2022年 第13卷 第6期
《工程(英文)》 >> 2022年 第13卷 第6期 doi: 10.1016/j.eng.2021.06.026
澜沧江-湄公河流域气候和水资源变化的过去和将来——现有的认识和未来的研究方向
a School of Environmental Science and Engineering, Southern University of Science and Technology, Shenzhen, 518055, China
b Regional Climate Group, Department of Earth Sciences, University of Gothenburg, Gothenburg, Sweden
c Department of Civil and Environmental Engineering, Michigan State University, East Lansing, MI 48824, USA
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摘要
The Lancang–Mekong River (LMR) is an important transboundary river that originates from the Tibetan plateau, China and flows through six nations in Southeast Asia. Knowledge about the past and future changes in climate and water for this basin is critical in order to support regional sustainable development. This paper presents a comprehensive review of the scientific progress that has been made in understanding the changing climate and water systems, and discusses outstanding challenges and future research opportunities. The existing literature suggests that: ① the warming rate in the Lancang–Mekong River basin (LMRB) is higher than the mean global warming rate, and it is higher in its upper portion, the Lancang River basin (LRB), than in its lower portion, the Mekong River basin (MRB); ② historical precipitation has increased over the LMRB, particularly from 1981 to 2010, as the wet season became wetter in the entire basin, while the dry season became wetter in the LRB but drier in the MRB; ③ in the past, streamflow increased in the LRB but slightly decreased in the MRB, and increases in streamflow are projected for the future in the LMRB; and ④ historical streamflow increased in the dry season but decreased in the wet season from 1960 to 2010, while a slight increase is projected during the wet season. Four research directions are identified as follows: ① investigation of the impacts of dams on river flow and local communities; ② implementation of a novel water–energy–food–ecology (WEFE) nexus; ③ integration of groundwater and human health management with water resource assessment and management; and ④ strengthening of transboundary collaboration in order to address sustainable development goals (SDGs).
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参考文献
[ 1 ] Nelson B. Too little or too much? Missing the Goldilocks zone of hospital capacity during COVID-19. BMJ 2020;369:m2332. 链接1
[ 2 ] Haroon S, Chandan JS, Middleton J, Cheng KK. COVID-19: breaking the chain of household transmission. BMJ 2020;370:m3181. 链接1
[ 3 ] Wilder-Smith A, Cook AR, Dickens BL. Institutional versus home isolation to curb the COVID-19 outbreak—authors’ reply. Lancet 2020;396(10263):1632‒3. 链接1
[ 4 ] Chen S, Chen Q, Yang J, Lin L, Li L, Jiao L, et al. Curbing the COVID-19 pandemic with facility-based isolation of mild cases: a mathematical modeling study. J Travel Med 2020;28(2):taaa226. 链接1
[ 5 ] Chen S, Zhang Z, Yang J, Wang J, Zhai X, Bärnighausen T, et al. Fangcang shelter hospitals: a novel concept for responding to public health emergencies. Lancet 2020;395(10232):1305‒14. 链接1
[ 6 ] AtlanticThe. What’s behind South Korea’s COVID-19 exceptionalism [Internet]. The Atlantic Monthly Group; [updated 2020 May 6; cited 2020 May 14]. Available from: https://www.theatlantic.com/ideas/archive/2020/05/whats-south-koreas-secret/611215/. 链接1
[ 7 ] Her M. Repurposing and reshaping of hospitals during the COVID-19 outbreak in South Korea. One Health 2020;10:100137. 链接1
[ 8 ] Chia ML, Him Chau DH, Lim KS, Yang Liu CW, Tan HK, Tan YR. Managing COVID-19 in a novel, rapidly deployable community isolation quarantine facility. Ann Intern Med 2021;174(2):247‒51. 链接1
[ 9 ] Towards Data Science. COVID-19—what do we know about the situation in Vietnam? [Internet]. [updated 2020 May 2; cited 2020 Nov 13]. Available from: https://towardsdatascience.com/covid-19-what-do-we-know-about-thesituation-in-vietnam-82c195163d7e. 链接1
[10] Chen S, Yang J, Yang W, Wang C, Bärnighausen T. COVID-19 control in China during mass population movements at New Year. Lancet 2020;395(10226):764‒6. 链接1
[11] Centers for Disease Control and Prevention. Operational considerations for community isolation centers for COVID-19 in low-resource settings [Internet]. Washington, DC: US Department of Health & Human Services; [updated 2020 Aug 19; cited 2020 Sep 29]. Available from: https://www.cdc.gov/coronavirus/2019-ncov/global-covid-19/operational-considerations-isolation-centers.html. 链接1
[12] World Health Organization. Operational considerations for case management of COVID-19 in health facility and community. Interim guidance. Pediatria i Med Rodz 2020;16(1):27‒32. 链接1
[13] Lipsitch M, Swerdlow DL, Finelli L. Defining the epidemiology of COVID-19-studies needed. N Engl J Med 2020;382(13):1194‒6. 链接1
[14] Goh KJ, Choong MC, Cheong EH, Kalimuddin S, Wen SD, Phua GC, et al. Rapid progression to acute respiratory distress syndrome: review of current understanding of critical illness from COVID-19 infection. Ann Acad Med Singap 2020;49(1):1‒9. 链接1
[15] Greenhalgh T, Koh GCH, Car J. COVID-19: a remote assessment in primary care. BMJ 2020;368:m1182. 链接1
[16] Li M, Lei P, Zeng B, Li Z, Yu P, Fan B, et al. Coronavirus disease (COVID-19): spectrum of CT findings and temporal progression of the disease. Acad Radiol 2020;27(5):603‒8. 链接1
[17] Yousefzadegan S, Rezaei N. Case report: death due to novel coronavirus disease (COVID-19) in three brothers. Am J Trop Med Hyg 2020;102(6):1203‒4. 链接1
[18] Remuzzi A, Remuzzi G. COVID-19 and Italy: what next? Lancet 2020;395(10231):1225‒8. 链接1
[19] Yang X, Yu Y, Xu J, Shu H, Xia J, Liu H, et al. Clinical course and outcomes of critically ill patients with SARS-CoV-2 pneumonia in Wuhan, China: a singlecentered, retrospective, observational study. Lancet Respir Med 2020;8(5):475‒81. 链接1
[20] Vincent JL, Taccone FS. Understanding pathways to death in patients with COVID-19. Lancet Respir Med 2020;8(5):430‒2. 链接1
[21] Chen J, Qi T, Liu L, Ling Y, Qian Z, Li T, et al. Clinical progression of patients with COVID-19 in Shanghai, China. J Infect 2020;80(5):e1‒6. 链接1
[22] Wang L, He W, Yu X, Hu D, Bao M, Liu H, et al. Coronavirus disease 2019 in elderly patients: characteristics and prognostic factors based on 4-week follow-up. J Infect 2020;80(6):639‒45. 链接1
[23] Wu C, Chen X, Cai Y, Xia J, Zhou X, Xu S, et al. Risk factors associated with acute respiratory distress syndrome and death in patients with coronavirus disease 2019 pneumonia in Wuhan, China. JAMA Intern Med 2020;180(7):934‒43. 链接1
[24] Liang W, Liang H, Ou L, Chen B, Chen A, Ciet al L .; China Medical Treatment Expert Group for COVID-19. Development and validation of a clinical risk score to predict the occurrence of critical illness in hospitalized patients with COVID-19. JAMA Intern Med 2020;180(8):1081‒9. 链接1
[25] Phua J, Weng L, Ling L, Egi M, Lim CM, al JVDivatiaet.; Asian Critical Care Clinical Trials Group. Intensive care management of coronavirus disease 2019(COVID-19): challenges and recommendations. Lancet Respir Med 2020;8(5):506‒17. 链接1
[26] Liu W, Tao ZW, Wang L, Yuan ML, Liu K, Zhou Let al. Analysis of factors associated with disease outcomes in hospitalized patients with 2019 novel coronavirus disease. Chin Med J 2020;133(9):1032‒8. 链接1
[27] Liang WH, Guan WJ, Li CC, Li YM, Liang HR, Zhao Y, et al. Clinical characteristics and outcomes of hospitalised patients with COVID-19 treated in Hubei and outside Hubei: a nationwide analysis of China. Eur Respir J 2020;55(6):2000562. 链接1
[28] Wang X, Fang J, Zhu Y, Chen L, Ding F, Zhou R, et al. Clinical characteristics of non-critically ill patients with novel coronavirus infection (COVID-19) in a Fangcang hospital. Clin Microbiol Infect 2020;26(8):1063‒8. 链接1
[29] Liao Y, Feng Y, Wang B, Wang H, Huang J, Wu Y, et al. Clinical characteristics and prognostic factors of COVID-19 patients progression to severe: a retrospective, observational study. Aging 2020;12(19):18853‒65. 链接1
[30] Wang X. Mainland medics banking on experience to help HK fight COVID-19 [Internet]. Beijing: China Daily Information Co.; c1995‒2021 [updated 2020 Aug 3; cited 2020 Aug 4]. Available online: https://www.chinadaily.com.cn/a/202008/03/WS5f27ad72a31083481725dd2e.html. 链接1
[31] The Lancet. Sustaining containment of COVID-19 in China. Lancet 2020;395(10232):1230. 链接1
[32] Gilbert M, Dewatripont M, Muraille E, Platteau JP, Goldman M. Preparing for a responsible lockdown exit strategy. Nat Med 2020;26(5):643‒4. 链接1
[33] Petersen E, Wasserman S, Lee SS, Go U, Holmes AH, Al-Abri S, et al. COVID-19-we urgently need to start developing an exit strategy. Int J Infect Dis 2020;96(96):233‒9. 链接1
[34] Chen S, Chen Q, Yang W, Xue L, Liu Y, Yang J, et al. Buying time for an effective epidemic response: the impact of a public holiday for outbreak control on COVID-19 epidemic spread. Engineering 2020;6(10):1108‒14. 链接1
[35] National Health Commission of the People’s Republic of China. Manual for working in Fangcang shelter hospitals (3rd edition) [Internet]. Beijing: National Health Commission of the People’s Republic of China; [updated 2020 Feb 22; cited 2020 Feb 24]. Available from: https://mp.weixin.qq.com/s/va9vs4HuP8wRQM5fALQcrg.Chinese. 链接1
[36] Fine JP, Gray RJ. A proportional hazards model for the subdistribution of a competing risk. J Am Stat Assoc 1999;94(446):496‒509. 链接1
[37] Wolbers M, Koller MT, Stel VS, Schaer B, Jager KJ, Leffondré K, et al. Competing risks analyses: objectives and approaches. Eur Heart J 2014;35(42):2936‒41. 链接1
[38] Lau B, Cole SR, Gange SJ. Competing risk regression models for epidemiologic data. Am J Epidemiol 2009;170(2):244‒56. 链接1
[39] Hosmer DW, Lemeshow S, May S. Applied survival analysis: regression modeling of time to event data. New York: Wiley; 2002.
[40] McCaw ZR, Tian L, Vassy JL, Ritchie CS, Lee CC, Kim DH, et al. How to quantify and interpret treatment effects in comparative clinical studies of COVID-19. Ann Intern Med 2020;173(8):632‒7. 链接1
[41] Schoenfeld D. Partial residuals for the proportional hazards regression model. Biometrika 1982;69(1):239‒41. 链接1
[42] Austin PC, Fine JP. Practical recommendations for reporting Fine-Gray model analyses for competing risk data. Stat Med 2017;36(27):4391‒400. 链接1
[43] Prettner K, Chen S, Kuhn M, Bloom DE. Effective pandemic management that minimises economic harm [Internet]. [updated 2021 Jan 4; cited 2021 Jan 22]. Available from: https://voxeu.org/article/effective-pandemic-managementminimises-economic-harm. 链接1
[44] Chen S, Prettner K, Kuhn M, Bloom DE. The economic burden of COVID-19 in the United States: estimates and projections under an infection-based herd immunity approach. J Econ Ageing 2021;20:100328. 链接1
[45] Li X, Xu S, Yu M, Wang K, Tao Y, Zhou Y, et al. Risk factors for severity and mortality in adult COVID-19 inpatients in Wuhan. J Allergy Clin Immunol 2020;146(1):110‒8. 链接1
[46] Palaiodimos L, Kokkinidis DG, Li W, Karamanis D, Ognibene J, Arora S, et al. Severe obesity, increasing age and male sex are independently associated with worse in-hospital outcomes, and higher in-hospital mortality, in a cohort of patients with COVID-19 in the Bronx, New York. Metabolism 2020;108:154262. 链接1
[47] Xie J, Covassin N, Fan Z, Singh P, Gao W, Li G, et al. Association between hypoxemia and mortality in patients with COVID-19. Mayo Clin Proc 2020;95(6):1138‒47. 链接1
[48] Cecconi M, Piovani D, Brunetta E, Aghemo A, Greco M, Ciccarelli M, et al. Early predictors of clinical deterioration in a cohort of 239 patients hospitalized for COVID-19 infection in Lombardy, Italy. J Clin Med 2020;9(5):1548. 链接1
[49] Yuan M, Yin W, Tao Z, Tan W, Hu Y. Association of radiologic findings with mortality of patients infected with 2019 novel coronavirus in Wuhan, China. PLoS ONE 2020;15(3):e0230548. 链接1
[50] Gallo Marin B, Aghagoli G, Lavine K, Yang L, Siff EJ, Chiang SS, et al.; Predictors of COVID-19 severity: reviewa literature. Rev Med Virol 2021;31(1):1‒10. 链接1
[51] Takahashi T, Ellingson MK, Wong P, Israelow B, Lucas C, Klein J, et al.; Yale IMPACT Research Team. Sex differences in immune responses that underlie COVID-19 disease outcomes. Nature 2020;588(7837):315‒20.
[52] Uygun Ö, Ertas M, Ekizoğlu E, Bolay H, Özge A, Kocasoy Orhan E, et al. Headache characteristics in COVID-19 pandemic—a survey study. J Headache Pain 2020;21(1):121. 链接1
[53] Yu F, Geldsetzer P, Meierkord A, Yang J, Chen Q, Jiao L, et al. Knowledge about coronavirus disease 2019 among adults in China: a cross-sectional online survey. J Med Internet Res 2021;23(4):e26940. 链接1
[54] Li J, Chen Z, Nie Y, Ma Y, Guo Q, Dai X. Identification of symptoms prognostic of COVID-19 severity: multivariate data analysis of a case series in Henan Province. J Med Internet Res 2020;22(6):e19636. 链接1
[55] Pan XF, Yang J, Wen Y, Li N, Chen S, Pan A. Non-communicable diseases during the COVID-19 pandemic and beyond. Engineering 2021;7(7):899‒902. 链接1
[56] Reddy RK, Charles WN, Sklavounos A, Dutt A, Seed PT, Khajuria A. The effect of smoking on COVID-19 severity: a systematic review and meta-analysis. J Med Virol 2021;93(2):1045‒56. 链接1
[57] Chen S, Kuhn M, Prettner K. Tobacco control policies: the authors reply. Health Aff 2020;39(2):346. 链接1
[58] Chen S, Kuhn M, Prettner K, Bloom DE. Noncommunicable diseases attributable to tobacco use in China: macroeconomic burden and tobacco control policies. Health Aff 2019;38(11):1832‒9. 链接1
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