Page 184 - 《水资源与水工程学报》2025年第2期
P. 184
1 0 & ' ( ) & * + , - 2025 $
8
[10]È ß, ¨s7. F[¨?;zîbc¡F[ I n&ìí: ©^_$`( n) æ¶[J]. YZ,2021,
gT[J]. !"F[*n,2023,44(8):106 43(9):18081820.
115. [24]MARTINEZP,BLANCOM.Sensitivityofagriculturalde
[11]s2, . L[Iÿ*k×»ª¡F[ Ig velopmenttowaterrelateddrivers :thecaseofAndalusia
T: =5¬l>wTd()[J]. F[P( (Spain)[J].Water,2019,11(9):1854.
),2021,42(4):735744. [25]¨¶¾, ³ u, Ùß. ^_vnF[L[ IÑYT
[12]FEIRilong,XIEMengyuan,WEIXin,etal.Hasthewa ½[J]. L[1IZ,2021,40(8):129
terrightssystem reform restrained thewaterrebound 135.
effect ?EmpiricalanalysisfromChina’sagriculturalsector [26]SINGHG,GANDHIVP,JAIND.Microirrigationadop
[J]. AgriculturalWaterManagement, 2021, 246: tionandtheJevons ’Paradox:astudyfromfourstatesof
106690. India[J].AgriculturalWaterManagement,2024,303:
[13]XUHang,YANGRui,SONGJianfeng.Agriculturalwa 109040.
teruseefficiencyandreboundeffect :astudyforChina [27]WHEELERSA,CARMODYE,GRAFTONRQ,etal.
[J].InternationalJournalofEnvironmentalResearchand Thereboundeffectonwaterextractionfromsubsidisingir
PublicHealth ,2021,18(13):7151. rigationinfrastructureinAustralia[J].Resources,Con
[14]FANGLin,WUFengping,YUYantuan,etal.Irrigation servationandRecycling,2020,159:104755.
technologyandwaterreboundinChina ’sagriculturalsec [28]Ùß, îFM, *)Q. L[ IÑYV()Ûe
tor[J].JournalofIndustrialEcology,2020,24(5): [J]. IYZ»,2017,28(3):452461.
10881100. [29]SONGJianfeng,GUOYanan,WUPute,etal.Theagri
[15]CHAIYing,LILin,MAZilong,etal.Mediationofthe culturalwaterreboundeffectinChina[J].EcologicalE
agriculturalwaterreboundeffectthroughclimatecondi conomics,2018,146:497506.
tionsandtypesofcropmix[J].IrrigationandDrainage, [30]¨ÊÊ, x». c:¬û#[;¦î
H
2023,73(2):663675. ½ [J]. c:Ö&*,2022,31
[16]PAULC,TECHENAK,ROBINSONJS,etal.Re (3):493502.
boundeffectsinagriculturallandandsoilmanagement: [31]»^^, ¨ò, ³Í. =5 Epanechnikov *Xè
reviewandanalyticalframework[J].JournalofCleaner ËPMÂT!ÃEè]*ªîÂgRÁ[J]. E
Production ,2019,227:10541067. èþ«PÚ,2016,36(11):120126.
[17]XUHang,YANGRui.Doesagriculturalwaterconserva [32]TONEK.Aslacksbasedmeasureofsuperefficiencyin
tionpolicynecessarilyreduceagriculturalwaterextrac dataenvelopmentanalysis [J].EuropeanJournalofOper
tion?EvidencefromChina[J].AgriculturalWaterMan ationalResearch ,2002,143(1):3241.
agement,2022,274:107987. [33]GÂò, ¼, ¦ÿ`. c:¬ûwò;¦¨?;
[18]Õº~, s 0. F[k×»ª!TF[ IÑYV zîT
Q©[J]. !";¦F[Z( !Æ),
Q©: =5c:!!qwò>zn`¡SÖÌ> 2024,32(2):344354.
[J]. HIL[,2022(6):107111+116. [34]OH DH.AglobalMalmquist-Luenbergerproductivity
[19]Y =, ³ G, *HÞ. 3_ËÌHIk×、 L[ I. index [J].JournalofProductivityAnalysis,2010,34
ÑYV*vníN: =5 Malmquist J LMDI Ì (3):183197.
½[J]. þnZ,2022,37(8):21812194. [35]î o, îPu, 1lÌ, Q. c:¬ûI Ï wòâ
[20]³üü, "t. !"#[ IYVTd[J]. k k/Â
«¦Q©()[J]. I*I#$Z,
>*ðã,2021,37(3):121124. 2023,34(5):106115.
[21]PFEIFFERL,LINCYC.Doesefficientirrigationtech [36]óúÌ, 1ò, ¨6j. !"F[ Iîn&ìí
nologyleadtoreducedgroundwaterextraction?Empirical *
÷ÄNï() [J]. I;¦ZÃÁ,2023,44
evidence[J].JournalofEnvironmentalEconomicsand (3):2634.
Management,2014,67(2):189208. [37]¼Äí, ¾G, © 0. ÕhÖ&;¦ÍNT
[22]HAMIDOVA,KASYMOVU,DJUMABOEVK,etal. *«¦H»: =5ÏB;¦@í%T½[J].
ReboundeffectsinirrigatedagricultureinUzbekistan :a !"7A·*,2024,34(8):136147.
stakeholderbasedassessment[J].Sustainability,2022, [38]L>, 1. =5Ö&BgT^v
H*
14(14):8375. íN()[J]. I*I#$Z,2024,35(4):
[23]³ u, 1 É, Ùß. mnF[L[ IÑYV´ 187197.
