹഡᇏඣ࿖ߌ৫ุט॥ࣚෝ,ᄝੀთҪ
(4):16-21. (ZUO Qiting,HAO Lingang,LIU Jianhua,et
૫षᅚඣ࿖ߌ֥৫ุט॥,ѩൌགྷ؟ۿି֥ླྀט。 al. Characteristics of water resources in“ Belt and Road”
ླေᆷԛ֥൞,ᄝڶሱಖ ۿିླྀטੀთࡹഡ district and its framework of water security system [ J].
ᇏ,఼טᄹ఼ඣ࿖ߌ؟ݖӱ֥ሱಖඋྟ,ѩ٤ൌགྷປ Water Resources Protection, 2018, 34 ( 4 ): 16-21. ( in
ಆ֥ሱಖሑ;఼טੳࠎԤഡീࡹഡބሱಖ৯֥ Chinese))
ႋႨ,ѩ٤ေఙߧࠎԤഡീ、ປಆܿхದোۄ [ 5 ] MONTANARI A,YOUNG G,SAVENIJE H H G,et al.
ყ,ط൞ေაሱಖཌྷླྀט,ԉٳड़קߧࠎԤഡീಆ “Panta Rhei-Everything Flows”:change in hydrology and
౯ᇍඣൎ෮౼֤֥ऍնۿི,ࣉ၂҄ࣉߧࠎ society: the IAHS scientific decade 2013—2022 [ J ].
Hydrological Sciences Journal,2013,58(6):1256-1275.
Ԥഡീ֥ੳശࠩؿᅚ。
[ 6 ] IPCC. Global warming of 1. 5 ℃ [ R]. Geneva: IPCC,
4 ࢲ ე 2018.
[ 7 ] LIU Junguo, YANG Hong, GOSLING S N, et al. Water
ಆ౯ඣ໙ีٴَگᄖ,Ӯၹᝀၳ。 ڶሱಖ ۿି
scarcity assessments in the past,present,and future[J].
ླྀטࡹഡଆൔႵིܿхਔ֒భᇍඣଆൔ֥҂ቀ,ႋ Earth’s Future,2017(5):545-559.
൞ࣂުᇍඣଆൔ֥൮ေ࿊ᄴ。 ᄝڶሱಖ ۿିླྀט [ 8 ] OKI T,KANAE S. Global hydrological cycles and world
ੀთࡹഡᇏ,൮༵ླေ߭ճඣ೬ႋھಀଧ、ֹഈ water resources[J]. Science,2000,313:1068-1072.
[ 9 ] ূഠ,Чౢ,ࢳࡹҝ. ંඣაದো໓ૼ֥ൎܱ༢
ႋھളӉહള、ሧჷႋԥթᄝଧ֩ᇗն໙ี,
ၛьູࡹഡଢѓᅳ֞ؓᅶࠎཌაࠎሙ,උႿگᄖ༢ [J]. ༆К୪ਟ॓ն࿐࿐Б(ഠ߶॓࿐ϱ),2003,3
֥ਈ߄ࣚሙٳ༅;ఃՑ,ծീ֥ൡႋྟٳ༅აб࿊ ( 6 ): 61-65. ( LEI Sheping, RUAN Benqing, XIE
උႿऎႵࠏᇅ֥گᄖಕथҦ,ࠎԤ॓࿐໙ีَ Jiancang. Function of water resource on human civilization
innovation mechanism[ J]. Journal of Northwest Sci-Tech
؟,۾ܱ؇ࠞն。
University of Agriculture and Forestry ( Social Science
ڶሱಖ ۿିླྀטੀთࡹഡଆൔაгᆀ 2017 ୍
Edition),2003,3(6):61-65. (in Chinese))
ิԛ֥ളݚᇆ߰ੀთࡹഡॿࡏ [20] ,ᄝሹุଢѓ [10] ݽ,ࡉဟ໓. э߄ᇏ֥ੀთ“ሱಖ ഠ߶”ؽჭඣ࿖ߌ
ބሹุଆൔ֩ٚ૫ࠎЧ၂ᇁ。 ᄝൌဒᆣݖӱᇏ, ંა࣮ٚم[ J]. ඣ০࿐Б,2016,47(10):1219-
ളݚᇆ߰ੀთթᄝၛ༯҂ቀ:၂൞ၹੀთЧദ 1226. ( WANG Hao, JIA Yangwen. Theory and study
ࣼॖ൪ቔ၂োള༢,ੀთЧദࣼ൞၂োݚ methodology of dualistic water cycle in river basins under
ุ [62] ,“ളੀთ”ބ“ݚੀთ”֥ۀ҂ࣈ;ؽ changing conditions [ J ]. Journal of Hydraulic
൞ໃିԉٳุགྷ“ڶሱಖ”ᆃ၂ܱਫ਼ࣥ,္ໃିุ Engineering,2016,47(10):1219-1226. (in Chinese))
གྷࡹഡᇏ۲োईծေൌགྷ“؟ေ、؟ۿିླྀט”֥ [11] GAO Shida,LIU Pan,PANG Zhengke,et al. Incorporating
ሹุေ;൞ໃିุགྷൡႋ֥ླ,္҂ьႿ reservoir impacts into flood frequency distribution
functions[J]. Journal of Hydrology,2019,568:234-246.
ࢌҭ࿐֥॓ษ。 ູՎ,ᄝՎࠎԤഈ,טᆜശູࠩڶ
[12] ݽ. ඣള໓ૼࡹഡ֥ંࠎԤࠣۄܱ໙ี
ሱಖ ۿିླྀטੀთ。
[J]. ᇏݓඣ০,2016(19):5-7. (WANG Hao. Theoretical
ҕॉ໓ང: basis and key problems of water ecological civilization
construction[J]. China Water Resources,2016(19):5-7.
[ 1 ] United Nations. Transforming our world:the 2030 agenda
(in Chinese))
for sustainable development [ R ]. New York: United [13 ] YAN D H, WANG G, WANG H, et al. Assessing
Nations,2015. ecological land use and water demand of river systems:a
[ 2 ] นक़ຫ. ᇏݓᇍඣၘࣉೆնЌ֥ྍൈս[J]. ඣሧჷ case study in Luanhe River,North China[ J]. Hydrology
Ќ,2018,34(1):16-17. (TANG Kewang. A new era of and Earth System Sciences,2012,16(8):2469-2483.
great protection for water governance in China[J]. Water [14 ] YAN Ziqi, ZHOU Zuhao, SANG Xuefeng et al. Water
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