Adamowski, K. and J. Bougadis (2003), Detection of trends in annual extreme rainfall, Hydrol. Process., 17, 3547-3560.

Aguilar, E. et al. (2005), Changes in precipitation and temperature extremes in Central America and northern South America, 1961-2003, Journal of Geophysical Research-Atmospheres, 110, 15.

Agusti-Panareda, A. and R. Thompson (2002), Reconstructing air temperature at eleven remote alpine and arctic lakes in Europe from 1781 to 1997 AD, J. Paleolimnol., 28, 7-23.

Alexandersson, H. (2001), Homogenisation of climate data, difficult but necessary, Detecting and Modelling Regional Climate Change, 3-12.

Alexandrov, V., M. Schneider, E. Koleva, and J. M. Moisselin (2004), Climate variability and change in Bulgaria during the 20th century, Theoretical and Applied Climatology, 79, 133-149.

Alexandrov, V. A. and G. Hoogenboom (2000), The impact of climate variability and change on crop yield in Bulgaria, Agric. For. Meteorol., 104, 315-327.

Allan, R. and T. Ansell (2006), A new globally complete monthly historical gridded mean sea level pressure dataset (HadSLP2): 1850-2004, J. Clim., 19, 5816-5842.

Ansell, T. J. et al. (2006), Daily mean sea level pressure reconstructions for the European-North Atlantic region for the period 1850-2003, J. Clim., 19, 2717-2742.

Ashagrie, A. G., P. J. M. de Laat, M. J. M. de Wit, M. Tu, and S. Uhlenbrook (2006), Detecting the influence of land use changes on discharges and floods in the Meuse River Basin - the predictive power of a ninety-year rainfall-runoff relation?, Hydrology and Earth System Sciences, 10, 691-701.

Auer, I. and R. Bohm (1994), Combined temperature-precipitation variations in Austria during the instrumental period, Theoretical and Applied Climatology, 49, 161-174.

Auer, I. et al. (2007), HISTALP - historical instrumental climatological surface time series of the Greater Alpine Region, Int. J. Climatol., 27, 17-46.

Auer, I. et al. (2005), A new instrumental precipitation dataset for the greater alpine region for the period 1800-2002, Int. J. Climatol., 25, 139-166.

Auer, I., R. Böhm, and W. Schöner (2001), Austrian Long-Term Climate 1767-2000, vol. 395, 152 pp., ZAMG, Wien, Austria.

Auer, I., R. Böhn, and M. Maugeri (2001), A New Long-Term Gridded Precipitation Data-Set for the Alps and its Application for Map and Alpclim, Phys. Chem. Earth, 26, 421-424.

Bardossy, A. and H. J. Caspary (1990), Detection of climate change in Europe by analyzing european atmospheric circulation patterns from 18817 to 1989, Theoretical and Applied Climatology, 42, 155-167.

Bärring, L., P. Jönson, C. Achberger, M. Ekström, and H. Alexandersson (1999), The lund instrumental record of meteorological observations: reconstruction of monthly the lund instrumental record of meteorological observations: reconstruction of monthly sea-level pressure 1780-1997, Int. J. Climatol., 19, 1427-1443.

Begert, M., T. Schlegel, and W. Kirchhofer (2005), Homogeneous temperature and precipitation series of Switzerland from 1864 to 2000, Int. J. Climatol., 25, 65-80.

Begueria, S. and S. M. Vicente-Serrano (2006), Mapping the hazard of extreme rainfall by peaks over threshold extreme value analysis and spatial regression techniques, Journal of Applied Meteorology and Climatology, 45, 108-124.

Beniston, M. and D. B. Stephenson (2004), Extreme climatic events and their evolution under changing climatic conditions, Global Planet. Change, 44, 1-9.

Bergstrom, H. and A. Moberg (2002), Daily air temperature and pressure series for Uppsala (1722-1998), Clim. Change, 53, 213-252.

Blanco-Ward, D., J. M. G. Queijeiro, and G. V. Jones (2007), Spatial climate variability and viticulture in the Mino River Valley of Spain, Vitis, 46, 63-70.

Böhm, R., I. Auer, M. Brunetti, M. Maugeri, T. Nanni, and W. Schöner (2001), Regional temperature variability in the European Alps: 1760-1998 from homogenized instrumental time series, Int. J. Climatol., 21, 1779-1801.

Bolch, T. (2007), Climate change and glacier retreat in northern Tien Shan (Kazakhstan/Kyrgyzstan) using remote sensing data, Global Planet. Change, 56, 1-12.

Bonsal, B. R., X. Zhang, L. A. Vincent, and W. D. Hogg (2001), Characteristics of daily and extreme temperatures over Canada, J. Clim., 14, 1959-1976.

Borchi, F., P. Naveau, A. Keckhut, and A. Hauchecorne (2006), Detecting Variability Changes in Arctic total ozone column, J. Atmos. Solar Terr. Phys., 68, 1383-1395.

Brázdil, R., K. Chrom, P. Dobrovoln, and R. Tolaszb (2009), Climate fluctuations in the Czech Republic during the period 1961–2005, Int. J. Climatol., 29, 223-242.

Brogniez, H., R. Roca, and L. Picon (2006), A clear-sky radiance archive from Meteosat "water vapor" observations, Journal of Geophysical Research-Atmospheres, 111, 15.

Brohan, P., J. J. Kennedy, I. Harris, S. F. B. Tett, and P. D. Jones (19-12-2005), Uncertainty estimates in regional and global observed temperature changes: a new dataset from 1850, 1-35.

Bronnimann, S. (2003), A historical upper air-data set for the 1939-44 period, Int. J. Climatol., 23, 769-791.

Brunet, M., P. D. Jones, J. Sigro, O. Saladie, E. Aguilar, A. Moberg, P. M. Della-Marta, D. Lister, A. Walther, and D. Lopez (2007), Temporal and spatial temperature variability and change over Spain during 1850-2005, Journal of Geophysical Research-Atmospheres, 112.

Brunet, M., O. Saladie, P. Jones, J. Sigro, E. Aguilar, A. Moberg, D. Lister, A. Walther, D. Lopez, and C. Almarza (2006), The development of a new dataset of Spanish Daily Adjusted Temperature Series (SDATS) (1850-2003), Int. J. Climatol., 26, 1777-1802.

Brunetti, M., L. Buffoni, M. Maugeri, and T. Nanni (2000), Trends of Minimum and Maximum Daily Temperatures in Italy from 1865 to 1996, Theor. Appl. Climatol., 66, 49-60.

Brunetti, M., G. Lentini, M. Maugeri, T. Nanni, I. Auer, R. Böhm, and W. Schöner (2009), Climate variability and change in the Greater Alpine Region over the last two centuries based on multi-variable analysis, Int. J. Climatol.

Brunetti, M., F. Mangianti, M. Maugeri, and T. Nanni (2000), Urban heat island bias in Italian air temperature series, Nuovo Cimento Della Societa Italiana Di Fisica C-Geophysics and Space Physics, 23, 423-431.

Brunetti, M., M. Maugeri, F. Monti, and T. Nannia (2006), Temperature and precipitation variability in Italy in the last two centuries from homogenised instrumental time series, Int. J. Climatol., 26, 345-381.

Brunetti, N., M. Maugeri, and T. Nanni (2006), Trends of the daily intensity of precipitation in Italy and teleconnections, Nuovo Cimento Della Societa Italiana Di Fisica C-Geophysics and Space Physics, 29, 105-116.

Butler, C. J., A. M. G. Suarez, A. D. S. Coughlin, and C. Morrell (2005), Air temperatures at Armagh Observatory, northern Ireland, from 1796 to 2002, Int. J. Climatol., 25, 1055-1079.

Cahalan, R. F., L. E. Wharton, and M. L. Wu (1996), Empirical orthogonal functions of monthly precipitation and temperature over the United States and homogeneous stochastic models, Journal of Geophysical Research-Atmospheres, 101, 26309-26318.

Camuffo, D. (2002), Errors in early temperature series arising from changes in style of measuring time, sampling schedule and number of observations, Clim. Change, 53, 331-352.

Camuffo, D., C. Cocheo, and G. Sturaro (2006), Corrections of systematic errors, data homogenisation and climatic analysis of the Padova pressure series (1725-1999), Clim. Change, 78, 493-514.

Canon, J., J. Gonzalez, and J. Valdes (2007), Precipitation in the Colorado River Basin and its low frequency associations with PDO and ENSO signals, Journal of Hydrology, 333, 252-264.

Chabert, M., J. Y. Tourneret, M. Coulon, and Ieee (2003), Joint detection of variance changes using hierarchical Bayesian analysis, Proceedings of the 2003 Ieee Workshop on Statistical Signal Processing, 613-616.

Cheval, S., M. Baciu, A. Dumitrescu, T. Breza, D. R. Legatesb, and V. Chendes (2010), Climatologic adjustments to monthly precipitation in Romania, Int. J. Climatol.

Choi, Y., H. S. Jung, K. Y. Nam, and W. T. Kwon (2003), Adjusting urban bias in the regional mean surface temperature series of South Korea, 1968-99, Int. J. Climatol., 23, 577-591.

Christy, J. R., R. W. Spencer, and E. S. Lobl (1998), Analysis of the merging procedure for the MSU daily temperature time series, J. Clim., 11, 2016-2041.

Cocheo, C. and D. Camuffo (2002), Corrections of systematic errors and data homogenisation in the daily temperature Padova series (1725-1998), Clim. Change, 53, 77-100.

Conway, D., C. Mould, and W. Bewket (2004), Over one century of rainfall and temperature observations in Addis Ababa, Ethiopia, Int. J. Climatol., 24, 77-91.

Costaa, A. C. and A. Soares (2008), Trends in extreme precipitation indices derived from a daily rainfall database for the South of Portugal, Int. J. Climatol., 1-20.

Dai, A., I. Y. Fung, and A. D. Del Genio (1997), Surface observed global land precipitation variation during 1900-88, J. Clim., 10, 2943-2962.

D'Arrigo, R., R. Wilson, and G. Jacoby (2006), On the long-term context for late twentieth century warming, Journal of Geophysical Research-Atmospheres, 111, 12.

De Luis, M., J. Raventos, J. C. Gonzalez-Hidalgo, J. R. Sanchez, and J. Cortina (2000), Spatial analysis of rainfall trends in the region of Valencia (East Spain), Int. J. Climatol., 20, 1451-1469.

DeGaetano, A. T. and R. J. Allen (2002), Trends in twentieth-century temperature extremes across the United States, J. Clim., 15, 3188-3205.

DeGaetano, A. T., R. J. Allen, and K. P. Gallo (2002), A homogenized historical temperature extreme dataset for the United States, J. Atmos. Ocean. Technol., 19, 1267-1284.

Della-Marta, P., D. Collins, and K. Braganza (2004), Updating Australia's high-quality annual temperature dataset, Aust. Meteorol. Mag., 53, 75-93.

Dinpashoh, Y., A. Fakheri-Fard, M. Moghaddam, S. Jahanbakhsh, and M. Mirnia (2004), Selection of variables for the purpose of regionalization of Iran's precipitation climate using multivariate methods, Journal of Hydrology, 297, 109-123.

Domonkos, P. and P. Stepánek (2009), Statistical characteristics of detectable inhomogeneities in observed meteorological time series, Stud. Geophys. Geod., 53, 239-260.

Downton, M. W. and R. W. Katz (1993), A test for inhomogeneous variance in time-average temperature data, J. Clim., 6, 2448-2464.

Dreveton, C. and Y. Guillou (2004), Use of a principal components analysis for the generation of daily time series, J. Appl. Meteorol., 43, 984-996.

Drogue, G., O. Mestre, L. Hoffman, J. F. Iffly, and L. Pfister (2005), Recent warming in a small region with semi-oceanic climate, 1949-1998: what is the ground truth?, Theoretical and Applied Climatology, 81, 1-10.

Durre, I., T. C. Peterson, and R. S. Vose (2002), Evaluation of the effect of the Luers-Eskridge radiation adjustments on radiosonde temperature homogeneity, J. Clim., 15, 1335-1347.

Durre, I., R. S. Vose, and D. B. Wuertz (2006), Overview of the Integrated Global Radiosonde Archive, J. Clim., 19, 53-68.

Easterling, D. R., H. F. Diaz, A. V. Douglas, W. D. Hogg, K. E. Kunkel, J. C. Rogers, and J. F. Wilkinson (1999), Long-term observations for monitoring extremes in the Americas, Clim. Change, 42, 285-308.

Easterling, D. R., G. Goodge, M. J. Menne, C. N. Williams, and D. Levinson (2005), Comparison of local and regional trends in surface and lower-tropospheric temperatures in western North Carolina, Earth Interact., 9, 9.

Easterling, D. R. and T. C. Peterson (1994), The effect of artificial discontinuities on recent trends in minimum and maximum temperatures, Atmos. Res., 37, 19-26.

Easterling, D. R., T. C. Peterson, and T. R. Karl (1996), On the development and use of homogenized climate datasets, J. Clim., 9, 1429-1434.

Efthymiadis, D., P. D. Jones, K. R. Briffa, I. Auer, R. Bohm, W. Schoner, C. Frei, and J. Schmidli (2006), Construction of a 10-min-gridded precipitation data set for the Greater Alpine Region for 1800-2003, Journal of Geophysical Research-Atmospheres, 111, 22.

Elliott, W. P. and D. J. Gaffen (1991), On the utility of radiosonde humidity archives for climate studies, Bull. Am. Meteorol. Soc., 72, 1507-1520.

Erell, E. and T. Williamson (2007), Intra-urban differences in canopy layer air temperature at a mid-latitude city, Int. J. Climatol., 27, 1243-1255.

Estebanparra, M. J., F. S. Rodrigo, and Y. Castrodiez (1995), Temperature trends and change-points in the northern Spanish plateau during the last 100 years, Int. J. Climatol., 15, 1031-1042.

Evans, J. P., R. J. Oglesby, and W. M. Lapenta (2005), Time series analysis of regional climate model performance, Journal of Geophysical Research-Atmospheres, 110, 23.

Feidas, H., C. Nuolopoulu, T. Makrogiannis, and E. Bora-Senta (2007), Trend analysis of precipitation time series in Greece and their relationship with circulation using surface and satellite data: 1955-2001, Theor. Appl. Climatol., 87, 155-177.

Feng, S., Q. Hu, and W. H. Qian (2004), Quality control of daily meteorological data in China, 1951-2000: A new dataset, Int. J. Climatol., 24, 853-870.

Folland, C. K. and M. J. Salinger (1995), Surface-temperature trends and variations in New-Zealand and the Surrounding ocean, 1871-1993, Int. J. Climatol., 15, 1195-1218.

Forland, E. J. and I. Hanssen-Bauer (2003), Past and future climate variations in the Norwegian Arctic: overview and novel analyses, Polar Res., 22, 113-124.

Frank, D. and J. Esper (2005), Temperature reconstructions and comparisons with instrumental data from a tree-ring network for the European Alps, Int. J. Climatol., 25, 1437-1454.

Franke, J., V. Goldberg, U. Eichelmann, E. Freydank, and C. Bernhofer (2004), Statistical analysis of regional climate trends in Saxony, Germany, Climate Research, 27, 145-150.

Free, M. and D. J. Seidel (2005), Causes of differing temperature trends in radiosonde upper air data sets, Journal of Geophysical Research-Atmospheres, 110, 14.

Freiwan M. and Kadiogle M. (2007), Climate variability in Jordan, Int. J. Climatol.

Frich, P., L. V. Alexander, P. Della-Marta, B. Gleason, M. Haylock, A. Tank, and T. Peterson (2002), Observed coherent changes in climatic extremes during the second half of the twentieth century, Climate Research, 19, 193-212.

GALLO, K. P. (2005), Evaluation of Temperature Differences for Paired Stations of the U.S. Climate Reference Network, J. Clim., 18, 1629-1636.

Gan, T. Y. (1995), Trends in Air-Temperature and precipitation for Canada and North-Eastern USA, Int. J. Climatol., 15, 1115-1134.

Gaskill, D. W., G. L. E. R. Laboratory., and Administration.,United States.National Oceanic and Atmospheric (1981), Homogeneity Analysis of Seasonal Mean Temperature Series at 25 Stations Around the Great Lakes, NOAA Data Report ERL GLERL, 11 p. pp., National Oceanic and Atmospheric Administration, Environmental Research Laboratories, Great Lakes Environmental Research Laboratory, Ann Arbor, Michigan.

Gellens, D. (1996), Extreme Precipitation of December 1993 and January 1995 in Belgium: A Homogenization Procedure for Estimating Fractiles Corresponding to Long Return Periods., Royal Meteorological Institute of Belgium, 20, 451-454.

Gonzalez-Hidalgo, J. C., J. A. Lopez-Bustins, P. Stepanek, J. Martin-Vide, and M. Luis (2009), Monthly precipitation trends on the Mediterranean fringe of the Iberian Peninsula during the second-half of the twentieth century (1951-2000), Int. J. Climatol., 29, 1415-1429.

Griffiths, G. M. et al. (2005), Change in mean Temerature as a predictor of extreme Temperature change in the Asia-Pacific Region, Int. J. Climatol., 25, 1.301-1.330.

Griggs, C., A. DeGaetano, P. Kuniholm, and M. Newton (2007), A regional high-frequency reconstruction of May–June precipitation in the north Aegean from oak tree rings, A.D. 1089–1989, Int. J. Climatol., 27, 1.075-1.089.

Grody, N. C., K. Y. Vinnikov, M. D. Goldberg, J. T. Sullivan, and J. D. Tarpley (2004), Calibration of multisatellite observations for climatic studies: Microwave Sounding Unit (MSU), Journal of Geophysical Research-Atmospheres, 109, 12.

Groisman, P. Y., A. Knght, D. R. Easterling, T. R. Karl, G. C. Hegerl, and V. N. Razuvaev (2004), Trends in Intense Precipitation in the Climate Record, J. Clim., 18, 1.326-1.350.

Guttman, N. B. (1996), Statistical characteristics of US historical climatology network temperature distributions, Climate Research, 6, 33-43.

Hall, A. W., P. H. Whitfield, and A. J. Cannon (2006), Recent variations in temperature, precipitation, and streamflow in the Rio Grande and Pecos River basins of New Mexico and Colorado, Rev. Fish. Sci., 14, 51-78.

Hall, M. J. (2003), The interpretation of non-homogeneous hydrometeorological time series: a case study, Meteorol. Appl., 10, 61-67.

Hamilton, J. P., G. S. Whitelaw, and A. Fenech (2001), Mean annual temperature and total annual precipitation trends at Canadian biosphere reserves, Environ. Monit. Assess., 67, 239-275.

Hanna, E., T. Jonsson, and J. E. Box (2004), An analysis of icelandic climate since the nineteenth century, Int. J. Climatol., 24, 1193-1210.

Hanssen-Bauer, I. and E. J. Forland (1994), Homogenizing long Norwegian precipitation series, J. Clim., 7, 1001-1013.

Hubbard, K. G., X. Lin, C. B. Baker, and B. Sun (2004), Air temperature comparison between the MMTS and the USCRN temperature systems, J. Atmos. Ocean. Technol., 21, 1590-1597.

Inoue, T. and J. Matsumoto (2004), A comparison of summer sea level pressure over East Eurasia between NCEP-NCAR reanalysis and ERA-40 for the period 1960-99, Journal of the Meteorological Society of Japan, 82, 951-958.

Janis, M. J., K. G. Hubbard, and K. T. Redmond (2004), Station density strategy for monitoring long-term climatic change in the contiguous United States, J. Clim., 17, 151-162.

Jauregui, E. (2005), Possible impact of urbanization on the thermal climate of some large cities in Mexico, Atmosfera, 18, 249-252.

Jin, M. L., R. E. Dickinson, and D. L. Zhang (2005), The footprint of urban areas on global climate as characterized by MODIS, J. Clim., 18, 1551-1565.

Jones, P. D. and D. H. Lister (2007), Intercomparison of four different Southern Hemisphere sea level pressure datasets, Geophys. Res. Lett., 34, 7.

Jones, P. D. and A. Moberg (2003), Hemispheric and large-scale surface air temperature variations: An extensive revision and an update to 2001, J. Clim., 16, 206-223.

Jones, P. D., M. New, D. E. Parker, S. Martin, and I. G. Rigor (1999), Surface air temperature and its changes over the past 150 years, Rev. Geophys., 37, 173-199.

Jones, P. D., T. J. Osborn, T. M. L. Wigley, P. M. Kelly, and B. D. Santer (1997), Comparisons between the microwave sounding unit temperature record and the surface temperature record from 1979 to 1996: Real differences or potential discontinuities?, Journal of Geophysical Research-Atmospheres, 102, 30135-30145.

Karl, T. R., V. E. Derr, D. R. Easterling, C. K. Folland, D. J. Hofmann, S. Levitus, N. Nicholls, D. E. Parker, and G. W. Withee (1995), Critical issues for long-term climate monitoring, Clim. Change, 31, 185-221.

Karl, T. R., R. G. Quayle, and P. Y. Groisman (1993), Detecting climate variations and change - new challenges for observing and data Management - Systems, J. Clim., 6, 1481-1494.

Karl, T. R. and C. N. Williams (1987), An approach to adjusting Climatological Time Series for discontinuous inhomogeneities, Journal of climate an applied meteorology, 26, 1744-1763.

Karoly, D. J. and K. Braganza (2005), Attribution of recent temperature changes in the Australian region, J. Clim., 18, 457-464.

Keiser, D. T. and J. F. Griffiths (1997), Problems associated with homogeneity testing in climate variation studies: A case study of temperature in the northern Great Plains, USA, Int. J. Climatol., 17, 497-510.

Kemp, P. R., J. M. Cornelius, and J. F. Reynolds (1994), Temporal discontinuities in precipitation in the central north-american prairie, Int. J. Climatol., 14, 539-557.

Khaliq, M. N., T. Ouarda, A. St-Hilaire, and P. Gachon (2007), Bayesian change-point analysis of heat spell occurrences in Montreal, Canada, Int. J. Climatol., 27, 805-818.

Kipkorir, E. C. (2002), Analysis of rainfall climate on the Njemps Flats, Baringo District, Kenya, J. Arid Environ., 50, 445-458.

KLEIN TANK, A. M. G., P. K. NNEN, and F. M. SELTEN (2005), Signals of anthropogenic influence on European warming as seen in the trend patterns of daily temperature variance, Int. J. Climatol., 25, 1-16.

Klingbjer, P. and A. Moberg (2003), A composite monthly temperature record from Tornedalen in northern Sweden, 1802-2002, Int. J. Climatol., 23, 1465-1494.

Könnena, G.P., M. Zaikib, A. P. M. Baedec, T. Mikamid, P. D. Jonese,and T.Tsukaharaf (2003), Pre-1872 Extension of the Japanese Instrumental Meteorological Observation Series back to 1819, JC, 16, 118-131.

Kruger, A. C. (2006), Observed trends in daily precipitation indices in South Africa: 1910-2004, Int. J. Climatol., 26, 2275-2285.

Kruger, A. C. and S. Shongwe (2004), Temperature trends in South Africa: 1960-2003, Int. J. Climatol., 24, 1929-1945.

Kuglitsch, f. G., A. Toreti, E. Xoplaki, P. M. Della‐Marta, C. S. Zerefos, M. Türkeş, and J. Luterbacher (2010), Heat wave changes in the eastern Mediterranean since 1960, Geophys. Res. Lett., 37, 1-5.

Kumar, P. V., M. Bindi, A. Crisci, and G. Maracchi (2005), Detection of variations in air temperature at different time scales during the period 1889-1998 at Firenze, Italy, Clim. Change, 72, 123-150.

Kumar, P. V., M. Bindi, A. Crisci, and G. Maracchi (2005), Detection of variations in air temperature at different time scales during the period 1889-1998 at Firenze, Italy, Clim. Change, 72, 123-150.

Lana, X., C. Serra, and A. Burgueno (2003), Trends affecting pluviometric indices at the Fabra Observatory (Barcelona, NE Spain) from 1917 to 1999, Int. J. Climatol., 23, 315-332.

Lanzante, J. R. (2007), Diagnosis of radiosonde vertical temperature trend profiles: Comparing the influence of data homogenization versus model forcings, J. Clim., 20, 5356-5364.

Lanznate, J. R. and M. Free (2008), Comparison of Radiosonde and GCM Vertical Temperature Trend Profiles: Effects of Dataset Choice and Data Homogenization, J. Clim., 21, 5417-5435.

Last, M. and R. Shumway (2008), Detecting abrupt changes in a piecewise locally stationary time series, Journal of Multivariate Analysis, 99, 191-214.

Li, Q., H. Zhang, X. Liu, and J. Huang (2004), Urban heat island effect on annual mean temperature during the last 50 years in China, Theoretical and Applied Climatology, 79, 165-174.

Li, Q. X., X. N. Liu, H. Z. Zhang, T. C. Peterson, and D. R. Easterling (2004), Detecting and adjusting temporal inhomogeneity in Chinese mean surface air temperature data, Adv. Atmos. Sci., 21, 260-268.

Li, Y., W. Cai, and E. P. Campbell (2005), Statistical modeling of extreme rainfall in southwest Western Australia, J. Clim., 18, 852-863.

Liebmann, B. and J. A. Marengo (2001), Interannual variability of the rainy season and rainfall in the Brazilian Amazon basin, J. Clim., 14, 4308-4318.

Lin, X., K. G. Hubbard, and C. B. Baker (2005), Surface air temperature records biased by snow-covered surface, Int. J. Climatol., 25, 1223-1236.

Macdonald, N. and I. D. Phillips (2006), Reconstructed annual precipitation series for Scotland (1861-1991): Spatial and temporal variations, and links to the atmospheric circulation, Scottish Geographical Journal, 122, 1-18.

Mahmood, R., S. A. Foster, and D. Logan (2006), The GeoProfile metadata, exposure of instruments, and measurement bias in climatic record revisited, Int. J. Climatol., 26, 1091-1124.

Majorowicz, J., J. Safanda, R. Przybylak, and G. Wojcik (2004), Ground surface temperature history in Poland in the 16th-20th centuries derived from the inversion of geothermal profiles, Pure Appl. Geophys., 161, 351-363.

Maugeri, M., M. Brunetti, F. Monti, and T. Nanni (2003), The Italian air force sea level pressure data set (1951-2000), Nuovo Cimento Della Societa Italiana Di Fisica C-Geophysics and Space Physics, 26, 453-467.

Maugeri, M., L. Buffoni, B. Delmonte, and A. Fassina (2002), Daily Milan temperature and pressure series (1763-1998): Completing and homogenising the data, Clim. Change, 53, 119-149.

Mekis, E. , Working towards homogenized precipitation time-series: Daily rain gauge an snowfall ruler adjustments.

Millán, M. et al. (2005), Climatic feedbacks and desertification: The Mediterranean Model, Int. J. Climatol., 18, 684-701.

Moberg, A. and H. Alexandersson (1997), Homogenization of Swedish temperature data .2. Homogenized gridded air temperature compared with a subset of global gridded air temperature since 1861, Int. J. Climatol., 17, 35-54.

Moberg, A., H. Alexandersson, H. Bergstrom, and P. D. Jones (2003), Were southern Swedish summer temperatures before 1860 as warm as measured?, Int. J. Climatol., 23, 1495-1521.

Moberg, A., H. Bergstrom, J. R. Krigsman, and O. Svanered (2002), Daily air temperature and pressure series for Stockholm (1756-1998), Clim. Change, 53, 171-212.

Moberg, A. and P. D. Jones (2005), Trends in indices for extremes in daily temperature and precipitation in central and western Europe, 1901-99, Int. J. Climatol., 25, 1149-1171.

Moberg, A. et al. (2000), Day-to-day temperature variability trends in 160-to 275-year-long European instrumental records, Journal of Geophysical Research-Atmospheres, 105, 22849-22868.

Moberg, A. et al. (2006), Indices for daily temperature and precipitation extremes in Europe analyzed for the period 1901-2000, Journal of Geophysical Research-Atmospheres, 111.

Moisselin, J. M. and C. Canellas (2005), French homogenized sunshine-duration long-term series, Comptes Rendus Geoscience, 337, 729-734.

Moisselini, J. M. and C. Canellas (2005), Longues séries d’insolation homogénéisées en France, C. R. Geoscience, 337, 729-734.

Moron, V., S. Bigot, and P. Roucou (1995), Rainfall variability in subequatorial America and Africa and relationships with the main sea-surface temperature modes (1951-1990), Int. J. Climatol., 15, 1297-1322.

Nicholls, N. (1995), Long-term climate monitoring and extreme events, Clim. Change, 31, 231-245.

Nicholson, S. E. (2001), A semi-quantitative, regional precipitation data set for studying african climates of the nineteenth century, part I. Overview of the data set, Clim. Change, 50, 317-353.

Orlik, A., A. Jurkovic, and I. Auer , Homogenisation of new Austrian Time Series to Prepare a High Quality Climate Normal Dataset for the period 1971-2000, ZAMG.

Pandzic, K. and T. Likso , Homogeneity of average annual air temperature time series for Croatia, Int. J. Climatol.

Parker, D. and B. Horton (2005), Uncertainties in central England temperature 1878-2003 and some improvements to the maximum and minimum series, Int. J. Climatol., 25, 1173-1188.

Parker, D. E., T. A. Basnett, S. J. Brown, M. Gordon, E. B. Horton, and N. A. Rayner (2000), Climate observations - The instrumental record, Space Science Reviews, 94, 309-320.

Pasquini, A. I., K. L. Lecomte, E. L. Piovano, and P. J. Depetris (2006), Recent rainfall and runoff variability in central Argentina, Quaternary International, 158, 127-139.

Paturel, J. E., Servat,E., Kouamé,H., M. Lubés, M. Ouwckaogo, and J. M. Masson (1997), Climatic variability in humid Africa along the Gulf of Guinea Part II: an integrated regional approach, Journal of Hydrology, 191, 16-36.

Pavliotis, G. (2008), Multiscale Methods : Averaging and Homogenization, 1st ed., Springer, New York.

Peel, D. and G. J. Mclachlan (2000), Robust mixture modelling using the t distribution, Statistics and Computing, 10, 339-348.

Penlap, E. K., C. Matulla, H. von Storch, and F. M. Kamga (2004), Downscaling of GCM scenarios to assess precipitation changes in the little rainy season (March-June) in Cameroon, Climate Research, 26, 85-96.

Pepin, N. C. and W. Duane (2007), A comparison of surface and free-air temperature variability and trends at radiosonde sites and nearby high elevation surface stations, Int. J. Climatol., 27, 1519-1529.

Pepin, N. C., M. Losleben, M. Hartman, and K. Chowanski (2005), A comparison of SNOTEL and GHCN/CRU surface temperatures with free-air temperatures at high elevations in the western United States: Data compatibility and trends, J. Clim., 18, 1967-1985.

Pepin, N. C. and J. R. Norris (2005), An examination of the differences between surface and free-air temperature trend at high-elevation sites: Relationships with cloud cover, snow cover, and wind, Journal of Geophysical Research-Atmospheres, 110, 19.

Persson, T. (1999), Solar radiation climate in Sweden, Physics and Chemistry of the Earth Part B-Hydrology Oceans and Atmosphere, 24, 275-279.

Peterson, T. C. and R. S. Vose (1997), An overview of the global historical climatology network temperature database, Bull. Am. Meteorol. Soc., 78, 2837-2849.

Pielke, R. A., T. Stohlgren, L. Schell, W. Parton, N. Doesken, K. Redmond, J. Moeny, T. McKee, and T. G. F. Kittel (2002), Problems in evaluating regional and local trends in temperature: An example from eastern Colorado, USA, Int. J. Climatol., 22, 421-434.

Pineda, N., E. Jaimes, and J. Mendoza (2006), Application of multiple homogeneity index to climatologic data from Venezuela, Interciencia, 31, 817-821.

Pisoft, P., J. Kalvova, and R. Brazdil (2004), Cycles and trends in the Czech temperature series using wavelet transforms, Int. J. Climatol., 24, 1661-1670.

Planchon, O. (2000), A study of the coastal climates in France using temperature and precipitation data (1961-1990), Meteorol. Appl., 7, 217-228.

Portman, D. A. (1993), Identifying and correcting urban bias in regional time series: Surface temperature in China's Northen Plains, J. Clim., 6, 2298-2308.

Przybylak, R. (2002), Variability of total and solid precipitation in the Canadian Arctic from 1950 to 1995, Int. J. Climatol., 22, 395-420.

Quintana-Gomez, R. A. (1998), Trends of Maxium and Minium Temperature in Northern South America, J. Clim., 12, 2104-2112.

Ramos, M. C. and J. A. Martinez-Casasnovas (2006), Trends in precipitation concentration and extremes in the Mediterranean Penedes-Anoia region, NE Spain, Clim. Change, 74, 457-474.

Rodinov, S. N., J. E. Overland, and N. A. Bond (2005), The Aleutian Low and Winter Climatic Conditions in the Bering Sea. Part I: Classification, J. Clim., 18, 160-177.

Rodriguez R., Llasat M.C., and Wheeler D. (1999), Analysis of the Barcelona precipitation series 1850-1991, Int. J. Climatol., 19, 787-801.

Rodríguez, R., M. Barriendos, P. D. Jones, J. Martin-Vide, and J. C. Peña (2001), Long pressure series for Barcelona (Spain). Daily reconstruction and monthly homogenization, Int. J. Climatol., 21, 1693-1704.

Romero, R., J. A. Guijarro, C. Ramis, and S. Alonso (1998), A 30-year (1964-1993) daily rainfall data base for the Spanish Mediterranean regions: First exploratory study, Int. J. Climatol., 18, 541-560.

Ronchail, J., G. Cochonneau, M. Molinier, J. L. Guyot, A. Goretti, M. Chaves, V. Guimara, and E. Oliveira (2002), Interannual rainfall variability in the Amazon basin and sea-surface tempertures in the Equatorial Pacific and the Tropical Atlantic Oceans, Int. J. Climatol., 22, 1663-1686.

Rosenbluth, B., H. A. Fuenzalida, and P. Aceituno (1997), Recent temperature variations in southern South America, Int. J. Climatol., 17, 67-85.

Rusticucci, M. and M. Renom (2008), Variability and trends in indices of quality-controlled daily temperature extremes in Uruguay, Int. J. Climatol., 28, 1083-1095.

Sahin, S. and H. K. Cigizoglu (2010), Homogeneity analysis of Turkish meteorological data set, Hydrol. Process.

Sambou, S. (2004), Frequency analysis of daily rainfall in the Sahelian area: case of the upstream basin of the Senegal River, Hydrological Sciences Journal-Journal Des Sciences Hydrologiques, 49, 115-129.

Sanchez-Lorenzo, A., M. Brunetti, J. Calbo, and J. Martin-Vide (2007), Recent spatial and temporal variability and trends of sunshine duration over the Iberian Peninsula from a homogenized data set, Journal of Geophysical Research-Atmospheres, 112, 18.

Sanchez-Lorenzo, A., M. Brunetti, J. Martin-Vide, J. Calbó, and T. Nanni (2007), SUNDUIB: homogenised sunshine duration dataset in the Iberian Peninsula. Temporal variability and trends during the last decades, European Geosciences Union, General Assembly.

Sanchez-Santillan, N., R. G. Lopez, I. M. Ramirez, A. E. Herrera, and R. Sanchez-Trejo (2007), Simultaneous occurrence of the North Atlantic Seesaw and El Nino, Atmosfera, 20, 45-56.

Schoner, W., I. Auer, and R. Bohm (2000), Climate variability and glacier reaction in the austrian eastern alps, in Annals of Glaciology, Vol 31, 2000, vol. 31Anonymous , pp. 31-38, Int Glaciological Soc, Cambridge.

Seidel, D. J. et al. (2004), Uncertainty in signals of large-scale climate variations in radiosonde and satellite upper-air temperature datasets, J. Clim., 17, 2225-2240.

Seleshi, Y. and P. Camberlin (2005), Recent changes in dry spell and extreme rainfall events in Ethiopia, Theor. Appl. Climatol., 83, 181-191.

Servat, E., J. E. Paturel, H. Lubès, B. Koumé, H. Ovedrogo, and J. M. Masson (1997), Climatic variability in humid Afica along the Golf of Guinea Part I: detailed analysis of the phenmenon in Cote d'Iveire, Journal of Hydrology, 191, 1-15.

Servat, É., J. E. Paturel, Lubés-Niel H., Kovamé B., and Masson J.M. (1997), Variabilité des régimes pluviométriques en Afrique de l'Ouest et centrale non Sahélienne, C. R. Acad. Sci Paris, 324, 835-838.

Sherwood, S. C., C. L. Meyer, and R. L. Allen (2008), Robust Tropospheric Warming Revealed by Iteratively Homogenized Radiosonde Data, J. Clim., 21, 5336-5350.

Simon, A. C. and J. G. Lesley (204), Characterization of the 11-Year Solar Signal Using a Multiple Regression Analysis of the ERA-40 Dataset, J. Clim., 18, 996-1015.

Sisson, S. A., L. R. Pericchi, and S. G. Coles (2006), A case for a reassessment of the risks of extreme hydrological hazards in the Caribbean, Stochastic Environmental Research and Risk Assessment, 20, 296-306.

Slonosky, V. C. and E. Graham (2005), Canadian pressure observations and circulation variability: Links to air temperature, Int. J. Climatol., 25, 1473-1492.

Slonosky, V. C., P. D. Jones, and T. D. Davies (2001), Atmospheric circulation and surface temperature in Europe from the 18th century to 1995, Int. J. Climatol., 21, 63-75.

Slonosky, V. C., P. D. Jones, and T. D. Davies (2001), Instrumental pressure observations and atmospheric circulation from the 17th and 18th centuries: London and Paris, Int. J. Climatol., 21, 285-298.

Staehelin, J., A. Renaud, J. Boder, R. McPeters, P. Viatte, B. Hoegger, V. Bugnion, M. Giroud, and H. Schill (1998), Total ozone series at Arosa (Switzerland): Homogenization and data comparison, JGR, 103, 5827-5841.

Stanhill, G. and S. Cohen (2005), Solar radiation changes in the United States during the Twentieth Century: Evidence from sunshine measurements, J. Clim., 18, 1503-1512.

Sterin, A. , On the sensitivity of trends in upper-air temperature series, Russian Research Institute for Hydrometeorological Information.

Stuber, N., M. Ponater, and R. Sausen (2005), Why radiative forcing might fail as a predictor of climate change, Clim. Dyn., 24, 497-510.

Sugahara, S. and R. P. Rocha , On the reliability of Brazilian rainfall data for climate studies, Int. J. Climatol.

Syrakova, M. and M. Stefanova (2008), Homogenization of Bulgarian temperature series, Int. J. Climatol., doi: 10.1002/joc.

Tank, A., G. P. Konnen, and F. M. Selten (2005), Signals of anthropogenic influence on European warming as seen in the trend patterns of daily temperature variance, Int. J. Climatol., 25, 1-16.

Tank, A. et al. (2002), Daily dataset of 20th-century surface air temperature and precipitation series for the European Climate Assessment, Int. J. Climatol., 22, 1441-1453.

The International ad Hoc Detection and Atribudion Group , Detecting and Attributing External Influences on the Climate System: A Review of Recent Advances.

Thomas, B. R., E. C. Kent, V. R. Swail, and D. I. Berry (2007), Trends in ship wind speeds ajusted for observation method and height, Int. J. Climatol.

Thompson, D. W. J. and S. Solomon (2005), Recent stratospheric climate trends as evidenced in radiosonde data: Global structure and tropospheric linkages, J. Clim., 18, 4785-4795.

Thorne, P. W., P. D. Jones, S. F. B. Tett, M. R. Allen, D. E. Parker, P. A. Stott, G. S. Jones, T. J. Osborn, and T. D. Davies (2003), Probable causes of late twentieth century tropospheric temperature trends, Clim. Dyn., 21, 573-591.

Thorne, P. W., D. E. Parker, S. F. B. Tett, P. D. Jones, M. McCarthy, H. Coleman, and P. Brohan (2005), Revisiting radiosonde upper air temperatures from 1958 to 2002, Journal of Geophysical Research-Atmospheres, 110, 17.

Tomozeiu, R., M. Lazzeri, and C. Cacciamani (2002), Precipitation fluctuations during the winter season from 1960 to 1995 over Emilia-Romagna, Italy, Theoretical and Applied Climatology, 72, 221-229.

Tomozeiu, R., V. Pavan, C. Cacciamani, and M. Amici (2006), Observed temperature changes in Emilia-Romagna: mean values and extremes, Climate Research, 31, 217-225.

Toreti, A. and F. Desiato (2007), Temperature trend over Italy from 1961 to 2004, Theor. Appl. Climatol., 1-8.

Toussaint, F., M. Lautenschlager, and H. Luthardt (2007), World Data Center for Climate Data - Support for the CEOP project in terms of model output, Journal of the Meteorological Society of Japan, 85A, 475-485.

Trenberth, K. and L. Smith (2004), The Mass of the Atmosphere: A Constraint on Global Analyses, J. Clim., 18, 864-875.

Trenberth, K. E. and T. W. Owen (1999), Workshop on Indices and Indicators for Climate Extremes, Asheville, NC, USA, 3-6 June 1997 - Breakout Group A: Storms, Clim. Change, 42, 9-21.

Türkes, M., T. Koç, and F. Saris (2008), Spatiotemporal variability of precipitation total series over Turkey, Int. J. Climatol.

Turner, J., T. A. Lachlan-Cope, S. Colwell, G. J. Marshall, and W. M. Connolley (2006), Significant warming of the Antarctic winter troposphere, Science, 311, 1914-1917.

Van der Meulen, J. P. and T. Brandsma (2007), Thermometer screen intercomparison in De Bilt (The Netherlands), Part I: Understanding the weather-dependent temperature differences, Int. J. Climatol.

Van Oldenborgh, G. J. and A. Van Ulden (2003), On the relationship between global warming, local warming in the Netherlands and changes in circulation in the 20th century, Int. J. Climatol., 23, 1711-1724.

Vicente-Serrano, S. M. and J. M. Cuadrat-Prats (2006), Trends in drought intensity and variability in the middle Ebro valley (NE of the Iberian peninsula) during the second half of the twentieth century, Theor. Appl. Climatol., 88, 247-258.

Vinnikov, K. Y., N. C. Grody, A. Robock, R. J. Stouffer, P. D. Jones, and M. D. Goldberg (2006), Temperature trends at the surface and in the troposphere, Journal of Geophysical Research-Atmospheres, 111, 14.

Wan, H., X. L. Wang, and V. R. Swail (2009), Homogenization and trend analysis of Canadian near-surface wind speeds, J. Clim.

Wang, S. W., J. H. Zhu, and J. N. Cai (2004), Interdecadal variability of temperature and precipitation in china since 1880, Adv. Atmos. Sci., 21, 307-313.

Weisse, R., H. Von Storch, and F. Feser (2005), Northeast Atlantic and North Sea storminess as simulated by a regional climate model during 1958-2001 and comparison with observations, J. Clim., 18, 465-479.

Wijngaard, J. B., A. Tank, and G. P. Konnen (2003), Homogeneity of 20th century European daily temperature and precipitation series, Int. J. Climatol., 23, 679-692.

Willet, K. M., P. D. Jones, N. P. Gillet, and P. W. Thurne (2008), Recent Changes in Surface Humidity: Development of the HadCRUH Dataset, J. Clim., 21, 5364-5383.

Woodruff, S. D., H. F. Diaz, S. J. Worley, R. W. Reynolds, and S. J. Lubker (2005), Early ship observational data and ICOADS, Clim. Change, 73, 169-194.

Xiong, L. H. and S. L. Guo (2004), Trend test and change-point detection for the annual discharge series of the Yangtze River at the Yichang hydrological station, Hydrological Sciences Journal-Journal Des Sciences Hydrologiques, 49, 99-112.

Yan, Z. W., P. D. Jones, A. Moberg, H. Bergstrom, T. D. Davies, and C. Yang (2001), Recent trends in weather and seasonal cycles: An analysis of daily data from Europe and China, Journal of Geophysical Research-Atmospheres, 106, 5123-5138.

You, Q., S. Kang, S. Pepin, W. A. Flügel, Y. Yan, H. Behrawan, and Huang.J. (2010), Relationship between temperature trend magnitude, elevation and mean temperature in the Tibetan Plateau from homogenized surface stations and reanalysis data, Global and Planetary Change, 71, 124-133.

Zaiki, M., G. P. Konnen, T. Tsukahara, P. D. Jones, T. Mikami, and K. Matsumoto (2006), Recovery of nineteenth-century Tokyo/Osaka meteorological data in Japan, Int. J. Climatol., 26, 399-423.

Zhang, X., G. Hegerl, F. W. Zwiers, and J. Kenyon (2005), Avoiding Inhomogeneity in Percentile-Based Indices of Temperature Extremes, J. Clim., 18, 1641-1651.

Zhang, X. B. et al. (2005), Trends in Middle East climate extreme indices from 1950 to 2003, Journal of Geophysical Research-Atmospheres, 110, 22104-22104.

Zheng, X. and R. E. Basher (1993), Homogenization and trend detection analysis of broken series of solar UV-B Data O, Theoretical and Applied Climatology, 47, 189-203.

Zolina, O., C. Simmer, A. Kapala, and S. Gulev (2005), On the robustness of the estimates of centennial-scale variability in heavy precipitation from station data over Europe, Geophysical Reserarch Letters, 32, 1-5.



Alexandersson, H. (1986), A homogeneity test applied to precipitation data, Int. J. Climatol., 6, 661-675.

Alexandersson, H. and U. u. M. institutionen. (1984), A Homogeneity Test Based on Ratios and Applied to Precipitation Series, 55 leaves pp., Meteorologiska Institutionen, Kungl. Universitetet, Uppsala, Uppsala.

Alexandersson, H. and A. Moberg (1997), Homogenization of Swedish temperature data .1. Homogeneity test for linear trends, Int. J. Climatol., 17, 25-34.

Allen, R. J. and A. T. DeGaetano (2000), A method to adjust long-term temperature extreme series for nonclimatic inhomogeneities, J. Clim., 13, 3680-3695.

Battarbee, R. W., J. A. Grytnes, R. Thompson, P. G. Appleby, J. Catalan, A. Korhola, H. J. B. Birks, E. Heegaard, and A. Lami (2002), Comparing palaeolimnological and instrumental evidence of climate change for remote mountain lakes over the last 200 years, J. Paleolimnol., 28, 161-179.

Beaulieu, C. (2009), Homogenization of precipitation series, INRS-ETE, Quebec, 1-309.

Beaulieu, C., T. B. M. J. Ouarda, and O. Seidou (2009), A Bayesian Normal Homogeneity Test for the detection of artificial discontinuities in climatic series, Int. J. Climatol.

Beersma, J. J. and T. A. Buishand (1999), A simple test for equality of variances in monthly climate data, J. Clim., 12, 1770-1779.

Begert, M., E. Zenzklusen, C. Haberli, C. Appenzeller, and L. Klok (2008), An automated procedure to detect discontinuities; performance assessment and application to a large European climate data set, Meteorol. Z, 17, 663-672.

Besse, P. C. and N. Raimbault , Comparisons of split linear fitting of wind curves, Unkwnon.

Bonnie K. Ray and Ruey S. Tsay (2002), Bayesian methods for change-point detection in long-range dependent processes, Journal of Time Series Analysis, 23, 687-705.

Boulanger, J. P., J. Aizpuru, L. Leggieri, and M. Marino (2009), A procedure for automated quality control and homogenization of historical daily temperature and recipitation data (APACH): part 1: quality control and application to the Argentine weather service stations, Climatic Change, 98, 471-491.

Brandsma, T. and G. P. Konnen (2006), Application of nearest-neighbor resampling for homogenizing temperature records on a daily to sub-daily level, Int. J. Climatol., 26, 75-89.

Brandsman F. and Van der Meulen J.P. (2008), Thermometer screen intercomparison in De Bilt (the Netherlands) – Part II: Description and modeling of mean temperature differences and extremes, Int. J. Climatol.

Brunet, M., O. Saladié, P. Jones, J. Sigró, E. Aguilar, A. Moberg, D. Lister, A. Walther, and C. Almarza , A case-study/guidance on the development of long-term daily adjusted temperature datasets.

Brunetti, M., M. Maugeri, F. Monti, and T. Nanni (2006), The variability and change of Italian climate in the last 160 years, Nuovo Cimento Della Societa Italiana Di Fisica C-Geophysics and Space Physics, 29, 3-12.

Buishand, T. A. and J. J. Beersma (1996), Statical test for comparison of daily variability in observed and simulated climates, J. Clim., 9, 2538-2550.

Buntgen, U., J. Esper, D. C. Frank, K. Nicolussi, and M. Schmidhalter (2005), A 1052-year tree-ring proxy for Alpine summer temperatures, Clim. Dyn., 25, 141-153.

Caesar, J., L. Alexander, and R. Vose (2006), Large-scale changes in observed daily maximum and minimum temperatures: Creation and analysis of a new gridded data set, Journal of Geophysical Research-Atmospheres, 111, 10.

Caussinus, H. and O. Mestre (2004), Detection and correction of artificial shifts in climate series, Journal of the Royal Statistical Society Series C-Applied Statistics, 53, 405-425.

Chenoweth, M. (2000), A new methodology for homogenization of 19th century marine air temperature data, Journal of Geophysical Research-Atmospheres, 105, 29145-29154.

Chopin, N. (2007), Dynamic detection of change points in long time series, Annals of the Institute of Statistical Mathematics, 59, 349-366.

Christy, J. R., W. B. Norris, K. Redmond, and K. P. Gallo (2006), Methodology and results of calculating central california surface temperature trends: Evidence of human-induced climate change?, J. Clim., 19, 548-563.

Cioranescu, D. and P. Donato (1999), An Introduction to Homogenization, Oxford Lecture Series in Mathematics and its Applications, ix, 262 p. pp., Oxford University Press, Oxford ; New York.

Cook, E. R., P. J. Krusic, and P. D. Jones (2003), Dendroclimatic signals in long tree-ring chronologies from the Himalayas of Nepal, Int. J. Climatol., 23, 707-732.

Cook, S. (2007), Further results on the detection of changes in persistence in linear time series, Applied Economic Letters, 14, 145-150.

Costa, A. C. and A. Soares (2009), Trends in extreme precipitation indices derived from a daily rainfall database for the South of Portugal, Int. J. Climatol., 29, 1956-1975.

Craig, B. A., D. G. Fryback, R. Klein, and B. E. K. Klein (1999), A Bayesian approach to modelling the natural history of a chronic condition from observations with intervention, Stat. Med., 18, 1355-1371.

Datsenko, N. M., A. Moberg, and D. M. Sonechkin (2002), Objective time-scale-dependent homogenization of early instrumental temperature series, Theoretical and Applied Climatology, 72, 103-126.

Davis, R. E. and L. S. Kalkstein (1990), Development of an automated spatial synoptic climatological classification, Int. J. Climatol., 10, 769-794.

Della-Marta, P. M. and H. Wanner (2006), A method of homogenizing the extremes and mean of daily temperature measurements, J. Clim., 19, 4179-4197.

Easterling, D. R. and T. C. Peterson (1995), A new method for detecting undocumented discontinuities in climatological time series, Int. J. Climatol., 15, 369-377.

Efthymiadis, D., P. D. Jones, K. R. Briffa, I. Auer, R. Bohm, W. Schoner, C. Frei, and J. Schmidli (2006), Construction of a 10-min-gridded precipitation data set for the Greater Alpine Region for 1800-2003, Journal of Geophysical Research-Atmospheres, 111, 22.

Endreny, T. A. and S. Pashiardis (2007), The error and bias of supplementing a short, arid climate, rainfall record with regional vs. global frequency analysis, Journal of Hydrology, 334, 174-182.

Free, M., D. J. Seidel, J. K. Angell, J. Lanzante, I. Durre, and T. C. Peterson (2005), Radiosonde Atmospheric Temperature Products for Assessing Climate (RATPAC): A new data set of large-area anomaly time series, Journal of Geophysical Research-Atmospheres, 110, 12.

Gey, S. and E. Lebarbier (2000), Using CART to detect changepoints in the mean.

Gonzalez-Rouco, J. F., J. L. Jimenez, V. Quesada, and F. Valero (2001), Quality control and homogeneity of precipitation data in the southwest of Europe, J. Clim., 14, 964-978.

Grau, H. R. (2001), Regional-scale spatial patterns of fire in relation to rainfall gradients in sub-tropical mountains, NW Argentina, Global Ecol. Biogeogr., 10, 133-146.

Grimenes, A. A. and O. Nissen (2004), Mathematical modelling of the annual temperature wave based on monthly mean temperatures, and comparisons between local climate trends at seven Norwegian stations, Theoretical and Applied Climatology, 78, 229-246.

Gruber, C. and L. Haimberger (2008), On the homogeneity of radiosonde wind time series, Meteorol. Z, 17(5), 631-643, doi: 10.1127/0941-2948/2008/0298.

Haimberger, L. (2007), Homogenization of radiosonde temperature time series using innovation statistics, J. Clim., 20, 1377-1403.

Haimberger, L. and Forecasts.,European Centre for Medium Range Weather (2005), Homogenization of Radiosonde Temperature Time Series using ERA-40 Analysis Feedback Information, ERA-40 Project Report Series, 68 p. pp., European Centre for Medium-Range Weather Forecasts, [Reading, England].

Helama, S., M. Lindholm, M. Timonen, and M. Eronen (2004), Detection of climate signal in dendrochronological data analysis: a comparison of tree-ring standardization methods, Theoretical and Applied Climatology, 79, 239-254.

Hogan, R. J. and A. J. Illingworth (2003), Parameterizing ice cloud inhomogeneity and the overlap of inhomogeneities using cloud radar data, J. Atmos. Sci., 60, 756-767.

Hogrefe, C., S. T. Rao, and I. G. Zurbenko (1998), Detecting trends and biases in time series of ozonesonde data, Atmos. Environ., 32(14/15), 2569-2586.

Hughes, J. P. and P. Guttorp (1999), A non-homogeneous hidden Markov model for precipitation occurrence, Journal of the Royal Statistical Society Series C-Applied Statistics, 48, 15-30.

Jackson, B., J. D. Scargle, D. Barnes, S. Arabhi, A. Alt, P. Gioumousis, E. Gwin, P. Sangtrakulcharoen, L. Tan, and T. T. Tsai (2005), An algorithm for optimal partitioning of data on an interval, IEEE Signal Process. Lett., 12, 105-108.

Jost, A., D. Lunt, M. Kageyama, A. Abe-Ouchi, O. Peyron, P. J. Valdes, and G. Ramstein (2005), High-resolution simulations of the last glacial maximum climate over Europe: a solution to discrepancies with continental palaeoclimatic reconstructions?, Clim. Dyn., 24, 577-590.

Jung, T., M. Hilmer, E. Ruprecht, S. Kleppek, S. K. Gulev, and O. Zolina (2003), Characteristics of the recent eastward shift of interannual NAO variability, J. Clim., 16, 3371-3382.

Karl, T. R. and C. N. Williams (1987), An approach to adjusting Climatological Time Series for discontinuous inhomogeneities, Journal of climate an applied meteorology, 26, 1744-1763.

Kebe, C. M. F., H. Sauvageot, and A. Nzeukou (2005), The relation between rainfall and area-time integrals at the transition from an arid to an equatorial climate, J. Clim., 18, 3806-3819.

Khaliq, M. N. and T. B. M. J. Ouarda (2007), On the critical values of the standard normal homogeneity test (SNHT), Int. J. Climatol., 27, 681-687.

Khaliq, M. N. and T. Ouarda (2007), On the critical values of the standard normal homogeneity test (SNHT), Int. J. Climatol., 27, 681-687.

Kirono, D. G. C. and R. N. Jones (2007), A bivariate test for detecting inhomogeneities in pan evaporation time series, Aust. Meteorol. Mag., 56, 93-103.

Klok, E. J. and A. M. G. Klin Tank (2009), Updated and extended European dataset of daily climate observations, Int. J. Climatol., 29, 1182-1191.

Kuglitsch, F. G., A. Toreti, E. Xoplaki, P. M. Della-Marta, J. Luterbacher, and H. Wanner (2009), Homogenization of daily maximum temperature series in the Mediterranean, JGR, 114, 1-6.

Kummerow, C., P. Poyner, W. Berg, and J. Thomas-Stahle (2004), The effects of rainfall inhomogeneity on climate variability of rainfall estimated from passive microwave sensors, J. Atmos. Ocean. Technol., 21, 624-638.

Kysely, J. and J. Picek (2007), Regional growth curves and improved design value estimates of extreme precipitation events in the Czech Republic, Climate Research, 33, 243-255.

Kysely, J., J. Picek, and R. Huth (2007), Formation of homogeneous regions for regional frequency analysis of extreme precipitation events in the Czech Republic, Studia Geophysica Et Geodaetica, 51, 327-344.

Lanzante, J. R. (1996), Resistant, robust and non-parametric techniques for the analysis of climate data: Theory and examples, including applications to historical radiosonde station data, Int. J. Climatol., 16, 1197-1226.

Lanzante, J. R., S. A. Klein, and D. J. Seidel (2003), Temporal homogenization of monthly radiosonde temperature data. Part I: Methodology, J. Clim., 16, 224-240.

Lanzante, J. R., S. A. Klein, and D. J. Seidel (2003), Temporal homogenization of monthly radiosonde temperature data. Part II: Trends, sensitivities, and MSU comparison, J. Clim., 16, 241-262.

Li, Q. and W. Dong (2009), Detection and Adjustment of Undocumented Discontinuities in Chinese Temperature Series Using a Composite Approach, Advances in atmospheric sciences, 26, 143-153.

Lindstrom, G. and H. Alexandersson (2004), Recent mild and wet years in relation to long observation records and future climate change in Sweden, Ambio, 33, 183-186.

Lund, R. and J. Reeves (2002), Detection of Undocumented Changepoints: A Revision of the Two-Phase Regression Model, J. Clim., 15, 2547-2554.

Lund, R., X. L. Wang, Q. Q. Lu, J. Reeves, C. Gallagher, and Y. Feng (2007), Changepoint detection in periodic and autocorrelated time series, J. Clim., 20, 5178-5190.

Makra, L., S. Horvath, R. Pongracz, and J. Mika (2002), Long term climate deviations: an alternative approach and application on the Palmer drought severity index in Hungary, Phys. Chem. Earth, 27, 1063-1071.

Maugeri, M., M. Brunetti, F. Monti, and T. Nanni (2003), Sea-level pressure variability in the Po Plain (1765-2000) from homogenized daily secular records, Int. J. Climatol., 24, 437-455.

Menne M.J. and Williams C.N. (2007), Homogenization of Temperature Series via Pairwise Comparisons, NOAA.

Mestre, O., C. Prieur, C. Gruber, H. Caussins, and J. Jourdain , A method for homogenization of daily temperature observations.

Milewska, E. and W. D. Hogg (2001), Spatial representativeness of a long-term climate network in Canada, Atmosphere-Ocean, 39, 145-161.

Mitchell, T. D. and P. D. Jones (2005), An improved method of constructing a database of monthly climate observations and associated high-resolution grids, Int. J. Climatol., 25, 693-712.

Moisselin, J. M. and O. Mestre , Research, digitisation and homogenization of long-term data series.

Moreno, E., G. Casella, and A. Garcia-Ferrer (2005), An objective Bayesian analysis of the change point problem, Stochastic Environmental Research and Risk Assessment, 19, 191-204.

Pandzic, K. and T. Likso , Homogeneity of average annual air temperature time series for Croatia, Int. J. Climatol.

Perreault, L., E. Parent, J. Bernier, B. Bobee, and M. Slivitzky (2000), Retrospective multivariate Bayesian change-point analysis: A simultaneous single change in the mean of several hydrological sequences, Stochastic Environmental Research and Risk Assessment, 14, 243-261.

Peterson, T. C. and D. R. Easterling (1994), Creation of homogeneous composite climatological reference series, Int. J. Climatol., 14, 671-679.

Peterson, T. C., T. R. Karl, P. F. Jamason, R. Knight, and D. R. Easterling (1998), First difference method: Maximizing station density for the calculation of long-term global temperature change, Journal of Geophysical Research-Atmospheres, 103, 25967-25974.

Peterson, T. C., R. Vose, R. Schmoyer, and V. Razuvaev (1998), Global historical climatology network (GHCN) quality control of monthly temperature data, Int. J. Climatol., 18, 1169-1179.

Petrovic, P. , Detecting of inhomogeneities in time series using real precision method., Republic Hydrometeorological Institute of Serbia.

Petrovic, P. , Detecting of inhomogeneities in time series using real precision method., Republic Hydrometeorological Institute of Serbia.

Rust, H. W., O. Mestre, and V. K. C. Venema (2008), Fewer jumps, less memory: Homogenized temperature records and long memory, JOURNAL OF GEOPHYSICAL RESEARCH, 113, 1-8.

Sacré, C., J. M. Moisselinb, M. Sabrea, J. P. Floria, and B. Dubuissonb (2007), A new statistical approach to extreme wind speeds in France, J. Wind Eng. Ind. Aerodyn., 95, 1415-1423.

Seidou, O., J. J. Asselin, and T. Ouarda (2007), Water Resour. Res., 43.

Seidou, O. and T. Ouarda (2007), Recursion-based multiple changepoint detection in multiple linear regression and application to river streamflows, Water Resour. Res., 43.

Serra, C., A. Burgueno, and X. Lana (2001), Analysis of maximum and minimum daily temperatures recorded at Fabra Observatory (Barcelona, NE Spain) in the period 1917-1998, Int. J. Climatol., 21, 617-636.

Shen, S. S., G. R. North, and K. Y. Kim (1996), An optimal method to estimate the spherical harmonic components of the surface air temperature, Environmetrics, 7, 261-276.

Sherwood, S. C. (2007), Simultaneous detection of climate change and observing biases in a network with incomplete sampling, J. Clim., 20, 4047-4062.

Siegmund, D. (1998), Confidence sets in Change-point Problems, International Statical Reviey, 56, 31-48.

Sneyers, R. (1997), Climate chaotic instability: Statistical determination and theoretical background, Envirometrics, 8, 517-532.

Son, Y. S. and S. W. Kim (2005), Bayesian single change point detection in a sequence of multivariate normal observations, Statistics, 39, 373-387.

Staudt, M., M. J. Esteban-Parra, and Y. Castrodiez (2006), Homogenization of long-term monthly Spanish temperature data, Int. J. Climatol.

Terence Tai-Leung Chong (2003), Generic consistency of the break-point estimator under specification errors, Econometrics Journal, 6, 167-192.

Thoma, B. R., E. C. Kent, and V. R. Swail (2005), Methods to homogenize wind speeds from ships and buoys, Int. J. Climatol., 25, 979-995.

Tomozeiu, R., A. Busuioc, V. Marletto, F. Zinoni, and C. Cacciamani (2000), Detection of changes in the summer precipitation time series of the region Emilia-Romagna, Italy, Theoretical and Applied Climatology, 67, 193-200.

Tomozeiu, R., S. Stefan, and A. Busuioc (2005), Winter precipitation variability and large-scale circulation patterns in Romania, Theor. Appl. Climatol., 81, 198-201.

Toreti, A., F. G. Kuglitsch, E. Xoplaki, P. M. Della-Marta, E. Aguilar, and M. a. J. L. Prohomf (2010), A note on the use of the standard normal homogeneity test to detect inhomogeneities in climatic time series, Int. J. Climatol., 1-3.

Toumenvirta, H. (2000), Homogeneity adjustments of temperature and precipitation series - Finnish and nordic data, Int. J. Climatol., 21, 495-506.

Tsakalias, G. and G. Koutsoyiannis (1999), A Comprehensive System for the Exploration and Analysis of Hydrological Data, Water Resour. Manage., 13, 269-302.

Tuomenvirta, H. (2001), Homogeneity adjustments of temperature and precipitation series - Finnish and Nordic data, Int. J. Climatol., 21, 495-506.

Unsworth, C. P., M. R. Cowper, s. McLaughlin, and B. Mulgrew (2001), A new method to detect nonlinearity in a time-series: synthesizing surrogate data using a Kolmogorov–Smirnoff tested, hidden Markov model, Physica D, 155, 51-68.

Usbeck, T., T. Wohlgemuth, C. Pfister, R. Volz, M. Benistone, and M. Dobbertin (2009), Wind speed measurements and forest damage in Canton Zurich (Central Europe) from 1891 to winter 2007, Int. J. Climatol., 30, 347-358.

Venter, J. H. and S. J. Steel (1996), Finding multiple abrupt change points, Comput. Stat. Data Anal., 22, 481-504.

Vicente-Serrano, S. M., J. Begueria, J. J. López-Moreno, M. A. García-Vera, and P. Stepanek (2008), A complete daily precipitation database for northeast Spain: reconstruction, quality control, and homogeneity, Int. J. Climatol.

Vincent, L. A. (1997), A Technique for the Identification of Inhomogeneities in Canadian Temperature Series, J. Clim., 11, 1904-1104.

Vincent, L. A. and D. W. Gullett (1999), Canadian historical and homogeneous temperature datasets for climate change analyses, Int. J. Climatol., 19, 1375-1388.

Vincent, L. A. et al. (2005), Observed trends in indices of daily temperature extremes in South America 1960-2000, J. Clim., 18, 5011-5023.

Vincent, L. A., X. Zhang, B. R. Bonsal, and W. D. Hong (2002), Homogenization of Daily Temperatures over Canada, J. Clim., 15, 1322-1334.

Von Weissenfluh, H. , A Homogenised Dataset of Daily MaximumTemperatures for Western Europe, 1-74 pp.

Wang, X. L. (2008), Accounting for Autocorrelation in Detecting Mean Shifts in Climate Data Series Using the Penalized Maximal t or F Test, JOURNAL OF APPLIED METEOROLOGY AND CLIMATOLOGY, 47, 2423-2444.

Willett, K. M., P. D. Jones, N. P. Guillett, and P. W. Thorne (2008), Recent Changes in Surface Humidity: Development of the HadCRUH Dataset, J. Clim., 21, 5364-5383.

Wilson, R. J. S., B. H. Luckman, and J. Esper (2005), A 500 year dendroclimatic reconstruction of spring-summer precipitation from the lower Bavarian Forest region, Germany, Int. J. Climatol., 25, 611-630.

Wulfmeyer, V. and I. Henning-Muller (2006), The climate station of the University of Hohenheim: Analyses of air temperature and precipitation time series since 1878, Int. J. Climatol., 26, 113-138.

Xiaolan L. Wang (2007), Penalized maximal F-test for detecting undocumented mean-shift without trend-change, J. ATMOS. & OCEANIC TECH., 05-2007.

Yang, D. Q. et al. (1999), Quantification of precipitation measurement discontinuity induced by wind shields on national gauges, Water Resour. Res., 35, 491-508.


Altissimo, F. and V. Corradi (2003), Strong rules for detecting the number of breaks in a time series, J. Econ., 117, 207-244.

Aparicio, F., A. Escribano, and A. E. Sipols (2006), Range unit-root (RUR) tests: robust against nonlinearities, error distributions, structural breaks and outliers, Journal of Time Series Analysis, 27, 545-576.

Bai, J. and P. Perron (2003), Computation and analysis of multiple structural change models, J. Appl. Econometrics, 18, 1-22.

Barry, D. and J. A. Hartigan (1993), A Bayesian-Analysis for change point problems, Journal of the American Statistical Association, 88, 309-319.

Besse, P. and C. Le Gall (2006), Application and reliability of change-point analyses for detecting a defective stage in integrated circuit manufacturing, Communications in Statistics-Simulation and Computation, 35, 479-496.

Braun, J. V., R. K. Braun, and H. G. Muller (2000), Multiple changepoint fitting via quasilikelihood, with application to DNA sequence segmentation, Biometrika, 87, 301-314.

Cabilio, P. and J. Tilley (1999), Power calculations for tests of trend with missing observations, Environmetrics, 10, 803-816.

Carlin, B. P., A. E. Gelfand, and A. F. M. Smith (1992), Hierarchical Bayesian-Analysis of changepoint problems, Applied Statistics-Journal of the Royal Statistical Society Series C, 41, 389-405.

Chu, C. H. J., M. Stinchcombe, and H. White (1996), Monitoring structural change, Econometrica, 64, 1045-1065.

Dobigeon, N., J. Y. Tourneret, and J. D. Scargle (2007), Joint segmentation of multivariate astronomical time series: Bayesian sampling with a hierarchical model, Ieee Transactions on Signal Processing, 55, 414-423.

Ghorbanzhadeh, D. (1995), Un test de détection de rupture de la moyenne dans un modèle gaussien, Revue de Statistique Appliquée, XLIII (2), 67-68-76.

Gregoire, G. and Z. Hamrouni (2002), Change point estimation by local linear smoothing, Journal of Multivariate Analysis, 83, 56-83.

Gregoire, G. and Z. Hamrouni (2002), Two Non-parametric tests for change-point problems, Nonparametric Statistics, 14, 81-112.

Habibi, R., S. M. Sadooghi-Alvandi, and A. R. Nematollahi (2005), Change point detection in a general class of distributions, Communications in Statistics-Theory and Methods, 34, 1935-1938.

Hawkins, D. M. (2001), Fitting multiple change-point models to data, Comput. Stat. Data Anal., 37, 323-341.

Inclan, C. and G. C. Tiao (1994), Use of cumulative sums of squares for retrospective detection of changes of variance, Journal of the American Statistical Association, 89, 913-923.

Jann, A. (2006), Genetic algorithms toward their use in the homogenizationof climatological records, Croatian Meteorological Journal, 41, 3-4-19.

Jouini, J. and M. Boutahar (2006), Evidence on structural changes in U.S. time series, Economic Modeling, 22, 391-422.

Lai, W. R., M. D. Johnson, R. Kucherlapati, and P. J. Park (2005), Comparative analysis of algorithms for identifying amplifications and deletions in array CGH data, Bioinformatics, 21, 3763-3770.

Lavielle, M. (1998), Optimal segmentation of random processes, Ieee Transactions on Signal Processing, 46, 1365-1373.

Lavielle, M. (1999), Detection of multiple changes in a sequence of dependent variables, Stochastic Processes and Their Applications, 83, 79-102.

Lavielle, M. (2005), Using penalized contrasts for the change-point problem, Signal Process, 85, 1501-1510.

Lavielle, M. and E. Lebarbier (2001), An application of MCMC methods for the multiple change-points problem, Signal Process, 81, 39-53.

Lavielle, M. and E. Moulines (2000), Least-squares estimation of an unknown number of shifts in a time series, Journal of Time Series Analysis, 21, 33-59.

Lavielle, M. and B. R. Thomas (2006), Detection of multiple change-points in multivariate time series, Lithuanian Mathematical Journal, 46, 287-306.

Lebarbier, E. (2005), Detecting multiple change-points in the mean of Gaussian process by model selection, Signal Process, 85, 717-736.

MacDougall, S. and A. Nandi (1997), Hybrid Bayesian Procedures for Automatic Detection of Change-points, J. Franklin Inst., 334B, 575-597.

MacDougall, S., A. K. Nandi, and R. Chapman (1998), Multiresolution and hybrid Bayesian algorithms for automatic detection of change points, Iee Proceedings-Vision Image and Signal Processing, 145, 280-286.

Meng, X. L. and D. B. Rubin (1993), Maxium - Likelihood - Estimation via the ECM Agorithm - A general framework, Biometrika, 80, 267-278.

Peel, D. and G. J. Mclachlan (2000), Robust mixture modelling using the t distribution, Statistics and Computing, 10, 339-348.

Picard, D. (1985), Testing and estimating change-points in time-series, Adv. Appl. Probability, 17, 841-867.

Picard, F. (2007), An introduction to process segmentation, 6, 1-16.

Picard, F., S. Robin, M. Lavielle, C. Vaisse, and J. J. Daudin (2005), A statistical approach for array CGH data analysis, BMC Bioinformatics, 6.

Qian, S. S., R. S. King, and C. J. Richardson (2003), Two statistical methods for the detection of environmental thresholds, Ecol. Model., 166, 87-97.

Worsley, K. J. (1986), Confidence regions and tests for a change-point in a sequence of exponential family random variables, Biomrtrika, 73, 91-104.

Yu, J. W., G. L. Tian, and M. L. Tang (2007), Predictive analyses for nonhomogeneous Poisson processes with power law using Bayesian approach, Comput. Stat. Data Anal., 51, 4254-4268.


Aguilar, E., I. Auer, M. Brunet, T. C. Peterson, and J. Wieringa (2003), Guidelines on Climate Metadata and Homogenization, WCDMP GUIDELINES SERIES, WMO/TD nº 1186, Llansó, P. ed., 50 pp., WMO, Geneva.

Anel, J. A., L. Gimeno, L. de la Torre, and R. Nieto (2006), Changes in tropopause height for the Eurasian region determined from CARDS radiosonde data, Naturwissenschaften, 93, 603-609.

Beaulieu, C., Seidou, O., Ouarda, T.B.M.J.,Zhang, X. (2008), Intercomparison of homogenization techniques for precipitation data continued: the comparison of two recent Bayesian changepoint models., Water Resour. Res., 44.

Beaulieu, C., T. B. M. J. Ouarda, O. Seidou, G. Boulet, A. Yagouti, and C. Genest (2005), Étude comparative des méthodes d’homogénéisation des séries de précipitations., Atelier de l’Association Canadienne des Ressources Hydriques Section Québec, Quebec, QC, Canada.

Buishand, T. A. (1982), Some methods for testing the homogeneity of rainfall records, J. hydrol., 58, 11-27.

Cornelius, J. M. and J. F. Reynolds (1991), On determining the statistical significance of discontinuities within ordered ecological data, Ecology, 72, 2057-2070.

Costa, A. C. and A. Sores (2009), Homogenization of Climate Data: Review and New Perspectives Using Geostatistics, Math Geosci, 41, 291-305, doi: 10.1007/s11004-008-9203-3.

DeGaetano, A. T. (2006), Attributes of several methods for detecting discontinuities in mean temperature series, J. Clim., 19, 838-853.

Ducre-Robitaille, J. F., L. A. Vincent, and G. Boulet (2003), Comparison of techniques for detection of discontinuities in temperature series, Int. J. Climatol., 23, 1087-1101.

Elliott, W. P., R. J. Ross, and B. Schwartz (1998), Effects on climate records of changes in National Weather Service humidity processing procedures, J. Clim., 11, 2424-2436.

Free, m. et al. (2002), Creating climate reference datasets: CARDS workshop on adjusting radiosonde temperature data for climate monitoring, American Meteorological Society, 891-899.

Free, m. et al. (2002), Creating climate reference datasets: CARDS workshop on adjusting radiosonde temperature data for climate monitoring, American Meteorological Society, 891-899.

Free, M. and D. J. Seidel (2007), Comments on "biases in stratospheric and tropospheric temperature trends derived from historical radiosonde data", J. Clim., 20, 3704-3709.

Gaffen, D. J., M. A. Sargent, R. E. Habermann, and J. R. Lanzante (2000), Sensitivity of tropospheric and stratospheric temperature trends to radiosonde data quality, J. Clim., 13, 1776-1796.

Gao, J., J. Hu, W. Tung, Y. Cao, N. Sarshar, and V. P. Roychowdhury (2006), Assessment of long-range correlation in time series: How to avoid pitfalls, Physical Review, 73, 1-10.

Karunamuni, R. J. and S. P. Zhang (1996), Empirical Bayes detection of a change in distribution, Annals of the Institute of Statistical Mathematics, 48, 229-246.

Lai, W. R., M. D. Johnson, R. Kucherlapati, and P. J. Park (2005), Comparative analysis of algorithms for identifying amplifications and deletions in array CGH data, Bioinformatics, 21, 3763-3770.

Loukas, A., L. Vasiliades, and N. R. Dalezios (2002), Hydroclimatic variability of regional droughts in Greece using the palmer moisture anomaly index, Nordic Hydrol., 33, 425-442.

Mason, C. M. (2006), Exploring the processes underlying within-group homogeneity, Small Group Research, 37, 233-270.

Matulla, C., E. K. Penlap, P. Haas, and H. Formayer (2003), Comparative analysis of spatial and seasonal variability: Austrian precipitation during the 20th century, Int. J. Climatol., 23, 1577-1588.

Menne, M. J. and C. N. Williams (2005), Detection of undocumented changepoints using multiple test statistics and composite reference series, J. Clim., 18, 4271-4286.

Peterson, T. C. et al. (1998), Homogeneity adjustments of in situ atmospheric climate data: a review, Int. J. Climatol., 18, 1493-1517.

Randel, W. J. and F. Wu (2006), Biases in stratospheric and tropospheric temperature trends derived from historical radiosonde data, J. Clim., 19, 2094-2104.

Rayner, N. A., D. E. Parker, E. B. Horton, C. K. Folland, L. V. Alexander, D. P. Rowell, E. C. Kent, and A. Kaplan (2003), Global analyses of sea surface temperature, sea ice, and night marine air temperature since the late nineteenth century, Journal of Geophysical Research-Atmospheres, 108, 37.

Reeves, J., J. Chen, X. L. L. Wang, R. Lund, and Q. Q. Lu (2007), A review and comparison of changepoint detection techniques for climate data, Journal of Applied Meteorology and Climatology, 46, 900-915.

Richardson, S. and P. Green (2005), On dayesian analysis of mixtures with an unknown number of components, Model Interpretation and Model Robustness in Highly Structard Stachstic Systems, 1-25.

Safouane Ben Aïssa, M., M. Bautahar, and J. Jouini (2004), Bai and Perron’s and spectral density methods for structural change detection in the US inflation process, Applied Economics Letters, 11, 109-115.

Slonosky, V. C., P. D. Jones, and T. D. Davies (1998), Homogenization Techniques for European Monthly Mean Surface Pressure Series, J. Clim., 12, 2568-2672.

Sotillo, M. G., M. L. Martin, F. Valero, and M. Y. Luna (2006), Validation of a homogeneous 41-year (1961-2001) winter precipitation hindcasted dataset over the Iberian Peninsula: assessment of the regional improvement of global reanalysis, Clim. Dyn., 27, 627-645.

Stepánek, P., P. Zahradícek, and P. Skalák , Data quality control and homogenization of air temperature and precipitation series in the area of the Czech Republic since 1961.

Sterl, A. (2004), On the (in)homogeneity of reanalysis products, J. Clim., 17, 3866-3873.

Tartakovsky, A. G. and V. V. Veeravalli (2004), General asymptotic Bayesian theory of quickest change detection, Theory of Probability and Its Applications, 49, 458-497.

Tayanç, M., M. Nüzhet, M. Karaca, and O. Yenigün (1998), A comparative assessment of different methods for detecting inhomogeneites in turkish temperature data set, Int. J. Climatol., 18, 561-578.

Vandyk, D. A., X. L. Meng, and D. B. Rubin (1995), Maximum-Likelihood-Estimation via the ECM Agorithm - Computing the asymptotic variance, Statistica Sinica, 5, 55-75.

Wang, X. L., Q. M. Wen, and Y. Wu , Penalized maximal t-test for detecting undocumented mean change in climate data series, Journal of Applied Meteorology and Climatology.