Download 06_refrences

REFERENCES
[1]. Arnold, J.G., Srinivasan, R. Muttiah R.R. and Williams, J.R. (1998). Large area rvvaro
logic modeling and assessment part I: model development, J. Am. Water Resour.
Assoc. 34 (1). pp. 73-89.
[2]. Boyles, R.P. and Raman, S. (2003). Analysis of climate trends in North Carolina (19491998). Environment International, 29: 263- 275.
[3]. Crichton N.J. (1999). Information point: Spearman’s rank correlation. Journal of
Clinical Nursing 8, 763.
[4]. Choudhary. T.N. (1995). Water management: issues and strategies. J. Indian Sco. Soil
Sci. 43 (4):537—541.
[5]. Dhar, O.N., Parthasarathy, B. and Ghosh, G.C. (1974). A study of mean monthly and
annual rainfall of contiguous Indian area. Vayu Mandal, 4: 49-52.
[6]. Gosain, A.K., Rao, S. and Basuray, D. (2003). Assessment of vulnerability and
adaptation for water sector. NATCOM Vulnerability and Adaptation Workshop on
.Water Resources, Coastal Zones and Human Health, Ministry of Environment, New
Delhi.
[7]. Groisman, P. A. and Kovyneva, N. P. (1989). Preliminary estimates of climate change
on Indian subcontinent during the global warming of limited scale. Mausam 40, 73-78.
[8]. Hingane, L. S., Rupakumar, K. and Ramanamurthy, B. V. (1985). Long term trends of
surface air temperature in India. Climatol. 5:521-528.
[9]. Houghton, J.T., Meira Filho, L.G., Callander, N.H., Kattenberg, A. and Maskell, K.
(1996). Climate Change 1995: The Science of Climate Change. Cambridge University
Press, Cambridge.
[10]. IPCC (1990). In: Houghten, J.T., Jenkins, G.J. and Ephraums, J.J., Editors, 1990.
Report: Climate change—The IPCC Scientific Assessment, Cambridge University
Press, Cambridge, UK, p. 365.
[11]. IPCC. (2001). In: McCarthy, J.J., Canziani, O.F., Leary, N.A., Dokken, D.J. and White,
K.S., Editors, 2001. Report: Climate Change—Impacts, Adaptations and Vulnerability.
[12]. IPCC. (2007). Special Report on Emission Scenarios. A Special Report of Working
Group III of the Intergovernmental Panel on Climate Change. Cambridge University
Press, Cambridge.
[13]. Jagannathan, P. and Parthasarathy, B. (1973). Trends and periodicities of rainfall over
India. Monthly Weather Review, 101: 691-700.
[14]. Kahya and Kalayci. (2004). Trend analysis of streamflow in Turkey. Journal of
Hydrology.289 (1-4): 128-144.
[15]. Kendall, M.G. (1938). A new measure of rank correlation. Biometrika 30, 81-93.
[16]. Kendall, M.G. (1975). Rank correlation methods, 4th ed. Charles Griffin, London.
[17]. Khan, S., Kuhn, G., Ganguly, A.R., Erickson, D.J. and Ostrouchov, G. (2007). SpatioTemporal variability of daily and weekly precipitation extremes in South America.
Water Resources Research, 43: W11424.
[18]. Kumar, V., Jain, S.K. & Singh, Y. (2010). Analysis of long term rainfall trends in India.
Hydrol. Sci.J. 55(4), 484-496.
[19]. Lai, M. and Bhaskaran, B. (1993). Impact of greenhouse warming on climate in
northwest India as inferred from a coupled atmosphere-ocean climate model. J. Arid
Environ. 25,27-37.
[20]. Lai, M. (2001). Climatic change implications for India's water resources. Journal of
Indian Water Resources Society 21: 101-119.
[21]. Lai, M. and Chander, S. (1993). Potential Impacts of Greenhouse Warming on the
Water Resources of the Indian Subcontinent. J.EH 1 (3), 3-13.
[22]. Lai, M. and Singh, S.K. (2001). Global warming and monsoon climate. Mausam
52:245-262.
[23]. Lazaro, R., Rodrigo, F.S., Gutierrez, L., Domingo, F. and Puigdefabregas, J. (2001).
Analysis of a 30-year rainfall record (1967-1997) in semi-arid SE Spain for
implications on vegetation. Journal of Arid Environment, 48: 373-395.
[24]. Li, Zongxing, He, Yuanqing, Pang, Hongxi, Yang, Xiaomei, Jia, Wenxiong, Zhang,
Ningning, He, Xianzhong, Yuan, Linlin, Ning, Baoyin, Song, Bo. (2007). Sources of
major anions and cations of snowpacks in the typical monsoonal temperate glacial
region of China. Acta Geographica Sinica 62 (9):992-l 001.
[25]. Manabe, S., Milly, P.C.D., Wetherald, R. (2004). Simulated long-term changes in river
discharge and soil moisture due to global warming. Hydro! Sci J 49(4):625-642.
[26]. Mann, H.B. (1945). Non-parametric test against trend. Econometrica. 13, 245-259.
[27]. Manton, M.J., Della Marta, P.M., Haylock, M.R., Hennessy, K.J., Nicholls, N.,
Chambers, L.E., Collins, D.A., Daw, G., Finet, A., Gunawan, D., Inape, K., Isobe, H.,
Kestin, T.S., Lefale, P., Leyu, C.H., Lwin, Ourprasitwong, N., Page, C.M., Pahalad, .J.,
Plummer, N., Salinger, M.J., Suppiah, R., Tran, V.L., Trewin, B., Tibig, I. and Yee, D.
(2001). Trends in Extreme Daily Rainfall and Temperature in Southeast Asia and the
South Pacific: 1961-1998. International Journal of Climatology, 21: 269-284.
2
[28]. Millan, H., Kalauzi, A., Llerena, G., Sucoshanay, J. and Piedra, D. (2008). Climatic
trends in the Amazonian area of Ecuador: Classical and multifractal analyses.
Atmospheric Research, 88: 355-366.
[29]. Ministry of Water Resources (2002). National Water Policy. Ministry of Water
Resources, Government of India, New Delhi, pp. 1-10.
[30]. Parthasarathy, B. and Dhar, O.N. (1974). Secular variations of regional rainfall over
India. Quart. J. Roy., Met. Soc. 100: 254-247.
[31]. Parthasarathy, B. and Dhar, O.N. (1975). Trend analysis of annual Indian rainfall.
Journal of Hydrological Sciences, 26: 257-260.
[32]. Razeie, T., Arasteh, P.D. and Saghfian, B. (2005). Annual Rainfall Trend in Arid and
Semi-arid Regions of Iran. ICID 21st European Regional Conference 2005, Frankfurt
(Oder) and Slubice - Germany and Poland: 15-19.
[33]. Rupa kumar, K., Krishnakumar, K., Pant, G.B. (1994). Diurnal asymetry of surface air
temperature trends over India. Geophys. Res. Lett. 15, 677-680.
[34]. Rosenberg, N.J., Brown, R.A., Izaurralde, R.C. and Thomson, A.M. (2003). Integrated
Assessment of Hadley Centre (HadCM2) Climate Change Projections on Agricultural
Productivity and Irrigation Water Supply in the Conterminous United States. Part I.
Climate change scenarios and impacts on irrigation water supply simulated with the
HUMUS model. Agric. For. Meteorol. 117 (l-2):73-96.
[35]. Rov, S. S., Balling, R.C. and Jr. (2005). Analysis of trends in maximum and minimum
temperature, diurnal temperature range, and cloud cover over India. Geophys Res Lett
32:L12702. doi: 10.1029/200401,022201
[36]. Schonwiese, C. D. and Rapp, J. (1997). Climate Trend Atlas of Europe Based on
Observations 1891-1990. Kluer Academic Publishers, Dordrecht.
[37]. Shrivastava, S.K, Rai, R.K. and Pandey, A. (2008). Assessment of meterological
droughts in North Lakhimpur district of Assam. Journal of Indian Water Resources,
28:26-31.
[38]. Singh, P. and Bengtsson, L. (2004). Hydrological sensitivity of a large Himalayan basin
to climate change. Hydrol Process 18(13):2363-2385.
[39]. Sprent, P.(1990). Applied Nonparametric Statistical Methods. Chapman and Hall,
London.
[40]. Stockle, C.O., Williams, J.R., Rosenberg, N.J. and Jones, C.A. (1992). “A Method for
Estimating the Direct and Climatic Effects of Rising Atmospheric Carbon Dioxide on
Growth and Yield of Crops,” Part I: “Modification of the EPIC Model for Climate
3
Change Analysis.” Agriculture Systems 38: 225-38.
[41]. Sinha Ray KC, De US. (2003). Climate change in India as evidenced from instrumental
records. Bulletin of the World Meteorological Organization 52: 53-59.
[42]. USDA-SCS (Soil Conservation Service) (1972). National Engineering Handbook, Part
630 Hydrology, Section 4, Chapter 10.
[43]. Wang, G., Zhang, J., He, R., Jiang, N. and Jing, X. (2008). Runoff reduction due to
environmental changes in the Sanchuanhe river basin. International Journal of Sediment
Research. 23 (2): 174-180.
[44]. Wigley, T.M.L. and Jones, P.H. (1985). Influences of Precipitation and Direct CO2
Effects on Streamflow. Nature, 314:149-152.
[45]. Wilk, J. and Hughes, DA. (2002).Simulating the impact of land use and climate change
on water resource availability for a large south Indian catchment. J. Hydrological
Sciences 47(1): 56:67.
[46]. Wilbanks TJ, Kates RW (1999). Global Change in Local Places: How Scale Matters.
Climate Change, 43(3): 601-628.
[47]. Wilby RL, Charles SP, Zorita E, Timbal B, Whetton P, Mearns LO (2004). Guidelines
for use of climate scenarios developed from statistical downscaling methods. IPCC
Data Distribution Centre Report, UEA, Norwich, UK, pp. 27.
[48]. Wilby RL, Dawson CW, Barrow EM (2002). SDSM - a decision support tool for the
assessment of regional climate change impacts. Environmental Modelling & Software,
17: 147-159.
[49]. Wilby RL, Wigley TML (1997). Downscaling general circulation model output: a
review of methods and limitations. Progress in Physical Geography, 21:530-548.
[50]. Wilby RL, Wigley TML (1997). Downscaling general circulation model output: A
review of methods and limitations. Progress in Physical Geography, 21:530-548
[51]. Wilby RL, Wigley TML (2000). Downscaling general circulation model output: A
reappraisal of methods and limitations. In Climate Prediction and Agriculture, M.V.K.
Sivakumar (ed.). Proceedings of the START/WMO International Workshop, 27-29
September, 1999, Geneva. International START Secretariat, Washington, DC, pp. 3968. Wilby RL, Wigley TML (2000). Precipitation predictors for downscaling: observed
and General Circulation Model relationships. International Journal of Climatology,
20(6): 641- 661.
[52]. Wilcoxon F (1945). Individual comparisons by ranking methods. Biometrics Bulletin, 1
4
(6): 80-83.
[53]. Wilhite DA, Hayes MJ, Svoboda MD (2000). Drought monitoring and assessment:
status and trends in the United States. In: Vogt JV, Somma F (eds) Drought and drought
mitigation in Europe. Academic Publishers, pp. 149-160.
[54]. Wilks DS (1999). Multisite downscaling of daily precipitation with a stochastic weather
generator. Climate Research, 11:125-36.
[55]. Willmott CJ, Rowe CM, Philpot WD (1985). Small-Scale Climate Maps: A sensitivity
analysis of some common assumptions associated with grid-point interpolation and
contouring. American Cartographer, 12: 5-16.239.
5