Abstract
In order to understand the changes in precipitation variability associated with the climate shift around mid-1970s, the precipitation regime changes have been analyzed over both China and the USA. Specifically, a new variable is designed based on Benford’s Law (BL) to detect precipitation regime shift by using only the first digit information of the datasets. This new variable describes the decadal precipitation regime shift more directly and clearly than the traditional variables, such mean or trend of yearly precipitation amount. It is found that there is an obvious out-phased relation for precipitation regime shift over China and the USA, i.e., a significant shift from the lower to the higher BL’s goodness of fit (weaker to stronger precipitation intensity) in the Southern China occurred in 1979, and a significant shift from the higher to the lower BL’s goodness of fit (stronger to weaker precipitation intensity) in the USA occurred around 1978.
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References
Ausloos M, Herteliu C, Ileanu B (2015) Physica A 419:736–745
Benford F (1938) Proc Am Philos Soc 78(4):551–572
Berger A, Hill T (2011) Mathematical Intelligencer 33(1):85–91
Berger A, Hill TP. 2010 Fundamental flaws in Feller’s classical derivation of Benford’s law. arXiv:1005.2598
Bormashenko E, Shulzinger E, Whyman G, Bormashenko Y (2016) Physica A 444:524–529
Ding Y, Wang Z, Sun Y (2008) Int J Climatol 28(9):1139–1161
Fang K, Seppa H, Chen D (2015) Clim Dyn 44(7–8):1777–1787
Feller W (1957) An introduction to probability theory and its applications, 2nd edn. Wiley, New York
Feng GL, Gong ZQ, Dong WJ, Li JP (2005) Acta Phys Sin 54:5494–5499
Fewster RM (2009) Am Stat 63(1):26
Findell KL, Gentine P, Lintner BR, Kerr C (2011) Nat Geosci 4:434–439
Formann A (2010) PLoS One 5(5):e10541
Graham N (1994) Clim Dyn 10(3):135–162
Guilderson TP, Schrag DP (1998) Science 281(5374):240–243
Guo ZH, Liu XM, Xiao WF, Wang JL, Meng C (2007) Resource. Science 29(6):2–9
Hartmann B, Wendler G (2005) J Clim 18(22):4824–4839
He WP, Feng GL, Wu Q, He T, Wan SQ, Chou JF (2012) Int JClimatol 32:1604–1614
He WP, Liu QQ, Jiang YD, Lu Y (2015) Chin Phys B 24(4):049205
Hill TP (1998) Am Sci 86(4):358–363
Huang R, Xu Y, Zhou L. 1999; 18:465–476.
Jin HM, He WP, Liu QQ, Wang JS, Feng GL (2016) Theor Appl Climatol 124:475–486
Lau K, Weng H (2002) J Meteorol Soc Jpn 80(6):1309–1324
Lee Y, Yeh S, Dewitte B, Moon B, Jhun J (2012) Theor Appl Climatol 107(3):623–631
Li QL, Fu ZT (2016) Commun Nonlinear Sci Numer Simulat 33:91–98
Li QL, Fu ZT, Yuan NM (2015) PLoS One 10(6):e0129161. doi:10.1371/journal.pone.0129161
Mao JY, Chan JCL, Wu GX (2011) Int J Climatol 31:847–862
Mebane WR (2004) Perspectives on Politics 2(3):525–535
Mir T (2012) Physica A 391(3):792–798
Nigrini MJ (1996) The. Journal of the American Taxation Association 18(1):72
Power SB, Smith IN (2007) Geophys Res Lett 34(18):L18702
Qian WH, Qin A (2008) Theor Appl Climatol 93(1):1–17
Sambridge M, Tkalcic H, Jackson A (2010) Geophys Res Lett 37(22):L22301
Sellars SL, Gao X, Sorooshian S (2015) J Hydrometeorol 16(2):830–842
Sen A, Sen U (2011) Europhys Lett 95(5):50008
Shao L, Ma B (2009) Modern Physics Letters A 24(40):3275–3282
Shao L, Ma B (2010) Astropart Phys 33(4):255–262
Wang F, Yang S, Higgins W, Li Q, Zuo Z (2014) Int J Climatol 34(2):286–302
Zhai P, Zhang X, Wan H (2005) J Clim 18:1096–1107
Zhao P, Zhu Y, Zhang R (2007) Clim Dyn 29(2):293–303
Zhao P, Yang S, Wang H, Zhang Q (2011) J Clim 24(18):4793–4799
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The authors acknowledge the supports from the National Natural Science Foundation of China (Nos. 41175141 and 41475048).
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Yang, L., Fu, Z. Out-phased decadal precipitation regime shift in China and the United States. Theor Appl Climatol 130, 535–544 (2017). https://doi.org/10.1007/s00704-016-1907-6
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DOI: https://doi.org/10.1007/s00704-016-1907-6